Released this past November, the list is based on data collected from the Web of Science and highlights some of the world’s most influential scientific minds by naming the researchers whose publications over the previous decade have included a high number of Highly Cited Papers placing them among the top 1% most-cited.
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We wish to congratulate all of the researchers named and especially our authors on this amazing accomplishment! We are happy and proud to share in their success!
IntechOpen is proud to announce that 191 of our authors have made the Clarivate™ Highly Cited Researchers List for 2020, ranking them among the top 1% most-cited.
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Throughout the years, the list has named a total of 261 IntechOpen authors as Highly Cited. Of those researchers, 69 have been featured on the list multiple times.
\n\n\n\n
Released this past November, the list is based on data collected from the Web of Science and highlights some of the world’s most influential scientific minds by naming the researchers whose publications over the previous decade have included a high number of Highly Cited Papers placing them among the top 1% most-cited.
\n\n
We wish to congratulate all of the researchers named and especially our authors on this amazing accomplishment! We are happy and proud to share in their success!
Note: Edited in March 2021
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\r\n\tAlkaloids are secondary metabolites with a wide range of biological and pharmacological properties. These nitrogen-containing natural compounds are produced mainly by plants, but also could be found in some animals, insects, algae and marine organisms. Many alkaloids have been used in medicine for centuries, because of their anesthetics, relaxant, cytotoxic, neurotoxic, toxic, anti-microbial activities and anti-cancer activities. Recently, with the advance in alkaloids chemistry, many new structures have been discovered and thousands of synthetic and semisynthetic analogs have been produced. Nowadays, searching for novel drug candidates with improved therapeutic properties greatly increased the scientific attention to alkaloids chemistry, biochemistry and pharmacology. In parallel with the improved methods for isolation and purification from natural sources, various new biotechnological methods, based on plant cell culture technology, have been developed for sustainable production of some valuable and rare alkaloids.
\r\n
\r\n\tThis book intends to provide the reader with a comprehensive overview of the current state-of-the-art in alkaloids research, including, but not limited to chemistry, biochemistry, biosynthesis, synthesis and modifications, analytical techniques, pharmacology, biological and physiological activities, bioavailability, and medicinal application of natural, synthetic and semi-synthetic structures.
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He is an expert on bioprocess engineering and secondary metabolite production by plant cells, tissue and organ cultures, functional genomics, metabolite profiling, development, and improvement of a plant in vitro production platforms. In 2011, he was awarded by the Bulgarian Academy of Sciences with the 'Prof. Marin Drinov” prize for outstanding research in biological sciences. Dr. Georgiev did postdoctoral research at Florida A&M University, Tallahassee, FL, USA (2012–2016), and he was a faculty in the Department of Organic Chemistry at the University of Food Technologies, Plovdiv, Bulgaria (2016-2019). 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1. Introduction
Solar energy is one of the primary sources in the field of green and pure energy that points to the power predicament and climate change task. Solar energy consumption is an ecological reconciliation, and then, the chemical change in solar is presence exhaustive, considered throughout global [1, 2]. In general, solar energy is renewed into a wide range of developments, such as degradation of organic pollutants as photocatalysis, splitting of water molecules for producing clean energy, and reduction of CO2 gas [3, 4]. Consuming a similar perception, metal-oxide photocatalysis has also been widely examined for possible exertions in ecological restitution as well as the photodegradation and elimination of organic toxins in the aquatic system [5, 6], decrease of bacterial inactivation [7, 8, 9], and heavy metal ions [10, 11, 12]. Throughout the earlier few years, excellent applications have been dedicated to evolving well-organized, less expensive, and substantial photocatalysts, particularly those that can become active under visible light such as NaLaTiO6, Ag3PO4/BaTiO3, Pt/SrTiO3, SrTiO3-TiN, noble-metal-SrTiO3 composites, GdCoO3, orthorhombic perovskites LnVO3 and Ln1−xTixVO3 (Ln = Ce, Pr, and Nd), Ca0.6Ho0.4MnO3, Ce-doped BaTiO3, fluorinated Bi2WO6, graphitic carbon nitride-Bi2WO6, BaZrO3−δ, CaCu3Ti4O12, [13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24], graphene-doped perovskite materials, and nonmetal-doped perovskites [25]. Furthermore, directed to years extended exhaustive investigation exertions on the pursuit of innovative photocatalytic systems, particularly that can produce the overall spectrum of visible-light. Out of a vast assemblage of photocatalysts, perovskite or layered-type perovskite systems and its analogs include a better candidate for capable semiconductor-based photocatalysts due to their framework easiness and versatility, excellent photostability, and systematic photocatalytic nature. In general, the ideal perovskite structure is cubic, and the formula is ABO3. Where A is different metal cations having charge +1 or +2 or +3 nature and B site occupies with tri or tetra and pentavalent nature, which covers the whole family of perovskite oxide materials by sensibly various metal ions at A and B locations [26], aside from a perfect cubic perovskite system, basic alteration perhaps persuaded by several cations exchange. Such framework alteration could undoubtedly vary the photophysical, optical, and photocatalytic activities of primary oxides.
Moreover, a sequence of layered-type perovskite materials contains many 2D blocks of the ABO3 framework, which are parted by fixed blocks. The scope of formulating multicomponent perovskite systems by whichever fractional change of cations in A and B or both positions or injecting perovskite oxides into a layered-type framework agrees scientists investigate and control the framework of crystals and the correlated electronic and photocatalytic activities of the perovskites. So far, hundreds of various types of perovskite or perovskite-based catalysts have been published, and more outstandingly, some ABO3-related materials became renowned with “referred” accomplishment for catalytic activities. Thus, these systems (perovskite materials) have exposed highly capable of upcoming applications on the source of applying more attempts to them. While several outstanding reviews mean that explained that perovskites performed as photocatalyst for degradation of organic pollutants [27, 28, 29, 30], only an insufficient of them content consideration to inorganic perovskite (mostly ABO3-related) photocatalysts [31, 32, 33]. A wide range of tagging and complete attention of perovskite materials, for example, layered-type perovskite acting as photocatalysts, is relatively deficient. The purpose of this book chapter is to precise the current progress of perovskite-based photocatalysts for ecological reparation, deliberate current results, and development on perovskite oxides as catalysts, and allow a view on the upcoming investigation of perovskite materials. After a short outline on the wide-ranging structure of perovskite oxides, it was stated that perovskites act as a photocatalyst that are incorporated, arranged and explored based on preparation methods [29, 34], photophysical properties based on bandgap energies, morphology-based framework and the photocatalytic activities depends on either UV or visible light energy of the semiconducting materials. Finally, this chapter is based on the current advancement and expansion of perovskite photocatalytic applications under solar energy consumption. The potential utilization, new tasks, and the research pathway will be accounted for the final part of the chapter [35].
2. Results and discussion
2.1 Details of perovskite oxide materials
2.1.1 Perovskite frameworks
The standard system of perovskite-based materials could be designated as ABO3, where the A and B are cations with 12-fold coordinated and 6-fold coordinated to concerning oxygen anions. Figure 1a describes the typically coordinated basic of the ABO3 system, which consists of a 3D system, BO6 octahedra as located at corner, and at the center, A cation are occupied. Within the ABO3 system, the A cation usually is group I and II or a lanthanide metal, whereas the B is commonly a transition metal ion. The tolerance factor (t) = 1 calculated by using an equation t = (rA + rO)/ √ 2 (rB + rO), where rO, rA, and rB are the radii of respective ions A and B and oxygen elements for a cubic crystal structure ABO3 perovskite system [36].
Figure 1.
Both crystal and layered type perovskite oxides (blue small balls: A-site element; dark blue squares: BO6 octahedra with green and red balls are oxygen).
For constituting a stable perovskite, it is typically the range of t value present in between 0.75 and 1.0. The lower value of t builds a somewhat slanted perovskite framework with rhombohedral or orthorhombic symmetry. In the case of t, it is approximately 1; then, perovskite structure is an ideal cubic system at high temperatures. Even though the value of t, obtained by the size of metal ion, is a significant guide for the permanency of perovskite systems, the factor of octahedral (u) u = rB/rO and the role of the metal ions composition of A and B atoms and the coordination number of respective metals are considered [37]. Given the account of those manipulating factors and the electro-neutrality, the ABO3 perovskite can hold a broad variety of sets of A and B by equal or dissimilar oxidation states and ionic radii. Moreover, the replacement of A or B as well as both the cations could be partly by the doping of various elements, to range the ABO3 perovskite into a wide-ranging family of Am1A1−m1B1nB1−n1 O3±δ [38]. The replacement of several cations into the either A or B positions could modify the structure of the original system and therefore improve the photocatalytic activities [23]. After various metal ions in perovskite oxide are doped, the optical and electronic band positions, which influence the high impact on the photocatalytic process, are modified [24].
2.1.2 Layered perovskite-related systems
Moreover, to the overall ABO3 system, further characteristic polymorphs of the perovskite system are Brownmillerite (BM) (A2B2O5) framework [39]. BM is a type of oxygen-deficient perovskite, in which the unit cell is a system of well-organized BO4 and BO6 units. The coordination number of cations occupied by A-site was decreased to eight because of the oxygen deficiency. Perovskite (ABO3) oxides have three dissimilar ionic groups, construction for varied and possibly useful imperfection chemistry. Moreover, the partial replacement of A and B ions is permitted even though conserving the perovskite system and shortages of cations at the A-site or of oxygen anions are common [40]. The Ion-exchange method is used for the replacement of existing metal ions with similar sized or dissimilar oxidation states; then, imperfections can be announced into the system. The imperfection concentrations of perovskites could be led by doping of different cations [24]. Oxygen ion interstitials or vacancies could be formed by the replacement of B-position cations with higher or lower valence, respectively, fabricating new compounds of AB(1−m)BmIO3−δ [41]. A typical oxygen-deficient perovskite system is Brownmillerite (A2B2O5), in which one part of six oxygen atoms is eliminated. Moreover, the replacement of exciting a site cation to new cation with higher oxidation state metal ions then the formed new materials with new framework with different stoichiometry is A1−mAmIBO3 [41]. In the case of the replacement of A-site ions with smaller oxidation state cations, consequences in oxygen-deficient materials with new framework such as A1−mAmIBO3−x are developed. Thermodynamically, the replacement of B-position vacancies in perovskite systems is not preferable due to the compact size and the high charge of B cations [42]. A-position vacancies are more detected due to the BO3 range in perovskite system forms a stable network [43]; the 12 coordinated sites can be partly absent due to bigger-size A cations. Lately, presenting suitable imperfections on top of the surface of perovskite oxides has been thoroughly examined as a means of varying the bands’ position and optical properties of the starting materials. For this reason, perovskite materials afford a tremendous objective for imperfection originating to vary the photocatalytic activity of perovskite material-based photocatalysts [44].
The typical formula for the furthermost recognized layered perovskite materials is designated as An+1BnO3n+1 or A2IAn−1BnO3n+1 (Ruddlesden-Popper (RP) phase), AI[An−1BnO3n+1] (Dion-Jacobson (DJ) phase) for {100} series, (AnBnO3n+2) for {110} series and (An+1BnO3n+3) for {111}, and (Bi2O2)(An−1BnO3n+1) (Aurivillius phase) series. In these systems, n represents the number of BO6 octahedra that duration a layer, which describes the width of the layer. Typical samples of these layered systems are revealed in Figure 1c–g. For RP phases, their frameworks consist of AIO as the spacing layer for the intergrowth ABO3 system. These materials hold fascinating properties such as ferroelectricity, superconductivity, magnetoresistance, and photocatalytic activity. Sr2SnO4 and Li2CaTa2O7 systems are materials of simple RP kind photocatalysts. A common formula for DJ phase is AI[An−1BnO3n+1] (n > 1), where AI splits the perovskite-type slabs and is characteristically a monovalent alkali cation. The typical DJ kind photocatalysts are RbLnTa2O7 (n = 2) and KCa2Nb3O10 (n = 3). Associates of the AnBnO3n+2 and An+1BnO3n+3 structural sequences with dissimilar layered alignments have also been recognized in some photocatalysts like Sr2Ta2O7 and Sr5Ta4O15 (n = 4). For Aurivillius phases, their frameworks are constructed by one after another fluctuating layers of [Bi2O2]2+ and virtual perovskite blocks. Bi2WO6 and BiMoO6 (n = 1), found as the primary ferroelectric nature for Aurivillius materials, lately have been extensively investigated as visible light photocatalysts.
2.2 Perovskite systems for photocatalysis
A broad array of perovskite photocatalysts have been advanced for organic pollutant degradation in the presence of ultraviolet or visible-light-driven through the last two decades [45]. These typical examples and brief investigational consequences on perovskites are concise giving to their systems, then perovskite materials categorized into six groups. Precisely, ABO3-type perovskites, AAIBO3, AIABO3, ABBIO3 and AB(ON)3-type perovskites, and AAIBBIIO3-type perovskites are listed in Table 1.
NaTaO3 has been a standard perovskite material for a well-organized UV-light photocatalyst for degradation of organic pollutants and production of H2 and O2 through water splitting [46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57]. It can be prepared by various methods such as solid-state [46, 47, 48, 53, 56], hydrothermal [49, 52, 54, 55], molten salt [57] and sol-gel [50, 51] and with wide bandgap of 4.0 eV. In order to enhance the surface area of NaTaO3 bulk material, many investigators tried to use further synthetic ways to make nanosized particles as an additional study on the NaTaO3 photocatalyst for degradation of organic pollutants. Kondo et al. prepared a colloidal range of NaTaO3 nanoparticles consuming three-dimensional mesoporous carbon as a pattern, which was pretend by the colloidal arrangement of silica nanospheres. After calcining the mesoporous carbon matrix, a colloidal arrangement of NaTaO3 nanoparticles with a range of 20 nm and a surface area of 34 m2 g−1 was attained. C-doped NaTaO3 material was tested for degradation of NOx under UV light [36]. Several titanates such as BaTiO3 [58, 59, 60], Rh or Fe-doped BaTiO3 [61, 62], CaTiO3 [63, 64] and Cu [65], Rh [66], Ag and La-doped CaTiO3 [67], and PbTiO3 [68, 69] were also described as UV or visible light photocatalysts. Magnetic BiFeO3, recognized as the one of the multi-ferric perovskite materials in magnetoelectric properties, was also examined as a visible light photocatalyst for photodegradation of organic pollutants because of small bandgap energy (2.2 eV) [70, 71, 72, 73, 74, 75, 76, 77, 78, 79]. In a previous account, BiFeO3 with a bandgap of around 2.18 eV produced by a citric acid-supported sol-gel technique has revealed its visible-light-driven photocatalytic study by the disintegration of methyl orange dye [70]. The subsequent investigations on BiFeO3 are primarily concentrated on the synthesis of new framework BiFeO3 with various morphologies. For instance, Lin and Nan et al. prepared BiFeO3 unvarying microspheres and microcubes by a using hydrothermal technique as revealed in Figure 2 [73].
The bandgap energies of BiFeO3 compounds were found to be about 1.82 eV for BiFeO3 microspheres and 2.12–2.27 eV for microcubes. This indicated that the absorption edge was moved toward the longer wavelength that is influenced by the crystal-field strength, particle size, and morphology. The microcube material showed the maximum photocatalytic degradation performance of congo red dye under visible-light irradiation due to the quite low bandgap energy. Further, a simplistic aerosol-spraying method was established for the synthesis of mesoporous BiFeO3 hollow spheres with improved activity for the photodegradation of RhB dye and 4-chlorophenol, because of improved light absorbance ensuing from various light reflections in a hollow chamber and a very high surface area [71]. Moreover, a unusually improved water oxidation property on Au nanoparticle-filled BiFeO3 nanowires under visible-light-driven was described [77]. The Au-BiFeO3 hybrid system was encouraged by the electrostatic contact of negatively charged Au nanoparticles and positively charged BiFeO3 nanowires at pH 6.0 giving to their various isoelectric points. An improved absorbance between 500 and 600 nm was found for Au/BiFeO3 systems because of the characteristic Au surface plasmon band existing visible light region then which greater influenced in the photodegradation of organic pollutants. Also, the study of photoluminescence supported improvement of the photocatalytic property due to the effective charge transfer from BiFeO3 to Au. Even though Ba, Ca, Mn, and Gd-doped BiFeO3 nanomaterials have exhibited noticeable photocatalytic property for the degradation of dyes [80, 81, 82, 83, 84], several nano-based LaFeO3 with various morphologies such as nanoparticles, nanorods, nanotubes, nanosheets, and nanospheres have also been synthesized for visible light photocatalysts for degradation of organic dyes [85, 86, 87, 88, 89, 90, 91, 92, 93]. Sodium bismuth titanate (Bi0.5Na0.5TiO3) has been extensively used for ferroelectric and piezoelectric devices. It was also investigated as a UV-light photocatalyst with a bandgap energy of 3.0 eV [94, 95, 96, 97]. Hierarchical micro/nanostructured Bi0.5Na0.5TiO3 was produced by in situ self-assembly of Bi0.5Na0.5TiO3 nanocrystals under precise hydrothermal conditions, through the evolution mechanism was examined in aspect means that during which the growth mechanism was studied [95]. It was anticipated that the hierarchical nanostructure was assembled through a method of nucleation and growth and accumulation of nanoparticles and following in situ dissolution-recrystallization of the microsphere type nanoparticles with extended heating period and enhanced temperature or basic settings. The 3D hierarchical Bi0.5Na0.5TiO3 showed very high photocatalytic activity for the decomposition of methyl orange dye because of the adsorption of dye molecules and bigger surface area. The properties of Bi0.5Na0.5TiO3 were also assessed by photocatalytic degradation of nitric oxide in the gas phase [95]. La0.7Sr0.3MnO3, acting as a photocatalyst, was examined for solar light-based photocatalytic decomposition of methyl orange [96, 97, 98]. In addition, La0.5Ca0.5NiO3 [99], La0.5Ca0.5CoO3−δ [100], and Sr1−xBaxSnO3 (x = 0–1) [101] nanoparticles were synthesized for revealing improved photocatalytic degradation of dyes. A-site strontium-based perovskites such as SrTi1−xFexO3−δ, SrTi0.1Fe0.9O3−δ, SrNb0.5Fe0.5O3, and SrCo0.5Fe0.5O3−δ compounds were prepared through solid-state reaction and sol-gel approaches, and were examined for the degradation of organic pollutants under visible light irradiation [102, 103, 104, 105]. Also, some other researchers modified A-site with lanthanum-based perovskites such as LaNi1−xCuxO3 and LaFe0.5Ti0.5O3 were confirmed as effective visible light photocatalysts for the photodegradation of p-chlorophenol [91, 106, 107]. The other ABBIO3 kind photocatalysts with Ca(TiZr)O3 [108], Ba(ZrSn)O3 [109], Na(BiTa)O3 [110], Na(TiCu)O3 [111], Bi(MgFeTi)O3 [112], and Ag(TaNb)O3 [113] have also been studied. Related to AAIBO3-type perovskites, the ABBIO3 kind system means that BI-site substitution by a different cation is another option for tuning the physicochemical or photocatalytic properties of perovskites materials as photocatalyst, due to typically the B-position cations in ABO3 mostly regulate the position of the conduction band, moreover to construct the structure of perovskite system with oxygen atoms. The band positions of photocatalyst can be magnificently modified by sensibly coalescing dual or ternary metal cations at the B-position, or changing the ratio of several cations, which has been fine verified by the various materials as mentioned above. More studies on ABBIO3 kind of photocatalysts are projected to show their new exhilarating photocatalytic efficiency.
The mesoporous nature of LaTiO2N of photocatalyst attended due to thermal ammonolysis process of La2Ti2O7 precursor from polymer complex obtained from the solid-state reaction. The oxynitride analysis revealed that the pore size and shape, lattice defects and local defects, and oxidation states’ local analysis related between morphology and photocatalytic activity were reported by Pokrant et al. [114]. Due to the high capability of accommodating an extensive array of cations and valences at both A- and B-sites, ABO3-kind perovskite materials are capable materials for fabricating solid-solution photocatalysts. On the other hand, equally the A and B cations can be changed by corresponding cations subsequent in a perovskite with the formula of (ABO3)x(AIBIO3)1−x. Additional solid solution examples with CaZrO3–CaTaO2N [115], SrTiO3–LaTiO2N [116], La0.8Ba0.2Fe0.9Mn0.1O3−x [117], Na1−xLaxFe1−xTaxO3 [118], Na0.5La0.5TiO3–LaCrO3 [119], Cu-(Sr1−yNay)-(Ti1−xMox)O3 [120], Na1−xLaxTa1−xCrxO3 [121], BiFeO3–(Na0.5Bi0.5)TiO3 [122], and Sr1−xBixTi1−xCrxO3 [123] have been used as photocatalysts for splitting of water molecules under visible light.
2.4 Photocatalytic activity of layered perovskite materials
In the general formula of the RP phase, An−1A2IBnO3n+1, A and AI are alkali, alkaline earth, or rare earth metals, respectively, while B states to transition metals. A and AI cations are placed in the perovskite layer and boundary with 12-fold cuboctahedral and 9-fold coordination to the anions, respectively, whereas B cations are sited inside the perovskite system with anionic squares, octahedra, and pyramids. The tantalum-based RP phase materials have been examined as photocatalysts for degradation of organic pollutants under UV light irradiation conditions; such materials are K2Sr1.5Ta3O10 [124], Li2CaTa2O7 [125], H1.81Sr0.81Bi0.19Ta2O7 [126], and N-alkyl chain inserted H2CaTa2O7 [127]. A series of various metals and N-doped perovskite materials were synthesized, such as Sn, Cr, Zn, V, Fe, Ni, W, and N-doped K2La2Ti3O10, for photocatalysis studies under UV and visible light irradiation [128, 129, 130, 131, 132, 133]. Still, only Sn-doping efficiently decreased the bandgap energy of K2La2Ti3O10 from 3.6 eV to 2.7 eV. The bandgap energy of N-doped K2La2Ti3O10 was measured to be around 3.4 eV. Additional RP phase kind titanates like Sr2SnO4 [134], Sr3Ti2O7 [135], Cr-doped Sr2TiO4 [136], Sr4Ti3O10 [137], Na2Ca2Nb4O13 [138], and Rh- and Ln-doped Ca3Ti2O7 [139] have also been examined. Bi2WO6 (2.8 eV) shows very high oxygen evolution efficacy than Bi2MoO6 (3.0 eV) from aqueous AgNO3 solution under visible-light-driven. Because of the appropriate bandgap energy, comparatively elevated photocatalytic performance, and good constancy, Bi2MO6 materials have been thoroughly examined as the Aurivillius phase kind that acts as photocatalysts under visible light. In this connection, hundreds of publications associated to the Bi2MoO6 and Bi2WO6 act as photocatalysts so far reported. Most of the investigations in the reports are concentrated on the synthesis of various nanostructured Bi2MoO6 and Bi2WO6 as well as nanofibers, nanosheets, ordered arrays, hollow spheres, hierarchical architectures, inverse opals, and nanoplates, etc., by various synthesis techniques like solvothermal, hydrothermal, electrospinning, molten salt, thermal evaporation deposition, and microwave. All these methods of hydrothermal process have been frequently working for the controlled sizes, shapes, and morphologies of the particles. The photocatalytic properties of these perovskite materials are mostly examined by the photodegradation of organic pollutants. Moreover, the investigations on the simple Bi2MoO6 and Bi2WO6, doped with various metals and nonmetals such as Zn, Er, Mo, Zr, Gd, W, F, and N, into Bi2MoO6 and Bi2WO6 was studied for increasing the photocatalytic performance under visible light. Therefore, these Bi2MO6-based photocatalysts is not specified here, due to further full deliberations that can be shown in many reviews [140, 141, 142].
ABi2Nb2O9 where A is Ca, Sr, Ba and Pb is other type of the AL-like layered perovskite material [143, 144, 145, 146, 147, 148, 149, 150]. The bandgap energy of PbBi2Nb2O9 is 2.88 eV and originally described as an undoped with single-phase layered-type perovskite material used as photocatalyst employed under visible light irradiation [144]. Bi5FeTi3O15 is also Aurivillius (AL) type multi-layered nanostructured perovskite material with a low bandgap energy (2.1 eV) and also shows photocatalytic activity under visible light [151, 152]. Mostly, these materials were synthesized using the hydrothermal method that has been frequently working for the controlled shapes such as flower-like hierarchical morphology, nanoplate-based, and the complete advance process from nanonet-based to nanoplate-based micro-flowers was shown. The photocatalytic activity of Bi5FeTi3O15 was studied by the degradation of rhodamine B and acetaldehyde under visible light [151]. The La substituted Bi5−xLaxTi3FeO15 (x = 1, 2) Al-type layered materials were synthesized through hydrothermal method and these materials were used for photodegradation of rhodamine B under solar-light irradiation [153]. Among all AL-type perovskite materials, only PbBi2Nb2O9, Bi2MO6 (M = W or Mo), and Bi5Ti3FeO15 are very high photocatalytic active under visible-light-driven due to low bandgap energy and photostability. Another type of layered perovskite material is Dion-Jacobson phase (DJ), a simple example is CsBa2M3O10 (M = Ta, Nb) and oxynitride crystals used for degradation of caffeine from wastewater under UVA- and visible-light-driven [154]. Similarly, another DJ phase material such means Dion–Jacobsen (DJ) as CsM2Nb3O10 (M = Ba and Sr) and also doped with nitrogen used for photocatalysts for degradation of methylene blue [155]. Zhu et al. prepared tantalum-based {111}-layered type of perovskite material such as Ba5Ta4O15 from hydrothermal method, which has been frequently employed for the controlled shape like hexagonal structure with nanosheets and used as photocatalyst for photodegradation of rhodamine B and gaseous formaldehyde [156]. Pola et al. synthesized a layered-type perovskite material constructed on AIAIITi2O6 (AI = Na or Ag or Cu and AII = La) structure for the photodegradation of several organic pollutants and industrial wastewater under visible-light-driven [157, 158, 159, 160, 161, 162].
Acknowledgments
Authors would like to thank DST-FIST schemes and CSIR, New Delhi. One of us (Ramesh Gade) thanks Council of Scientific & Industrial Research (CSIR), New Delhi, for the award of Junior Research Fellowship.
Thanks
I am thankful to Department of Chemistry, University College of Science, Osmania University, for their continuous attention in this study and useful discussions, and to Prof. B. Manohar for her support in working on the chapter.
\n',keywords:"layered-type perovskite materials, photocatalysis, photodegradation, organic pollutants",chapterPDFUrl:"https://cdn.intechopen.com/pdfs/71650.pdf",chapterXML:"https://mts.intechopen.com/source/xml/71650.xml",downloadPdfUrl:"/chapter/pdf-download/71650",previewPdfUrl:"/chapter/pdf-preview/71650",totalDownloads:387,totalViews:0,totalCrossrefCites:0,dateSubmitted:"October 30th 2019",dateReviewed:"February 10th 2020",datePrePublished:"April 3rd 2020",datePublished:"January 27th 2021",dateFinished:"April 3rd 2020",readingETA:"0",abstract:"The advancement and the use of visible energy in ecological reparation and photodegradation of organic pollutants are being extensively investigated worldwide. Through the last two decades, great exertions have been dedicated to emerging innocuous, economical, well-organized and photostable photocatalysts for ecofriendly reparation. So far, many photocatalysts mostly based on ternary metal oxides and doped with nonmetals and metals with various systems and structures have been described. Among them, perovskite materials and their analogs (layer-type perovskites) include an emerged as semiconductor-based photocatalysts due to their flexibility and simple synthesis processes. This book chapter precisely concentrates on the overall of related perovskite materials and their associated systems; precisely on the current progress of perovskites that acts as photocatalysts and ecofriendly reparation; explores the synthesis methods and morphologies of perovskite materials; and reveals the significant tasks and outlooks on the investigation of perovskite photocatalytic applications.",reviewType:"peer-reviewed",bibtexUrl:"/chapter/bibtex/71650",risUrl:"/chapter/ris/71650",signatures:"Someshwar Pola and Ramesh Gade",book:{id:"9881",title:"Perovskite and Piezoelectric Materials",subtitle:null,fullTitle:"Perovskite and Piezoelectric Materials",slug:"perovskite-and-piezoelectric-materials",publishedDate:"January 27th 2021",bookSignature:"Someshwar Pola, Neeraj Panwar and Indrani Coondoo",coverURL:"https://cdn.intechopen.com/books/images_new/9881.jpg",licenceType:"CC BY 3.0",editedByType:"Edited by",editors:[{id:"177037",title:"Dr.",name:"Someshwar",middleName:null,surname:"Pola",slug:"someshwar-pola",fullName:"Someshwar Pola"}],productType:{id:"1",title:"Edited Volume",chapterContentType:"chapter",authoredCaption:"Edited by"}},authors:[{id:"177037",title:"Dr.",name:"Someshwar",middleName:null,surname:"Pola",fullName:"Someshwar Pola",slug:"someshwar-pola",email:"somesh.pola@gmail.com",position:null,institution:{name:"Osmania University",institutionURL:null,country:{name:"India"}}}],sections:[{id:"sec_1",title:"1. Introduction",level:"1"},{id:"sec_2",title:"2. Results and discussion",level:"1"},{id:"sec_2_2",title:"2.1 Details of perovskite oxide materials",level:"2"},{id:"sec_2_3",title:"2.1.1 Perovskite frameworks",level:"3"},{id:"sec_3_3",title:"2.1.2 Layered perovskite-related systems",level:"3"},{id:"sec_5_2",title:"2.2 Perovskite systems for photocatalysis",level:"2"},{id:"sec_6_2",title:"2.3 Photocatalytic properties perovskite oxides",level:"2"},{id:"sec_7_2",title:"2.4 Photocatalytic activity of layered perovskite materials",level:"2"},{id:"sec_9",title:"Acknowledgments",level:"1"},{id:"sec_9",title:"Thanks",level:"1"}],chapterReferences:[{id:"B1",body:'Barbara DA, Jared JS, Tyson AB, William WA. Insights from placing photosynthetic light harvesting into context. Journal of Physical Chemistry Letters. 2014;5:2880-2889'},{id:"B2",body:'von Erika S, Paul SM, James DA, Lori B, Piers F, David F, et al. Chemistry and the linkages between air quality and climate change. 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Journal of the American Ceramic Society. 2010;93:3587-3590'},{id:"B208",body:'Shasha F, Niu H, Tao Z, Song J, Mao C, Zhang S, et al. Low temperature synthesis and photocatalytic property of perovskite-type La-CoO3 hollow spheres. Journal of Alloys and Compounds. 2013;576:5-12'},{id:"B209",body:'Lia Y, Yaoa S, Wenb W, Xuea L, Yana Y. Sol-gel combustion synthesis and visible-light-driven photocatalytic property of perovskite LaNiO3. Journal of Alloys and Compounds. 2010;491:560-564'},{id:"B210",body:'Capon RJ, Rooney F, Murray LM, Collins E, Sim ATR, Rostas JAP, et al. Dragmacidins: New Protein Phosphatase Inhibitors from a Southern Australian Deep-Water Marine Sponge, Spongosorites sp. Materials Letters. 2007;61:3959-3962'},{id:"B211",body:'Hwang DW, Kim HG, Lee JS, Kim J, Li W, Se Hyuk O. Photocatalytic hydrogen production from water over M-Doped La2Ti2O7 (M = Cr, Fe) under visible light irradiation (λ > 420 nm). The Journal of Physical Chemistry. B. 2005;109:15001-15007'},{id:"B212",body:'Hur SG, Kim TW, Hwang S-J, Choy J-H. Influences of A- and B-site cations on the physicochemical properties of perovskite-structured A(In1/3Nb1/3B1/3)O3 (A = Sr, Ba; B = Sn, Pb) photocatalysts. Journal of Photochemistry and Photobiology A. 2006;183:176-181'},{id:"B213",body:'Thirunavukkarasu SK, Abdul AR, Chidambaram J, Govindasamy R, Sampath M, Arivarasan VK, et al. Green synthesis of titanium dioxide nanoparticles using Psidium guajava extract and its antibacterial and antioxidant properties. Advances in Materials Research. 2014;58:968-976'},{id:"B214",body:'Aguiar R, Kalytta A, Reller A, Weidenkaff A, Ebbinghausc SG. Photocatalytic decomposition of acetone using LaTi(O,N)3 nanoparticles under visible light irradiation. Journal of Materials Chemistry. 2008;18:4260-4265'},{id:"B215",body:'Wang D, Kako T, Ye J. Efficient photocatalytic decomposition of acetaldehyde over a solid-solution perovskite (Ag0.75Sr0.25)(Nb0.75Ti0.25)O3 under visible-light irradiation. Journal of the American Chemical Society. 2008;130:2724-2725'},{id:"B216",body:'Dong W, Kaibin T, Zhenhua L, Huagui Z. Synthesis, crystal structure, and photocatalytic activity of the new three-layer aurivillius phases, Bi2ASrTi2TaO12 (A = Bi, La). Journal of Solid State Chemistry. 2010;183:361-366'},{id:"B217",body:'Fanke M, Zhanglian H, James A, Ming L, Mingjia Z, Feng Y, et al. Visible light photocatalytic activity of nitrogen-doped La2Ti2O7 nanosheets originating from band gap narrowing. Nano Research. 2012;5:213-221'},{id:"B218",body:'Danjun W, Huidong S, Li G, Feng F, Yucang L. Design and construction of the sandwich-like z-scheme multicomponent cds/ag/bi2moo6 heterostructure with enhanced photocatalytic performance in rhb photodegradation. New Journal of Chemistry. 2016;40:8614-8624'}],footnotes:[],contributors:[{corresp:"yes",contributorFullName:"Someshwar Pola",address:"somesh.pola@gmail.com",affiliation:'
Department of Chemistry, University College of Science, Osmania University, Hyderabad, Telangana, India
Department of Chemistry, University College of Science, Osmania University, Hyderabad, Telangana, India
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This fact implies the need for evaluating the radiological implications of this activity. In our case, the study has been performed in a large fertilizer industrial complex located at Huelva town (SW of Spain), where sedimentary phosphate rock has been processed since 1965 to 2010, generating annually an average of about 2.5 million tons of a by‐product called phosphogypsum (PG), which has been stored in big stacks 1 km away from Huelva city, covering 1000 ha. The fluxes of the radionuclides of interest along the production process and the effective doses received by the workers have been determined. In addition, the radioecological impact associated to the waste management strategy followed has been evaluated.",signatures:"José Luis Guerrero‐Márquez, Fernando Mosqueda Peña, Juan\nMantero, Guillermo Manjón, Rafael García‐Tenorio and Juan Pedro\nBolívar",authors:[{id:"57724",title:"Dr.",name:"Guillermo",surname:"Manjon",fullName:"Guillermo Manjon",slug:"guillermo-manjon",email:"manjon@us.es"},{id:"111020",title:"Prof.",name:"Juan Pedro",surname:"Bolivar",fullName:"Juan Pedro Bolivar",slug:"juan-pedro-bolivar",email:"bolivar@uhu.es"},{id:"111022",title:"Prof.",name:"Rafael",surname:"Gacia Tenorio",fullName:"Rafael Gacia Tenorio",slug:"rafael-gacia-tenorio",email:"gtenorio@us.es"},{id:"193940",title:"Dr.",name:"Fernando",surname:"Mosqueda",fullName:"Fernando Mosqueda",slug:"fernando-mosqueda",email:"fernando.mosqueda@dfa.uhu.es"},{id:"193941",title:"Dr.",name:"Juan",surname:"Mantero",fullName:"Juan Mantero",slug:"juan-mantero",email:"manter@us.es"},{id:"193942",title:"Ph.D. Student",name:"José Luis",surname:"Guerrero-Márquez",fullName:"José Luis Guerrero-Márquez",slug:"jose-luis-guerrero-marquez",email:"jlgm91@gmail.com"}],book:{title:"Phosphoric Acid Industry",slug:"phosphoric-acid-industry-problems-and-solutions",productType:{id:"1",title:"Edited Volume"}}}],collaborators:[{id:"15449",title:"Dr.",name:"Mohamed",surname:"Jemal",slug:"mohamed-jemal",fullName:"Mohamed Jemal",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"57724",title:"Dr.",name:"Guillermo",surname:"Manjon",slug:"guillermo-manjon",fullName:"Guillermo Manjon",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"104228",title:"Prof.",name:"Ernesto",surname:"Brunet",slug:"ernesto-brunet",fullName:"Ernesto Brunet",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"Autonomous University of Madrid",institutionURL:null,country:{name:"Spain"}}},{id:"111020",title:"Prof.",name:"Juan Pedro",surname:"Bolivar",slug:"juan-pedro-bolivar",fullName:"Juan Pedro Bolivar",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/111020/images/4639_n.jpg",biography:"SHORT BIOGRAPHY OF PROFESSOR JUAN PEDRO BOLÍVAR\r\nJuan Pedro Bolívar is Professor of Applied Physics at the Faculty of Experimental Sciences (Applied Physics Department) of the University of Huelva (Spain). I am expertise in the areas of characterization of inorganic industrial waste and their valorization in applications of Civil Engineering (cements production, concrete, ceramic or isolation of radioactive waste in sulfur polymer cement matrix). I am also worked in related areas as Environmental Radioactivity (measurement and applications), and Air Pollution (ozone in the troposphere, radioactive aerosols). \r\nI have directed more than 25 projects with companies and administrations, in the previous areas. \r\nI have published more than 100 peer-reviewed papers (see www.scopus.com database), and authored other publications (more than 70), including books, book chapters and proceedings in congresses. In addition, Prof. Bolivar has collaborated in the organization of more than 15 conferences and sessions, I serve as consultant of several Spanish agencies related to the environment and the industry. \r\nI have been reviewer for different journals as J. Environmental Radioactivity, Building and Environment, J. of Hazardous Materials, Science of the Total Environment, Applied Radiation Isotopes, Atmospheric Environment, Atmospheric Research, British Journal of Applied Science & Technology, Environmental International, etc.\r\nThroughout his academic career, Dr. Bolivar has been a dedicated educator of future environmental scientists and engineers, teaching at both the undergraduate and graduate level. He has taught courses about Acoustic Pollution, Waste Characterization and Valorization, Ionizing Radiation and Applications of the Radionuclides in the Environment, Renewable Energy, or Analysis and Treatment of Environmental data, among other related topics. \r\nI am served abroad as evaluator of curricula and programs of environmental sciences, as well as an external thesis reviewer. Through his research activities, I am mentored several post doctoral fellows and visiting scholars, Ph.D. and MS students, who have gone on to work in consulting, state and federal regulatory agencies, as well as academia, and provided many research opportunities for undergraduate students.\r\nThe Prof. Bolivar has supervised 11 doctoral thesis (PhD), and now I have supervising 5 PhD Thesis on several fields as inorganic waste valorization in the production of ceramic materials, manufacturing of compost to restore polluted lands by mining activities, fractionation of natural radionuclides in waters affected by AMD, mobility of pollutants in phosphogypsum. In addition, i have also supervised more than 30 Master Thesis (or equivalent) in official postgraduate and doctorate programs.",institutionString:null,institution:{name:"University of Huelva",institutionURL:null,country:{name:"Spain"}}},{id:"111022",title:"Prof.",name:"Rafael",surname:"Gacia Tenorio",slug:"rafael-gacia-tenorio",fullName:"Rafael Gacia Tenorio",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"University of Seville",institutionURL:null,country:{name:"Spain"}}},{id:"193562",title:"Dr.",name:"Khatereh",surname:"Bahrpaima",slug:"khatereh-bahrpaima",fullName:"Khatereh Bahrpaima",position:"Assistant Professor",profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"193745",title:"Dr.",name:"Hussein",surname:"Alhendawi",slug:"hussein-alhendawi",fullName:"Hussein Alhendawi",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"Autonomous University of Madrid",institutionURL:null,country:{name:"Spain"}}},{id:"193746",title:"Dr.",name:"Elena",surname:"Rodríguez-Payán",slug:"elena-rodriguez-payan",fullName:"Elena Rodríguez-Payán",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"193941",title:"Dr.",name:"Juan",surname:"Mantero",slug:"juan-mantero",fullName:"Juan Mantero",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"193942",title:"Ph.D. Student",name:"José Luis",surname:"Guerrero-Márquez",slug:"jose-luis-guerrero-marquez",fullName:"José Luis Guerrero-Márquez",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null}]},generic:{page:{slug:"partnerships",title:"Partnerships",intro:"
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OASPA
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The Open Access Scholarly Publishers Association (OASPA) was established in 2008 to represent the interests of Open Access (OA) publishers globally in all scientific, technical and scholarly disciplines. Its mission is carried out through exchange of information, the setting of standards, advancing models, advocacy, education, and the promotion of innovation.
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Crossref
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Altmetric and Dimensions from Digital Science
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CLOCKSS
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iThenticate
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Enago
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Amazon
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He registered 2 patents, wrote 12 international books, published more than 90 SCI journal papers and 45 conference presentations, and served as the technique committee member as well as chair in many international conferences and the editor in BMC Genomics as well as in Current Issues in Molecular Biology, and also a reviewer for more than 25 SCI cited journals. He received several awards, including State Prize awarded from the Academy of Science, Egypt (2004); Young Arab Researcher Prize awarded from Schuman Foundation, Jordan (2005); State Excellence Prize from the Academy of Science, Egypt (2011 and 2018); and Cairo University Prizes (2007, 2010, and 2014). He served as an expert for African Regional Center for Technology, Dakar, Senegal, plus a visiting professor at Pan African University, African Union, Nairobi, Kenya. He was appointed acting vice president of the Academy of Science and Technology from November 2013 to November 2014, Egypt. He was also a dean of the Faculty of Agriculture, Cairo University from 2014 to 2017.",institutionString:"Cairo University",institution:{name:"Cairo University",country:{name:"Egypt"}}},{id:"93369",title:"Dr.",name:"Yves",middleName:null,surname:"Gibon",slug:"yves-gibon",fullName:"Yves Gibon",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"Institut National de la Recherche Agronomique",country:{name:"Morocco"}}},{id:"105746",title:"Dr.",name:"A.W.M.M.",middleName:null,surname:"Koopman-van Gemert",slug:"a.w.m.m.-koopman-van-gemert",fullName:"A.W.M.M. Koopman-van Gemert",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/105746/images/5803_n.jpg",biography:"Dr. Anna Wilhelmina Margaretha Maria Koopman-van Gemert MD, PhD, became anaesthesiologist-intensivist from the Radboud University Nijmegen (the Netherlands) in 1987. She worked for a couple of years also as a blood bank director in Nijmegen and introduced in the Netherlands the Cell Saver and blood transfusion alternatives. She performed research in perioperative autotransfusion and obtained the degree of PhD in 1993 publishing Peri-operative autotransfusion by means of a blood cell separator.\nBlood transfusion had her special interest being the president of the Haemovigilance Chamber TRIP and performing several tasks in local and national blood bank and anticoagulant-blood transfusion guidelines committees. Currently, she is working as an associate professor and up till recently was the dean at the Albert Schweitzer Hospital Dordrecht. 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