Glass compositions of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
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Alkali borate systems are attractive materials from a fundamental point of view as well as technological point of view [1]. From the literature, it has been observed that certain borate glasses are of greater interest and relevance because of their suitability in the progress of waveguides, electro-optic switches and modulators, magneto-optic materials, and solid-state laser materials [2]. B2O3–ZnO glass has a high transparent window in the region from 370 nm to 2.2 μm, and these glasses are attractive host materials to incorporate rare earth elements for optoelectronics and optical fibers [3, 4]. The properties of B2O3 glass can often be altered by the addition of network modifiers. The most commonly used network modifiers are the alkali (Li2O, Na2O, and K2O) and alkaline earth oxides (MgO, CaO, SrO, and BaO) [5, 6]. When mixed with these glass modifiers, its internal structure is rearranged due to the formation of non-bridging oxygen [7]. In particular, the addition of alkali oxide to pure B2O3 causes a progressive change of the boron atom coordination number (CN), from 3 (BO3) to 4 (BO4), and results in the formation of various borate units (diborate, triborate, tetraborate groups, etc.) [1].
\nFrom the literature, it was found that with the presence of ZnO or CdO in B2O3 glass matrix, UV transmission ability could be enhanced [8]. Therefore the authors have selected Na2O, CdO, and ZnO as network modifiers. The addition of Cd and Zn oxides also results in the large glass formation domain [9]. When zinc oxide is introduced to borate glasses, there are two ways in which zinc ion can get incorporated into the glass. Zinc oxide may act as a network modifier by disrupting the bonds connecting neighboring [BO3] and [BO4] groups. On the other hand, zinc oxide can be incorporated into the glass as [ZnO4] structural units. Besides Cu2+ ions have been chosen in the present study as an EPR probe due to its EPR spectrum being sensitive enough to detect minute changes in the structure of the glasses [10]. Therefore in this article, authors have been presented the structural changes of Cu2+ ions-doped B2O3–Na2O–CdO–ZnO glass induced by addition of ZnO into B2O3 glass matrix at 10 mol% Na2O content. The various literature surveys show no evidences on structural study using FTIR, Raman spectroscopy, EPR, and optical absorption. Therefore the authors have planned to investigate the structural, optical, and physical changes in the Cu2+ ions-doped B2O3–Na2O–CdO–ZnO glass system. The authors have also studied the spin-Hamiltonian parameters and site symmetry around Cu2+ ions in these glasses using EPR and optical absorption studies. The variations in the thermal properties and other physical properties in terms of structural changes of glasses have been discussed [6].
\nGlasses with compositional formula 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (where x = 0, 7.5, 15, 22.5, and 30 mol%) were prepared using melt-quenching technique, and a series of glasses along with their codes are given in Table 1. All the chemicals used were of 99% purity from well-known companies (sd-fine, Merck, and Loba Chemie).
\nSample code | \nComposition (mol%) | \n
---|---|
BNCZ1 | \n59B2O3–10Na2O–30CdO | \n
BNCZ2 | \n59B2O3–10Na2O–22.5CdO–7.5ZnO | \n
BNCZ3 | \n59B2O3–10Na2O–15CdO–15ZnO | \n
BNCZ4 | \n59B2O3–10Na2O–7.5CdO–22.5ZnO | \n
BNCZ5 | \n59B2O3–10Na2O–30ZnO | \n
Glass compositions of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
Appropriate amounts of H3BO3, Na2CO3, ZnO, and CdO were ground with a mortar and pestle and thoroughly mixed. About 1 mol% CuO was added as a spin probe and was melted in a platinum crucible at 1000°C for 30 min in an Autoset electric furnace; a similar technique was employed by Devde et al. [6].
\nDuring the melting the crucible with homogeneous mixture was covered with a lid to avoid the volatility of the powder compounds or contamination from the furnace. Melts were stirred frequently to promote homogeneity, and the liquids were rapidly poured into a mold made with a stainless steel which was maintained at 200°C and pressed with another stainless steel plate maintained at the same temperature. The prepared glass samples were then transferred to another furnace and annealed at 300°C for 6 h to relieve thermal stress and strains of the glass samples. The prepared samples were examined, and it was found that the samples are clear, bubble free, and transparent.
\nArchimedes’ method using xylene as immersion liquid was employed for the measurement of densities of the prepared glasses at room temperature. An average of three samples of each glass code was used. Obtained density values were used to calculate the molar volume using relation Vm = M/ρ, where M and ρ are the average molecular weight and density of the glasses, respectively. Oxygen packing density (OPD) was calculated using the relation OPD = Σxini/Vm, where xi is the molar fraction of an oxide RmOn and ni is the number of oxygen atoms of this oxide [6]. The molar volume of oxygen (Vo) is the volume of glass in which 1 mole of oxygen is contained. These values were calculated using the relation Vo = (Vm)(1/Σxini).
\nVarious spectroscopic techniques were employed for structure investigation of present glass system.
\nX-ray diffraction patterns of the glass samples were recorded from Philips diffractometer (PANalytical X-pert PRO model) with Cu Kα (1.54 Å) source at room temperature.
\nThe infrared transmission spectra of all glasses were recorded at room temperature in the wave number range 400–1800 cm−1 by a Shimadzu FTIR-8001 Fourier-transform computerized infrared spectrometer. The IR transmission measurements were made using the KBr pellet technique.
\nRaman spectra of all prepared glasses were recorded at room temperature in the range 200–1800 cm−1 using a He–Ne excitation source (632.81 nm) coupled with Jobin Yvon Horiba (LABRAM HR-800) micro Raman spectrometer equipped with a 50× objective lens to focus the laser beam. The incident laser power was focused in a diameter of ~1–2 μm, and a notch filter was used to suppress Rayleigh light. Samples used for the measurement were of 1 mm thickness and 1 cm in diameter. Raman shifts are measured with a precision of ~0.3 cm−1, and the spectral resolution is of the order 1 cm−1; a similar characterization was studied by Upender et al. [11].
\nDifferential scanning calorimetry of the prepared glass powders was carried out at temperatures up to 850°C at the rate of 10°C/min using a SETARAM instrument (Model LABSYS EVO DSC; SETARAM Instrumentation, Caluire, France) to determine the thermal properties of the glasses [6].
\nJEOL-JES FE 3X EPR spectrometer was employed for recording EPR spectra of the glass samples in the X-band at room temperature with 100 kHz field modulation. Polycrystalline diphenyl picryl hydrazyl (DPPH) was used as the standard “g” marker for the determination of magnetic field; a similar technique was employed by G. Upender et al. for invention of structure of WO3–GeO2–TeO2 glasses [12].
\nUV-Visible absorption spectra of prepared borate-based glasses were recorded by using LABINDIA Analytical UV-3092 spectrophotometer in the wavelength range 350–900 nm at room temperature. The precision of wavelength measurement is about ±1 nm [12].
\nThe physical parameters of the present glasses are presented in Table 2. It is observed that the density (ρ) decreases from 3.334 to 2.815 g/cm3 with the addition of ZnO content from 0 to 30 mol% at the expense of CdO content. This could be due to the lower molecular weight of ZnO (81.38 g/mol) in comparison with CdO (128.4 g/mol). This could also be due to the lower density of ZnO (\n
Parameter | \nx = 0 | \nx = 7.5 | \nx = 15 | \nx = 22.5 | \nx = 30 | \n
---|---|---|---|---|---|
*AMW (g/mol) | \n86.589 | \n83.062 | \n79.536 | \n76.009 | \n72.483 | \n
ρ (g/cc) (±0.005) | \n3.334 | \n3.181 | \n3.033 | \n2.924 | \n2.815 | \n
†Vm (cm3/mol) | \n25.972 | \n26.112 | \n26.224 | \n25.995 | \n25.749 | \n
OPD (mol/l) | \n83.936 | \n83.487 | \n83.129 | \n83.862 | \n84.663 | \n
Vo (cm3/mol) | \n11.914 | \n11.978 | \n12.029 | \n11.924 | \n11.812 | \n
Physical parameters of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
AMW: average molecular weight.
Error in Vm is ±0.005.
The molar volume (Vm) increases from 25.972 to 26.224 cm3/mol with ZnO content up to 15 mol% then Vm starts decreasing from 26.224 to 25.995 and then to 25.749 with further addition of ZnO up to 30 mol% at the expense of CdO. This could be due to the difference between cation radii of Cd2+ ion (1.03 Å) and Zn2+ ion (0.83 Å). The nonlinear variation in Vm also suggests the dual role of ZnO content as in the present system ZnO up to 15 mol%, it plays a modifier role, and beyond it plays a glass former role. It is also observed that the oxygen packing density (OPD) decreases from 83.936 to 83.129 mol/l, while oxygen molar volume (Vo) increases from 11.914 to 12.029 cm3/mol with ZnO content up to 15 mol%. But OPD increases from 83.129 to 84.663, while Vo decreases from 12.029 to 11.812 with ZnO addition up to 30 mol%. The nonlinear variation in OPD and Vo values with the increase in ZnO content from 0 to 30 mol% could be due to the variation in density (ρ) and the dual role of ZnO in the present glass system, while the number of oxygen atoms in the glass network remains the same according to the ratio 1:1.
\nThe obtained XRD patterns of BNCZ glass system are shown in Figure 1. It is clear that a broad hump is repeatedly observed in all the samples and is the characteristic of glass, and there is no evidence of crystallization. Hence it is confirmed that the prepared samples possess glassy nature.
\nXRD patterns of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 = x = 30 mol%) glass system.
The IR transmission spectra of all the glasses were recorded in the wave number range 1600–400 cm−1 and are shown in Figure 2. The band positions and their assignments are given in Table 3.
\nIR spectra of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 = x = 30 mol%) glass system.
Band positions | \nAssignment | \n
---|---|
1360–1375 | \nSymmetric stretching vibrations of B–O bonds of trigonal (BO3)3− units in Meta, Pyro and ortho borates | \n
1260 | \nSymmetric stretching vibrations of B–O of (BO3)3− units in meta and Ortho Borates | \n
1040 | \nB–O stretching vibrations of BO4 units in tri, tetra and penta borate groups | \n
970 | \nB–O asymmetric stretching of BO4 units of diborate groups | \n
690 | \nBending vibrations of B–O–B linkages in borate network | \n
Band positions and assignments of IR bands of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
In the BNCZ glass system, significant bands are observed at about ~474, 694, 970–1040, 1250–1260, and 1360–1375 cm−1. These bands assigned to B2O3 and about 80% of the boron atoms are present in the boroxol rings, B3O6, that are interconnected by independent BO3 groups. The vibrational modes of the vitreous borate network are mainly active in three infrared regions. The IR features located in the first region that ranges between 1200 and 1600 cm−1 [13]. The second region ranges between 800 and 1200 cm−1, and the third region ranges between 600 and 800 cm−1. From Figure 2 it is evidently seen that the structure of the glass network formed by boron ions is significantly changed with the incorporation of ZnO at the expense of CdO content. The absence of IR band at ~806 cm−1 indicates that the boroxol rings are not formed in the present glass system, and hence the structure of the glasses consists of borate groups other than the boroxol rings. The weak band observed at ~474 cm−1 in all the glasses is attributed to the vibration of metal cations in their oxygen sites (RO4 groups where R = Cd, Zn) [16].
\nThe bands observed around 694 cm−1 could be attributed to the bending vibration of B–O–B linkages of various borate groups [17]. The bands near 979 cm−1 are assigned to B–O asymmetric stretching of BO4 units of diborate groups [18]. This band shifts to higher wave number side, i.e., from 979 to 1040, while the intensity of this band significantly decreased with the increase of ZnO content up to 30 mol%. The bands observed at around 1040 cm−1 are due to B–O stretching vibrations of BO4 units in tri-, tetra-, and pentaborate groups [12, 19, 20]. The bonds that appeared in the range of 1260 cm−1 are assigned to B–O symmetric stretching vibrations of (BO3)3− units in metaborate and orthoborates [21]. The intensity of this band is unaffected with the addition of ZnO content up to 30 mol%. The bands at around 1363–1375 cm−1 could be attributed due to symmetric stretching vibrations of B–O bonds of trigonal (BO3)3− units in meta-, pyro-, and orthoborates [21, 22]. The broadness of these bands was found to be more with the substitution of ZnO content up to 30 mol%. The B2O3 is built up of BO3 triangles, and upon adding ZnO, the coordination number of the boron changes from SP3 tetrahedral BO4 to form SP2 planar BO3, preserving the B–O bonding without the creation of non-bridging oxygen ions. It means that the introduction of ZnO causes a significant formation of the BO3 groups with a lower coordination number. Therefore, the progressive increase in ZnO content makes the IR bands observed at about 1040 and1373 cm−1 more pronounced. This means that the BO3 groups and hence the bridging oxygen contents are increased with increasing of ZnO content on the expenses of CdO content.
\nFigure 3 shows the Raman spectra of the present glass system in the spectral range 200–1800 cm−1 consisting of sharp, broad peaks and shoulders.
\nRaman spectra of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 = x = 30 mol%) glass system.
The Raman peak positions are summarized in Table 4.
\nSample code | \nRaman peaks (cm−1) | \n||||
---|---|---|---|---|---|
BNCZ1 | \n470 | \n697 | \n770 | \n948 | \n1420 | \n
BNCZ2 | \n464 | \n697 | \n770 | \n943 | \n1420 | \n
BNCZ3 | \n464 | \n697 | \n770 | \n942 | \n1420 | \n
BNCZ4 | \n457 | \n697 | \n770 | \n935 | \n1420 | \n
BNCZ5 | \n447 | \n697 | \n770 | \n932 | \n1420 | \n
Raman peak positions of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system, with error ±1 cm−1.
The Raman spectrum of vitreous B2O3 is dominated by a strong peak centered at ~804 cm−1. The ~804 cm−1 peak is assigned to the boroxol ring breathing vibration involving little motion of boron [23, 24, 25]. The desired peak at ~ 804 cm−1 was not appeared and therefore boroxol rings are absent in the present glass system. Therefore, boroxol ring is absent in these glasses. The Raman peak at around 447–470 cm−1 is assigned to pentaborate and diborate groups [26]. The weak Raman peak appearing at ~697 cm−1 is due to metaborate/(BO3)3− vibrations [27, 28]. The strong peak at around ~770 cm−1 is assigned to symmetric breathing vibrations of six-membered rings with both BO3 triangles and BO4 tetrahedra (tri-, tetra-, or pentaborate groups) [29, 30]. The intensity of this peak is significantly increased with the addition of ZnO content up to 30 mol%. This observation suggests more number of BO3 units instead of BO4 units in six-membered rings. No Raman peaks appeared at around ~ 834 cm−1 in any of the glass, and it indicates that there are no pyroborate groups (B2O54−) present in these glasses. The pentaborate and tetraborate groups were assigned by the peaks observed in the range ~930–950 of Raman spectrum. The broad band around 1420 cm−1 was assigned to the B–O− bonds attached to the large number of borate groups [31, 32]. The decrease in intensity of the peak at ~1420 cm−1 is due to increase of ZnO content up to 30 mol%. This shows that significant formation of Zn2+-B–O− bonds by reducing the number of non-bridging oxygen’s (NBO’s) similar finding was recorded by Upentre et al. for the glass system (90–x)TeO2–10GeO2–xWO 3 (7.5 ≤ x ≤ 30) doped with Cu2+ ions [33]. The observed slight decrease in intensity and shift in the peak ~470 toward lower wave number (447 cm−1) indicates the decrease of penta- or diborate groups in the glasses. The intensity of the peak at ~940 cm−1 decreases while shifts to lower wave number from 948 to 943, 942, 935, and then 932 with increase in ZnO content. This may indicate the presence of less number of pentaborate groups and bond lengths of B–O bonds of pentaborate groups could be increased. The above results suggest the presence of more BO3 units in the glasses with the addition ZnO as Zn2+ establishes the linkages of NBOs with BO4 units.
\nThe DSC thermograms of the present glasses are shown in Figure 4. Glass transition temperature (Tg) is always visible, and this result is in agreement with the result of XRD data as both the techniques confirm the glassy nature of the samples.
\nDSC curves of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 = x = 30 mol%) glass system. Heating rate was 10°C/min.
The values of glass transition temperature (Tg) are given in Table 5.
\nSample code | \nGlass Transigirían temperature Tg (°C) | \n
---|---|
BNCZ1 | \n497 | \n
BNCZ2 | \n494 | \n
BNCZ3 | \n488 | \n
BNCZ4 | \n492 | \n
BNCZ5 | \n496 | \n
Glass Transigirían temperature Tg (°C) for compositions of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
From this table it is observed that Tg decreases from 497 to 488°C with gradual increase in ZnO content up to 15 mol% at the expense of CdO, and thereafter Tg increases from 488 to 492 and then to 496°C with further addition of ZnO up to 30 mol%. This behavior suggests that Tg varies nonlinearly with the addition of ZnO content in place of CdO. It is well known that a higher cation radius of Cd2+ (1.03 Å) replaced with a lower cation radius of Zn2+ (0.83 Å) decreases the overall cation polarizability (polarizability is proportional to the cation size); as a result, Tg should decrease linearly with ZnO content. On the contrary to this, the bond strength of Zn–O (151 kJ/mol) is more than that of Cd–O (101 kJ/mol) [33]; as a result, Tg should increase linearly. But none of the reasons are suitable in this case. Therefore, the observed nonlinear variation in Tg with ZnO content can be understood in the following way: As it was observed clearly from FTIR and Raman that more numbers of BO4 units are present up to 15 mol% of ZnO, then with further addition of ZnO in place of CdO up to 30 mol%, most of BO4 units are converted to BO3 units. The bond strength of BO4 units (373 kJ/mol) is smaller than BO3 units (498 (kJ/mol%) [34]. Hence, Tg decreases up to 15 mol% of ZnO and then starts increasing with further addition of ZnO up to 30 mol%. Besides this the higher field strength of Zn2+ ions (0.53 cm−2) than that of Cd2+ ions (0.38 cm−2) in the glass network also causes to increase the Tg [34]. However, the ionicities of both Zn–O (51%) and Cd–O (51%) are the same, and its role could be neglected. From Figure 4 it is clearly seen that except in BNCZ1 the onset crystallization temperature (To) is not prominently observed with the incorporation of ZnO content. This indicates that the increase of ZnO in place of CdO has a tendency to prevent crystallization. Thus, the present glasses are more thermally stable against crystallization.
\nThe electron paramagnetic resonance spectra of Cu2+-doped BNCZ series are shown in Figure 5. It is essential to dope the glass samples with Cu2+ ions as this gives resonance signals; a similar work is reported in earlier literature [35, 36, 37]. The copper ions with spin 1/2 gives a nuclear spin I = 3/2 for 63Cu and 65Cu and therefore results in (2I + 1) hyperfine components, i.e., four parallel and four perpendicular components.
\nEPR spectra of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 = x = 30 mol%) glass system at room temperature.
The spectra recorded for prepared glass series exhibit three parallel components in the lower field region and one parallel component which is overlapped with the perpendicular component. The EPR spectra of copper ions in all the glass samples have been analyzed using an axial spin-Hamiltonian in which the quadrupole and nuclear Zeeman interaction terms are ignored.
\nThe symbols have their usual meaning.
\nThe solution to the spin-Hamiltonian gives the expressions for the peak positions related to the principal values of g and A tensor as follows [35, 36, 37].
\nFor parallel hyperfine peaks,
\nFor perpendicular hyperfine peaks,
\nThe symbols have the usual meaning. Using Eqs. (2) and (3), the spin-Hamiltonian parameters of all the glasses have been calculated and are tabulated as shown in Table 6 [12].
\nSpin-Hamiltonian parameters (SHP) of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
From Table 6, the
The UV-Visible absorption spectra of prepared glass series were displaced in Figure 6.
\nOptical absorption spectra of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO.
The observed absorption band around ~765 nm in BNCZ1 is assigned to the 2B1g → 2B2g transition (ΔExy) of Cu2+ ion in octahedral coordination with a strong tetrahedral distortion, and the EPR results were found to be in agreement with this assumption [36]. From Figure 6, it was found that the absorption peak firstly blueshifted, i.e., from 764 to 760 and then to 756 nm with the addition of ZnO up to 15 mol%, and then redshifted, i.e., from 756 to 760 to 763 nm with the further addition of ZnO from 15 to 30 mol%. This result is consistent with the observations made in FTIR, Raman, and DSC. As pointed out by Raman and IR analysis, the major structural changes in the present glass take place with the addition of divalent ZnO. This consequence suggests that ZnO enters the glass system in the form of network modifier. Hence, all the observations are clearly from tetragonal (BO4) to trigonal (BO3) units with the incorporation of ZnO content at the expense of CdO content.
\nThe variation in peak position with ZnO doping in glass system BNCZ (30 mol%) indicates the change in the ligand field around paramagnetic Cu2+ ions. This could be due to higher field strength of Zn2+ ions (0.53 cm−2) than that of Cd2+ ions (0.38 cm−2) [33]. The change in polarizability of oxygen ions surrounding the Cu2+ may also change the peak position [6]. This can be understood as follows. As ZnO content substitutes CdO content from 0 to 30 mol%, from IR and Raman structural analysis, it was observed that ZnO has played the dual role. Thus, during the modifier role of ZnO (up to 15 mol%), weak bonds Zn2+–O–B were formed in the place of B–O–B or Cd–O–B, whereas during the former role of ZnO (from 15 to 30 mol%), strong Zn–O–B bonds were formed. Thus the oxygen ions in Zn2+–−O–B bonds are less tightly bound than in B–O–B or Cd–O–B bonds. Thus the oxygen ions can be treated as NBOs in which electrons are loosely bound to the nucleus, and hence these NBOs are more polarized than the oxygen ions in B–O–B or Cd–O–B. These NBOs are decreased during the conversion of BO4 units into BO3 units when ZnO started playing the former role above 15 mol%. Similar observations were reported by other authors [37]. With the conversion of four coordination boron atoms [BO4] into three coordination boron atoms [BO3], the excess of oxygen converts some of Zn2+ ions into tetrahedra [ZnO4] where the structural modification in the glass network could be reason for the variation of the ligand field strength of Cu2+ ions. This may be the reason why the optical absorption maximum has showed the nonlinear variation with ZnO content.
\nThe data of EPR and optical absorption can be correlated to understand the environment around Cu2+ ions in the present glass network; in connection to this, the bonding parameters were evaluated using EPR and optical data by the following equations [6].
\nwhere ΔExy and ΔExz,yz are the energies corresponding to the transitions of 2B1g → 2B2g and 2B1g → 2Eg, respectively, and λ is the spin-orbit coupling constant (= −828 cm−1) and the bonding coefficients α2, β12, and β2 (≈1.00) characterize in-plane σ bonding 16 between the d orbital of Cu2+ and the p orbital of ligand, in-plane π bonding between the d orbital of Cu2+ and p orbital of ligand and out-of-plane π bonding between the d orbital of Cu2+ and p orbital of ligand in the glasses respectively [6]. Besides the values of ΔExy and ΔExz,yz are also calculated and presented in Table 7. In the present glasses, the bonding parameters α2, β12, and β2 were evaluated using the following equations [38, 39] and are displayed in Table 7.
\nParameter | \nx = 0 | \nx = 7.5 | \nx = 15 | \nx = 22.5 | \nx = 30 | \n
---|---|---|---|---|---|
λ (nm) (±1) | \n764 | \n760 | \n756 | \n760 | \n763 | \n
ΔExy (cm−1) | \n13,089 | \n13,158 | \n13,228 | \n13,158 | \n13,106 | \n
ΔExz,yz (cm−1) | \n20,666 | \n19,408 | \n20,017 | \n19,117 | \n19,408 | \n
α2 | \n0.798 | \n0.799 | \n0.804 | \n0.802 | \n0.803 | \n
β2 | \n0.964 | \n0.963 | \n0.957 | \n0.959 | \n0.958 | \n
β12 | \n0.793 | \n0.794 | \n0.801 | \n0.803 | \n0.797 | \n
Γπ (%) | \n41.4 | \n41.2 | \n39.8 | \n39.4 | \n40.6 | \n
Γσ (%) | \n37.33 | \n37.15 | \n36.22 | \n36.59 | \n36.41 | \n
Bonding parameters of 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (0 ≤ x ≤ 30 mol%) glass system.
Here P is dipolar hyperfine coupling parameter (=0.036 cm−1). From Eqs. (4) and (5), in order to determine Cu2+ bonding coefficients, besides the EPR parameters, the energy positions of the absorption bands of Cu2+ which indicate the values of ΔExy and ΔExz,yz are required. Since one absorption band corresponding to 2B1g → 2B2g transition (ΔExy, are presented in Table 7) was observed, the position of the second band can be estimated by using the following equation [39] and the values are presented in Table 7.
\nwhere K2 is the orbital reduction factor (K2 = 0.77) and λ is the spin-orbit coupling constant.
\nThe normalized covalency of the Cu2+–O in-plane bonding of σ and π symmetry is expressed in terms of bonding coefficients α2 and β12 as follows:
\nwhere S is the overlapping integral (Soxy = 0.076). The values of Γσ and Γπ are given in Table 6. It is clear from Table 7 that both of these values are varied with addition of ZnO content to B2O3 network. This could be due to variation of structural changes within the glasses. In general if α2 have smaller values, then the greater the covalent nature of the bonding. The calculated values of α2 for prepared glass series (the range 0.798–0.803) suggest that the in-plane σ bonding in the glasses is moderately covalent in nature, whereas the values of β12 (0.793–0.803) obtained for various glasses indicate that the in-plane π bonding is significantly ionic in nature.
\nThe changes in this parameter can be attributed to the changes in O–X bonds (where X = B, Cd, and Zn) because it reflects the competition in the Cu2+–O–X bonds, between the cupric ion and its neighboring X cations for attracting the lone pairs of the intervening oxygen ions. In the present system, the values of β2 were found to be close to unity, and it suggests that out-of-plane π bonding is more ionic in nature and the magnitudes of all bonding parameters are comparable to those found for Cu2+ in other glasses [6].
\nTransparent glasses with composition 59B2O3–10Na2O–(30 − x)CdO–xZnO–1CuO (where x = 0, 7.5, 15, 22.5, and 30 mol%) were prepared by melt-quenching technique. It was observed that the density (ρ) decreases, while OPD, molar volume (Vm), and oxygen molar volume (Vo) are nonlinearly varying with the addition of ZnO content from 0 to 30 mol% at the expense of CdO content. From FTIR studies, it is found that the glasses are composed of [BO4] and [BO3] units in various borate groups. FTIR and Raman studies revealed that more numbers of BO4 units are present up to 15 mol% of ZnO, and then with further addition of ZnO in place of CdO up to 30 mol%, most of BO4 units are converted to BO3 units. The nonlinear variation in Tg is due to the dual role of ZnO. From EPR results, it was found that
Wouldn’t the world be a better place if there were no limits to sacrifice? Most people will answer yes to this question. When it comes to organ transplantation, can this fact occasionally contradict primum non nocere, “first, do no harm”, which is the basic doctrine of medicine. Although selfishness is rarely accepted as a strategy for the benefit of the group, in evolutionary formulation, altruism benefits the group and selfishness interferes with altruism. While the living donor benefits the person who needs organ transplantation, they assume a group of life risks in advance. In this case, assessments will be multi-layered. Can the recipient’s physician take a paternalistic approach to the benefit of their patient? How much risk can the donor take with the thought of benefiting another person? How should the decision of the potential donor to donate organs be handled? How should the organ donation decision based on their altruistic approach be evaluated within the scope of autonomy? Do the risks undertaken by the donor mean that they will be harmed? It is of course possible to augment the number of questions, but the need for organ transplantation is increasing every other day. The number of donors does not match the needs, and this increases the need for organs every other day and causes the waiting lists for organs to get longer. Due to the scarcity of cadaver donations especially in some countries, organ transplantation, including kidney transplantation, is performed mainly from living donors.
With the increasing need for organs, organ transplantation from living donors, who are relatives of the recipient or not, is becoming more common, and even scientific studies on organ and tissue transplantation present living organ donors as an alternative to long-term dialysis treatment [1].
In justification of transplantation procedures with organs obtained from living donors, one has to be genuinely volunteer and to give informed consent under free will. Saving an individual’s life and donating living organs can be a commendable option. However, to make sure the utility reaches its aim, a balance must be maintained between the utility provided to the sick person and the cost that the person taking an altruistic approach will pay. It should be essential to minimize the damage and maximize the possible utility in organ transplantation practice.
Various ethical statements suggest that the individual should voluntarily donate organs of their free will by giving informed consent, the donation should be exempt from exploitation and pressure, the donor should have the freedom to withdraw from the donation process at any time, and that the transplant team should make sure that the donor’s decision to donate is voluntary and not manipulated. The correct definition of volunteering is an issue of practical importance. The answer to the question of how donors’ volunteering should be properly assessed is far from a resolution today. Although standards about informing donors and how to control the information they understand have been developed (for example, the US Medicare Program), an empirical assessment standard of whether the decision to donate is voluntary is not developed enough to meet the relevant ethical norms [2]. One of the most important studies on the topic is the one carried out by Al-Khader. This study aimed to develop a scoring and rating system for assessing the volunteering of potential living donors [3]. In light of, a scoring and grading model was proposed in our country too, to determine the volunteering of living donors in kidney transplantation [1].
The assessment of potential donors’ willingness to volunteer for organ donation, which is basically a difficult process, handles issues, such as motivation to donate, social status and family ties, economic status, relationship with the recipient, evidence of volunteering, and proof of a financial reward. Various ethical guidelines on organ transplantation from living donors have been developed around the world. One of the first ethical guidelines suggested is “Consensus Statement on the Live Organ Donor” [4]. In the light of this guideline, other ethical guidelines for the assessment of living donors have been developed [5].
When living donors want to donate organs, it is important to determine whether they are really volunteers or whether they are subject to a relationship of interest or control over their volunteering. It is an ethical and legal requirement for the donor to donate of their free will and by fully volunteering. The creation of a measurement tool on organ transplant volunteering is considered to be important in terms of the value and non-instrumentalization of human beings.
Contrary to the expectations of transplant surgeons, the use of living donors in countries, such as Turkey, Saudi Arabia, or South Korea is increasing every other day, resulting in more transplants from living donors than cadavers [6].
Nowadays, with the acceptance of cross organ transplants and living organ donations from non-relatives, the issue of volunteering and altruism of volunteers has become much more important. Lack of a standard approach to these issues is one of the biggest problem areas.
Utility of organ transplantation is available to the recipient under all circumstances. Health business is a utilitarian business. For this reason, utility fits the basic philosophy of healthcare very well. However, no matter how the individual’s actions are conditioned to positive and beneficial results, negative and undesirable consequences may accompany these beneficial results as well. In the context of doing no harm, one of the main topics that need to be addressed is who or what is responsible for the damage, if any, and the other is assessment of the damage. Undoubtedly, balancing the benefit and harm is of particular importance for high-risk healthcare providers.
Morality requires that we do not only avoid harming people and regard them as autonomous but also contribute to the well-being of other people. This is expressed under the title of “utility”. Apart from avoiding harming others, people should take positive steps to help other people. The utility can be examined under the “positive utility” heading, which refers to the action of the subject to provide some benefits to others, and utility, which requires the subject to establish a balance between benefits, risks, and costs to achieve the best overall results [7]. Regarding our subject, it is necessary to talk about the utility and saving duty for the specific (i.e. for certain people) rather than the general benefit.
General utility targets all persons regardless of special relationships. The utility specific to persons emerging as a result of moral relationships, contracts, and special ties usually applies to certain persons, such as our children, friends, parties to the contract, or patients. Although the idea that we have an obligation to all people is controversial, almost everyone agrees with the idea that we have an obligation to act for the benefit of the people with whom we have special relationships [7].
Beauchamp and Childress argues that the “duty to save” requires an obligation to provide a prima facie utility if all of the following conditions are met, even if close moral relationships based on specific agreements or family and friendship ties are excluded.
Person Y is at risk of serious loss or damage to his life, health, or other fundamental interests.
The action of person X (alone or in the relevant chain of actions) is necessary to prevent this loss or damage.
The action of person X (alone or in combination with other actions) will most likely prevent this loss or damage.
Person X will not put himself/herself at any critical risk, cost, or burden by performing this action.
The expected benefits for person Y outweigh the damage, cost, or burden that person X may face [7].
In the light of these evaluations of Beauchamp and Childress, the 4th condition constitutes the debate on whether living donors who have a special contract for organ transplantation or have family and friendship ties have an obligatory saving mission. If we do not consider a person’s donation of a kidney as “a critical risk, cost, or burden”, then we put potential living donors under obligatory duty to save. Putting the living donor, who will only have moral gains, under the direct obligation of compulsory saving would be a point in contradiction with the concept of volunteering. Also, another issue to discuss is which of the individuals who meet these conditions and have a family, friend, or special contractual relationships with the recipient will fulfill this obligation first.
It should be noted that the obligation to save is at the core of why living organ donors mostly donate organs to their relatives (family, friends, relatives, etc.). Even if the conditions stated by Beauchamp & Childress are met, it is a matter of debate whether we have an obligation to save people we do not know, especially in terms of organ transplantation. The fact that people hesitate to donate living organs to patients they do not know can be shown as evidence of this matter. Expecting such a sacrifice from the whole society will not go beyond pursuing a high ideal.
Balancing the duties of providing utility and doing no harm with the principles of respect for autonomy and justice is accepted as essential [8]. This balance requires the determination of the capacity and autonomy of living organ donors and the careful examination of the stages that require their voluntary consent.
In this context, the volunteering of living donors who want to give a “new life” to their family, friend, or someone they do not know as a living organ donor should be determined well, and the special utility action of the person should be ethically assessed within the concept of obligation to save.
The majority of scientists studying living organ donation ethics have reached a consensus on the issue that giving a certain level of harm to competent volunteers to save another person’s life requires that a valid consent for the donation is available, living organ donation provides a general positive balance of harm and benefit that cannot be achieved in a way that is less damaging to donors and recipients, and that the donation does not lead to significant and long-term morbidity or mortality of the donor.
Altruism, which is also a piece of modesty, is the ability of a person to prefer someone else’s purposes and desires over their own purposes and desires. Altruism, which is the most important factor underlying the expression of volunteering, is one of the basic principles of organ transplantation.
Although there are partial similarities in the assessment of potential organ donors, there are regional differences in how assessments are carried out. The criteria explaining who is allowed to donate and who will be disqualified as a donor also differ.
Family members who make an organ donation will benefit from a successful organ transplant operation to their loved ones, which can be effective in the risk and benefit discussion during the approval process. It may be necessary to limit the sacrifice allowed. For example, while we do not accept a living heart donor for obvious reasons, we know that most donors can live with a single kidney.
It is difficult to predict whether a particular organ donation is an altruistic act because while most recipients benefit from the transplant, the recipient may be in a worse condition if an organ is rejected or the operation fails. As an altruistic action/practice is judged by the outcome, it is difficult to pre-operationally determine whether any special donation proposal is acceptable. Altruism is one of the basic principles of organ transplantation. In organ transplantation;
altruistic action must be an action that leads to an outcome,
the action should be directly linked to the aim,
the action should aim at enhancing another person’s well-being or quality of life,
if the person wants to take action for another person, the result of the action, whether it is bad or it generates negative consequences in the long run, will not decrease the altruistic nature of that action [9].
Merriam-Webster dictionary defines altruism as unselfish respect and commitment to the well-being of others [10]. The Contemporary Turkish Dictionary of the Turkish Language Association defines the concept of altruism as “the state of being altruistic, selflessness”. The synonyms of altruist and altruism are given as selfless and selflessness. According to the same dictionary, an altruist is a person who tries to be useful to someone else without pursuing any personal benefits [11].
The word altruism is derived from the word alter, which comes from Latin meaning “other”. In the 1830s, Auguste Comte used this word as a general term to mean “care for others”. While altruism often points out to sparing thought for another, people can self-sacrifice due to environmental pressure while taking an altruistic approach. While volunteering and personal preference come to the fore in altruism, it may be possible for the person to act as a donor even if they are not willing. If a person acts with completely altruistic motives, that is, if the self-seeking motives are completely absent, we can define this action as a “pure” state of altruism. We must be careful to distinguish purely altruistic behavior from self-sacrificing behavior: the former does not pursue personal gains, while the latter involves some loss. Altruism is the opposite of egoism. However, the person who transcends egoism can be altruistic. A person, not who takes action in a situation where their interests are not harmed at all, but who does what is necessary in a situation that touches their own interests or who can do what should be done and act fairly will be altruistic.
Sacrifice can be seen as a manifestation of individual autonomy. In this case, it is necessary to accept a certain risk in advance. It is unavoidable that the operation to be performed to remove the transplantable graft is risky even if the donor’s health is excellent. The short-term mortality risk for living kidney donors is roughly the same as the risk taken by any patient under general anesthesia. People take risks in their daily lives, which are far greater than the risks often imposed by donor surgery, with little or no direct benefit to their health. The risk of damage from kidney donation is much less compared to the many risks we all face in daily life. Therefore, if both the donor and the recipient are informed about the risks of the surgery, the long-term outcomes of the donation, and the forecast of factors that may affect the success of the transplant, the living organ donation will not push the limits of an acceptable sacrifice.
Schopenhauer mentions denial of the will, silencing the ego, and transcending egoism, which are essential for the existence of freedom, justice, and love in the world and says that this can occur in two ways: by gaining knowledge of the suffering of others or by the person’s own great suffering. Schopenhauer says that the vast majority of those who deny the will achieve it in the latter way; not only by the acquisition of knowledge but also by the experience of pain. According to Kant I, the fact that action or the will at the basis of the action is determined by the self-love of maxims makes that action unethical. Therefore, it would not be wrong to say that morality and freedom can only be achieved when the person who determines the actions does not have desires and tendencies [8].
If a social behavior decreases the appropriateness of the organism performing the behavior but increases the suitability of others, it is considered an altruistic behavior. Although the concept of altruism was first introduced within the discipline of sociology, today it is frequently used in fields, such as sociology, psychology, theology, and education. Definitions of altruism handled in different perspectives and different disciplines naturally vary, too. In almost all disciplines, altruism is not understood as showing helping behavior without an expectation of personal reward or benefit. Should altruism be understood as the individual’s consideration of well-being of others as much as his/her own or as seeing the well-being of others above his/her own? If a person sees others’ well-being over/before his/her own, he/she will be seen to be sacrificing for others without expecting a response. When altruistic behavior is shown with the expectation of gaining benefit from the person sacrificing, this situation may sometimes appear in the form of cooperation or showing off.
Since the altruism in question here is realized with the expectation of self-interest, this situation is based on mutual altruism, and it can be said that altruism is a kind of strategy that aims to gain respect in society. Gaining public reputation and the desire to benefit from the new opportunities that society offers to them can also support this type of behavior. The person who acts altruistically in the latter form of altruistic behavior, which is based on volunteering without any expectation of benefit, and where the motivation to live for others is dominant, does not seek reward, and deterrent effects do not influence him/her in any way. It should not be forgotten that in the domain between these two views regarding altruism, a spiritual gain to be obtained from the person who has sacrificed will be dominant. It is in this domain that one’s moral gains in return for altruistic behavior are called theological and moral altruism [12].
The most important factor that distinguishes altruism from other purposive behaviors such as “helping” and “obeying social rules” is that the altruist sacrifices something from themselves and takes on a burden depending on their behaviors. This burden distinguishes altruistic behavior from individual behavior, such as “benevolent” or “kind, manners”. The behavior of the altruist, which emerges in social life and is “for the benefit of someone else but brings harm to themselves”, varies by the conditions, the cause that leads to the behavior, and the behavior process. For this reason, the concept of altruism also swings between Kropotkin’s understanding of absolute altruism [13] and mutual altruism approaches based on expectations.
Pro-social behaviors include behaviors that may be for the benefit of another person or a group, which are shown without being under pressure and voluntarily. Bierhoff [14] distinguishes helping behavior, pro-social behavior, and altruistic behavior as follows. Helping is a broad term covering all types of interpersonal support. Pro-social behavior is a rather narrower concept than helping because the action is intended to improve the status of the recipient, and the recipient is not an institution but a person. Altruism, on the other hand, is pro-social behavior, which means that with an additional restriction, the motivation of the person who helps is determined by perspective acquisition and empathy.
The proportion of healthy adults who are potentially able to donate kidneys is greater than the number of deaths under conditions that comply with a donation. The number of people willing to donate instead is limited. It is not surprising that a healthy person may be reluctant to undergo surgery without clinical benefit, and some donors in most countries donate to family or close friends. Some factors affecting this situation, such as the number of people waiting for transplantation and the benefits of organ donation, can be presented through various channels, and this can highlight the person in terms of donation. Some organ donation campaigns have featured individual ‘case studies’, which are sometimes called ‘stories of hope’ that tell the story of people awaiting a transplant and describing their situation and highlight the benefits a transplant can provide. The use of case studies aims to motivate and address people to take action to help others and create empathy by making the human impact of organ deficiency clearer.
The empathic-altruism hypothesis, widely described and proven in the psychological literature, suggests that empathic anxiety for another can lead to altruistic motivation to improve the well-being of the other [15].
Traditionally, altruism refers to a situation where one takes action for the benefit of another even when self-sacrifice is required. Therefore, altruism shows up with actions since goodwill and good thoughts are alone not enough. One goal of this action should include helping another person. If the well-being of the other person is an unintentional or secondary result of an action that one takes to improve one’s own well-being, this action is not altruistic. Altruism does not change according to circumstances. Considering these characteristics, altruistic people are those who have a feeling of caring/considering other people.
There is no widely accepted classification of the types of altruism; however, two types of altruism, normative and hedonistic, are mentioned in some studies. While normative altruism can emerge through moral intuition, non-moral social rules, or logic, hedonistic altruism emphasizes that the individual finds a value in their perception of the situation where other individuals’ distress decreases, they are better off, or they are happier [16].
Ethical altruism is based on the principle that altruism is a virtue, even an obligation. Some might argue that people are always generous and altruistic. This view may apply to a sole advocate of ethical altruism. At this point, the person expressing opinion actually advocates psychological altruism. It is worth noting the consequences of pure altruism-related behaviors based on the fact that everyone accepts the assumption of desiring very little for themselves and very much for others by one’s voluntary sacrifice of their own pleasure to give pleasure to others. All those who behave in this way should not have thoughts for themselves as the giver, nor for others as the recipient, when considered not only as the waiver but as the acceptor of what has been renounced. A sense of compassion that is worrisome for others, willingly self-victimizing to benefit others, cannot be achieved without thinking that those who victimize themselves by giving something to others expect a benefit from it [17].
Moral altruism is based on rewarding the altruistic and punishing those who are not altruistic [18].
Kin altruism is defined as the situation where an individual jeopardizes their own safety to increase the survival chance of other people with genetic or blood ties in the same family [19].
Generally, the living donor is an adult family member whose first-degree relative has terminal stage renal disease. Their experience provides them with insight into the challenges of kidney disease and transplantation. Individuals, motivated by altruism when they choose to donate kidneys after thinking for a long time about risks and benefits, can be emotionally unsettled, and even if they believe they are acting with a desire to help, their ability to act autonomously and without coercion may be endangered.
When the priority of the family concerning organ donation is considered in the blood tie theory, the emergence of altruistic behavior is explained by kin relationships. The individual behaves more altruistically towards their close relatives who carry the same genes, such as mother vs. child, and siblings vs. siblings, compared to other individuals. As the blood ties decrease, the desire to tolerate harm for altruistic behavior or the likelihood of the emergence of altruistic behavior decreases. The reason for this is that human beings have gone through a psychological evolution process in a way that motivates them to spare even their lives in order for their own genes to be permanent. Thus, a person who has close relations to an altruistic individual can survive through the behavior of this altruistic relative.
Partial altruism, which means the individual shares their assets with others, also constitutes an example of altruism approaches, especially in organ transplantation. While doing a favor to others, the person may have sometimes thought of obtaining financial gains from this behavior.
Living donors without a genetic link are increasingly used worldwide, and various approaches support the application. Donors who are not genetically linked to the recipient and who are emotionally connected to the patient and motivated by a desire to help, without an expectation of any material gains can be examples of partial altruism. Many psychological studies show people behave more altruistically towards their friends who have strong emotional bonds with compared to others even though they have no kin relationship. In a meta-analysis investigating factors related to organ donation [20], it was found that education, religion, knowledge, attitude, social influence, altruism, and family positively affected organ donation and that fear of death and the fear of organ donation negatively impacted it.
Pro-social behavior has been suggested by some social scientists as the opposite of anti-social behavior and has been defined as a behavior done with autonomous and free will that benefits others. According to Batson, there are two types of pro-social behavior: egocentric and other-centered. In egocentric pro-social behavior, the person expects to be rewarded or escape from any negativity for the positive behavior to another, while in other-centered pro-social behavior, the only goal of the person is to be helpful to the person to whom the positive behavior is directed, and there is no personal expectation in return for this behavior [21]. While this type of behavior is specified as altruistic behavior, one of the best examples of this is organ donation after death. A person cannot benefit from donating their organs after death.
In a study on the phenomenon of altruistic behavior, titled “An investigation on epistemological problems”, Yeşilkaya approaches the subject with a three-color classification. The view claiming that altruism is based on the expectation of gaining a benefit from the person or the community that receives the sacrifice is characterized by the “black” metaphor, and the view claiming that this kind of sacrifice is made without expecting any return from any source is characterized by the “white” metaphor. However, when the research on this subject is examined, a third, “gray”, understanding, which makes the epistemological blurriness that already exists more thought-provoking, stands out. The study points out that this hybrid approach, which makes the subject relatively more complicated, differs completely from the “black” view in terms of from whom or where to expect the return of altruistic behavior, but reveals clearer boundaries than the “white” view. As a matter of fact, although this understanding accepts that altruistic behavior is realized with an expectation, it is seen that the addressee of this expectation is based on the understanding that it is not the person or the community that receives the sacrifice but a completely different motivator and a different source of power. In other words, according to the “gray” view, it is accepted that there is an expectation that motivates the individual to act altruistically as in the “black” view, and it is essential not to expect a return from the person who is the subject of the sacrifice as emphasized by the “white” view. That is, the person acts voluntarily [22].
Some critical points can be mentioned when talking about altruism. Some studies have shown that personality is not effective in attitudes towards organ donation, but altruistic nature affects attitudes towards it [23].
People who volunteer to be a living donor with a completely altruistic attitude, without expecting anything in return, make a great sacrifice. Whether the approach of donors is really altruistic in organ transplantation requires a good ethical evaluation.
Cognitive framework and processing, religious beliefs and expectations, worldview, empathy, and self-perception determine the altruistic approach. The meaning conveyed by a statement can be defined as the cognitive meaning as the type of meaning that stands directly opposite to the emotional meaning that reveals people’s feelings and emotional responses. In the cognitive framework and processing, the process involving the knowing activity with intellectual knowledge refers to activities, such as thinking, grasping, and reasoning and mental behaviors, such as symbolization, belief, and problem-solving [24].
Religious assessment is an assessment of depth, sophistication, and holiness. Religion is a matter of hearing certain things, believing in them, and engaging in certain voluntary activities according to them.
When studies conducted with living donors are examined, it is stated that religious beliefs cause a strong motivation in the donation of kidneys in relatives and non-relative donors. The donation decision of the donor must be examined in detail. Minimal risk to the donor and maximal benefit to the recipient should be the primary objective. The weight of religious elements in the altruistic approach should also be determined.
World view: It is the body of beliefs, thoughts, and attitudes of an individual or a group of people about humanity, future, or similar matters. The most powerful element for donors has been identified as “helping others”. Whether the recipient is a relative or not, the donor believes that there will be an increase in self-respect by donating organs.
However, those who accept the help, that is, organ recipients, may feel guilty and indebted. They do not want their donors to be harmed. Feeling guilty about what we do or do not do, say or do not say is another way of wasting time unnecessarily [1].
Patients in need of kidney transplantation experience a long and troublesome process. It seems that most of the donors have witnessed this process. For most donors, not being a donor in this shared life would be ‘heartbreaking’ for the recipient.
Besides, the fact that the dialysis process reaches an intolerable position and the reflection of this in words motivates the donor to apply to a transplant center as quickly as possible.
Taking the altruistic approach as a basis in organ donation; for example, the kidney may have been reserved for
a loved one or a relative within the scope of direct donation,
anyone on the general waiting list, or
a recipient that has already been qualified.
The donors’ actions can be based on individual autonomy and an altruistic approach. Undoubtedly, regarding the decision expressed, in addition to the freedom and decision-making competence expressed by Beauchamp and Childress, the interviews about the choice in terms of the donor, as emphasized by Appelbaum and Grisso, the information provided, awareness of the current situation, and the information given should be reviewed and the deficiencies - if any - must be completed [1].
The word ‘voluntary’ comes from the Old French word ‘voluntaire’, which was derived from ‘voluntarius’, whose Latin root is ‘voluntas’. The root of the word ‘voluntary’ is ‘voluntas’, meaning ‘will’ in Latin, which means that the individual undertakes a task with their own will and wish. On the other hand, as the Oxford English Dictionary states, what is ‘voluntary’ is a phenomenon that is ‘not restricted or reminded or suggested by someone else’s assistance’. ‘Volunteer’ is also used for ‘deliberate action’ and when it is used for gifts, it means giving freely or spontaneously to another person [25].
Volunteer in the current Turkish Dictionary of the Turkish Language Association is defined as “a person who willingly undertakes to do a job without any obligation”. In the context of consent, “volunteering” refers to the right of a person to make personal decisions independent of the influence of any internal and external factors. In the Dictionary of Bioethics Terms, volunteering is defined as the situation of a person who decides to do a job with their free will and does it without waiting for anything in return. In volunteering, there should not be any force, obligation, or pressure that drives a person. Respect for individual autonomy is the basis of volunteering. Volunteering is considered an ethical basis in medicine, especially in organ transplantation [8]. Ethically, volunteering is one of the basic elements of informed consent. The “volunteer person” must have the characteristics of the person authorized to give informed consent (sound mind) defined by law. Volunteering should be analyzed in the presence of appropriate and adequate information and the absence of psychological coercion and external pressure. From this point of view, we see that the conditions related to volunteering are in parallel with the conditions required for autonomous action [1]. Not only do medical or psychosocial factors play a role in the selection process by living donors, but every medical professional, lawyer or ethicist agrees that the decision to donate must be voluntary and informed. However, proving the determination of volunteering is not always easy; it requires intense effort. For the consent to be meaningful, the process must also be carried out in a meaningful way. In other words, consent must be voluntary. This is not a surprising statement and everyone agrees that volunteering is important. However, it should not be forgotten that volunteering is a concept that can be quickly overlooked and create a dangerous situation in the daily practice of medicine.
Although organ donations from living donors are commendable, it should not be forgotten that they are considered voluntary. For living donors to make sure they do not make inappropriate decisions within their own values and views on self-sacrifice, risk, or similar topics, transplant teams need to present the criteria they use to select living donors to the community. For policies and practices supporting living donations to be morally acceptable, they should not turn into a means of influence or pressure [7]. In this sense, the concept of volunteering or the opposite, reluctance, is important.
In the evaluation of whether a person is a volunteer for organ donation, there are signs that appear not only in words but also in behaviors and give us clues in determining volunteering; for example, the donor comes for the tests alone, tries to learn the results, does not lean his head forward when the organ donation decision is made, or insists on being a donor, etc. [26]. But what exactly is volunteering?
Stating that the action of a voluntary person is the product of the will of the person acting in the light of the concepts of knowledge, freedom, and volunteering, Babor divides volunteering into thirteen types or degrees. In terms of organ transplantation, it is necessary to examine perfect/imperfect, direct/indirect, and positive/negative volunteering concepts. Perfect volunteering is defined as an action taken with full knowledge and consent. Imperfect volunteering is the opposite of this concept, and there are flaws in both knowledge and consent. Direct volunteering expresses a voluntary action that is desired as an end in itself. In indirect volunteering, on the other hand, the action is not an end in itself but is desired as an anticipated result or sequence of action. Positive volunteering mentions the volunteering present in performing an action, while in negative volunteering, the person avoids the action [27]. For the person’s action to be considered voluntary in organ donation, it should be an action that includes all characteristics of perfect, direct, and positive volunteering.
In an ethical guide prepared for the assessment of living organ donors, the evaluation of whether the person is a volunteer or not is checked from 10 different angles. The guide addresses issues, such as potential donor’s psycho-social status, financial status, relationship with the transplant candidate, the reason for donation, the conditions under which the decision has been made and by whom the potential donor is asked to donate, the convenience of the potential donor to refuse the donation request, the comfort of the potential donor near other family members, proof of material reward for the donation, willingness and motivation of the potential donor, and the imbalance of power between the potential living donor and the recipient [28].
The concept of volunteering may be affected by some positive and negative factors. In this sense, it is useful to look at these factors.
The “gift” that the recipient receives from the donor free of charge, which has no physical or symbolic equivalent by nature, is so extraordinary that as a result, the donor, recipient, and their families may find themselves in a mutual creditor-debtor spiral. Such a situation also describes the importance of volunteering in organ donation. It is essential for the organ donor to donate in full volunteering and to be completely free from negative factors. Also, informed consent for organ transplantation requires sufficient information sharing for both the patient and the organ and tissue donor and communication that is free from coercion and threat, does not involve persuasion, and does not aim to manipulate the decision.
It is clear that there is a non-altruistic motivation if the person requests a reward for a donation. However, the fact that such a demand has accompanying elements does not mean that the donation is motivated by altruism and that it involves an altruistic approach. One of the three pillars of autonomy is that the individual is far from influences that control them. In other words, for the action to be autonomous, the person should not be in a situation that prevents their self-management either by internal or external forces. However, not all effects on the person by others are controlling. In this section, controlling concepts will be discussed.
Evaluating the determinants of attitudes towards organ removal from the dead, willingness to donate, and donor behavior in a systematic review of 33 published studies, Wakefield et al. emphasizes that individuals’ attitudes towards donation are complex due to differences in social norms, existing laws, and interactions between beliefs and individual factors in each country [29].
However, apart from these regional and personal differences, there are factors that affect donation positively and negatively. A study shows that the team, which will talk to the family of the deceased during the donation process, should reassure the family with their linguistic and cognitive abilities and show their emotions, which has a significant effect on whether the family is a donor [30].
Although organ donation is apparently supported by society, the level of organ donation is very low. Psychological factors that affect the person’s decisions to become a donor also play a role in this complexity. They have also led to the need to understand how people predict or inhibit the desire to become organ donors. In a study conducted by Morgan et al., it has been shown that the perceived benefits of organ donation play an effective role in the decision-making process [31]. The volunteer choices of potential donors (e.g., women in strong patriarchal cultures) who do not understand that they are an autonomous moral person, act as expected, and never dare to reject are undermined by persuasion, encouragement, and pressure.
In determining whether an action is autonomous, the two most important conditions require that the person fully understands the issue and is not under control. There is a gradual transition from total freedom to total control for the status of both understanding and being free of controlling influences. This transition involves the scales that reveal the “autonomous actions” and “non-autonomous actions” domains. By considering these domains and thresholds for specific purposes, the boundary between “autonomous enough” and “not autonomous enough” can be carefully determined [7]. There are some factors, such as requests, family, or legal obligations, in making personal decisions. But there are also some factors other than these factors that will directly affect the person’s ability to act autonomously. All of these factors are detrimental to the autonomy of the person and aim at taking the person under control.
Informed consent is the most important issue in ensuring the autonomy of the person. Instead of reading standard forms, each individual’s unique needs for information should be taken into account with a “customized” approach. It would not be wrong to state that the dignity and value of the human being, the principle of autonomy, and legal aspects of organ transplantation should be addressed for each person in the informed consent form [32].
Concepts such as sacrifice, compassion, interest, renunciation, loyalty, reliability, concern, respect and justice, empathy, and emotional ties are among the positive factors that affect volunteering. Besides, the altruistic nature of the person is an important issue that requires research on its own among positive factors.
Volunteering is essential for autonomous action. External control over an individual’s actions weakens the voluntary nature of the actions. Such effects can be grouped under three main categories, namely, persuasion, coercion, and manipulation. If we detail these concepts, we can better evaluate the negative factors affecting volunteering.
Persuasion is the effort or process of encouraging people to change their current beliefs, values, or attitudes, or to gain new ones. This extremely complex process may be based on rational discussions or messages or it may include a method that addresses irrational desires or needs [33]. The process of persuasion is typically analyzed in terms of who said what, how, and with what effect, and expresses whether any attitude changes have occurred [34]. Valapour explains persuasion as influencing by using reasoning and states that when the person is persuaded, they freely accept the effect; therefore, they think it is an ethically acceptable action and that it does not undermine the voluntary nature of the person and they regard it as compatible with autonomous actions [35]. Hançerlioğlu handles the concept of persuasion under the heading of “deceiving” and defines it as “making something accepted with mental evidence or making someone believe” [36]. However, it is seen that the meaning of the concept of “volunteering” has not been fully understood. There are also studies showing that people’s attitudes towards organ donation can be changed with persuasion and manipulation techniques [37].
Persuasion arises as a result of the reasoning offered to a person to believe something is worth believing. Inviting people to be reasonable and addressing people’s feelings are different situations [7]. In summary, persuasion is the process of making a person believe something that they did not believe at the outset.
Hançerlioğlu states that pressure leads to a situation that prevents free development naturally and socially and that it prevents free behavior [36]. Budak defines pressure as forcing the person to act one way or another and as excessive or stress-causing expectations from the person and states that what is felt as pressure changes depending on the person or education level [33].
Coercion exists when a person poses a credible and serious threat of harm or coercion in an attempt to control another person. Whether the pressure will occur or not depends on how the target person will receive this threat, and this response varies from person to person. Coercion occurs when the perpetrator behind a person’s actions is not their own free will and their conscious behavior about areas in which they are knowledgeable ceases to be autonomous when they receive a credible threat [7]. It is the pressure that causes a person to act contrary to their will under a threat of harm. The threat of harm is an essential component of the concept of coercion, and a forced action reflects someone else’s choices, not one’s own choices, as it is based on a credible threat. Therefore, decisions made under coercion and actions carried out are not autonomous.
Following the coercion, the person makes their own decision. Therefore, although it is said that this, in a sense, is an autonomous choice and should be stated as a voluntary act, this kind of volunteering is volunteering that is not perfect, indirect, and negative. Therefore, as mentioned at the beginning, it is not a desired situation for organ donation. In terms of organ donation, the decision to be made after coercion, pressure or threat is not an autonomous and consensual choice.
Coercion entails a real, convincing, and intended threat that pushes a person into unwanted action and pushes his autonomy out of self-control. In this sense, threat involves applying force to a person to do something or to restrict their freedom. In principle, threat requires a genuine, reliable, intended, and willing orientation [26]. In these concepts, which we generally express, there is a use of physical or psychological force against the autonomy of the person. The plan of bringing the person to the level to do the desired thing lies at the heart of applying pressure, threat, force, and coercion.
Studies on the psychosocial effect of living kidney donation indicate that many living donors believe that the decision to donate is not a real choice and that they feel compelled to donate [38, 39]. In a similar study conducted in the USA, 40% of the donors who donated living organs between 2002 and 2005 reported that they felt some pressure to donate [40]. Understanding volunteer donation only as the absence of coercion will indicate a narrow meaning as it does not cover more sophisticated interventions such as persuasion and manipulation. In this sense, it is necessary to examine the concept of manipulation among the negative factors that affect volunteering.
The concept of manipulation increasingly plays a central role in debates about free will and moral responsibility. Manipulation is essentially the orientation of the person to do what the manipulator wants by means other than persuasion or coercion. In this sense, manipulation encompasses some forms of influence that are neither persuasion nor coercion/threat/force. The most likely type of manipulation in healthcare is informational. It is the presentation of information in such a way that the person is directed to do what the manipulator wants by understanding the situation differently. In this sense, informational manipulation is also against autonomy. Hiding certain information, telling lies, or exaggerating the meaning or importance of certain information to make people believe in unfounded things are the kinds of actions that can harm autonomous choices.
Manipulation is the deliberate and successful influence on the available choices one can make, either by non-coercively altering or by changing one’s perception of those choices. “Being manipulated” is subjective in nature and depends on the person’s reaction [35]. If the living donor accepts surgical intervention because of its benefits, they must also accept the possible risks. This is not a manipulative situation [26].
It is a fact that some living organ donors are also manipulated with financial support. Besides, due to the paternalistic approach of the physician to their recipient patient, they may attempt to manipulate the living donor candidate to affect their willingness. The assessment of the living donor candidate by a different transplant team is necessary so that the manipulation that may occur can be evaluated.
Organ transplantation is not an issue limited to health. It is also a field of both law and ethics as a medical practice surrounded by social, cultural and value problems which have challenging solution. The applicability of every medical practice in the clinic is within the limits determined by the law, and there are laws that vary by countries regarding organ transplantation. The fact that concepts such as human rights, right to health, human value, bodily integrity, and quality of life are predominantly handled within philosophy is also a guide in the preparation of existing legal texts. One of the main points that everyone agrees on is the value of life and that it is an inalienable personality right. The right to life is defined as the existence of a healthy and complete body and the ability to continue lives by protecting them against potential threats and dangers. The right to life is also directly linked to human dignity. While the material aspect of the right to life is expressed with the content of protecting the bodily integrity of the person and not being exposed to bad behavior, living under humane living conditions also emphasizes the spiritual aspect of the right in question. Debates about organ transplantation arise between the right to life and the right to determine one’s own future. For example, obtaining a kidney from a potential donor is very important in saving the life of the terminal kidney patient who will die. Without harming the bodily functions, the living donor will use their ethical right to give up their organ that is valuable for them but can also be lived without. In this context, medical evaluations of the donor and the recipient alone will not be enough. It is also necessary to examine how altruistic behavior leads to volunteerism. For people to live a good life they have determined for themselves, they must not interfere with the autonomy of others. Especially, it is necessary to evaluate carefully whether the living donors in the family donate with a mission to save or because they are really volunteers. Saving lives can be a commendable option when one can be sure of the willingness of living donors. If we accept that voluntary donation is a moral and legal requirement, the issues of persuasion, coercion, force, lack of financial incentives, and manipulation and non-instrumentalization of individuals need to be addressed in a more systematic and detailed manner. The scales to be used to determine the volunteering in organ transplantation will contribute to the informed consent processes of health professionals, as well as basing the right to determine one’s own future and right to life on the self-worth of the individual.
If you are associated with any of the institutions in our list below, you can apply to receive OA publication funds by following the instructions provided in the links.
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