Photocatalytic reduction of nitrite and nitrate ions over TiO2 semiconductors
01 Jan 1996-Journal of Materials Science Letters (Kluwer Academic Publishers)-Vol. 15, Iss: 10, pp 874-877
TL;DR: In this article, the synthesis and photocatalytic performance of TiO2 prepared by a sol-gel method and compare its activity with a commercial sample of T iQ (J. T. Baker, USA).
Abstract: Photocatalysis has recently gained attention in the field of pollutant degradation [1-4]. Among the various semiconductors employed, anatase phase of TiO2 appears to be a promising photocatalyst [5, 6]. TiO; has become a benchmark semiconductor, showing the best compromise between catalytic performance and stability at any pH value of aqueous dispersion. It has been reported that for the same photoreaction, the preparation of TiO2 and its thermal treatment significantly affect the activity of the semiconductors. Indeed, preparation parameters influence the photoactivity since the physico-chemical features are determined by the catalyst's origin and preparation. The sol-gel method provides a convenient method for the preparation of several inorganic oxides with tailored physical and chemical properties. We report here the synthesis and photocatalytic performance of TiO2 prepared by a sol-gel method and compare its activity with a commercial sample of T iQ (J. T. Baker, USA). TiO2 gels were prepared by the acid catalysed solgel method. The sol was prepared by mixing Ti(IV) isopropoxide with anhydrous 2-propanol, H20 and HNO3 at ambient temperature with stirring. A series of gels with varying ratio of alcohol, water content and different molar ratio between titanium (IV) isopropoxide and acid was prepared, The gels were dried at 383 K for 12h. Crystallization to anatase was achieved in air by heating at 823 K for 24 h. Titanium hydroxide was precipitated by reacting an aqueous solution of TiC14 with an aqueous ammonia solution (25 wt%). This was done by adding the latter drop-wise to the metal solution at room temperature, with vigorous stirring owing to the exothermicity of the reaction. After standing for 24 h at room temperature, the solid was filtered and repeatedly washed with double distilled water until free of chloride ions. The resulting solid was dried at 393 K for 24h and then fired in air at 823 K for 24 h. X-ray diffractograms were obtained for the powdered samples using a Philips diffractometer (Philips Generator, Holland; Model PW 1130) provided with an online recorder and dot-matrix printer (Tele type, USA). The diffraction patterns were recorded at room temperature using Ni-filtered CuKa radiation (/1, = 0.154 18 nm) for all samples. A
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61 citations
TL;DR: In this article, gold nanoparticles were prepared and embedded in methyl functionalized silicate sol-gel (MTMOS) and Nafion (Nf) matrices, which improved the photocatalytic reduction of nitrite ions to ammonia, owing to the effective interfacial charge transfer process in the presence of a hole scavenger.
54 citations
TL;DR: In this paper, surface-carboxylated nano-TiO2 was used to prepare poly (vinyl alcohol) (PVA) nanocomposites to improve the dispersity of nano- TiO2 particles in PVA and to enhance the interaction between nanofiller and matrix.
Abstract: Surface-carboxylated nano-TiO2 was used to prepare poly (vinyl alcohol) (PVA) nanocomposites to improve the dispersity of nano-TiO2 particles in PVA and to enhance the interaction between nanofiller and matrix. The effects of the extents of carboxylation and carboxylated nano-TiO2 loading on mechanical properties of the nanocomposites were investigated. The results show that the tensile strength of the nanocomposites was greatly improved, both by increasing the carboxylated nano-TiO2 loading and by the extent of carboxylation of the nanoparticles, compared with unmodified nano-TiO2. The storage modulus within the rubbery state increased and the loss tangent decreased with increasing COOH content on the TiO2 surface and with increasing carboxylated nano-TiO2 loading. These observations were attributed to a high dispersion of modified nano-TiO2 in the PVA matrix and to crosslinking between OH groups in PVA chains and COOH moieties on inorganic nanoparticle surfaces. POLYM. COMPOS., 31:1184–1193, 2010. © 2009 Society of Plastics Engineers
42 citations
01 Jan 1997
TL;DR: The solar industrial program has developed processes that destroy hazardous substances in or remove them from water and air as discussed by the authors, and the processes of interest are based on the application of heterogeneous photocatalysts, principally titanium dioxide or modifications thereof, but work on other heterogeneous catalysts is included in this compilation.
Abstract: The Solar Industrial Program has developed processes that destroy hazardous substances in or remove them from water and air. The processes of interest in this report are based on the application of heterogeneous photocatalysts, principally titanium dioxide or modifications thereof, but work on other heterogeneous catalysts is included in this compilation. This report continues bibliographies that were published in May, 1994, and October, 1995. The previous reports included 663 and 574 citations, respectively. This update contains an additional 518 references. These were published during the period from June 1995 to October 1996, or are references from prior years that were not included in the previous reports. The work generally focuses on removing hazardous contaminants from air or water to meet environmental or health regulations. This report also references work on properties of semiconductor photocatalysts and applications of photocatalytic chemistry in organic synthesis. This report follows the same organization as the previous publications. The first part provides citations for work done in a few broad categories that are generic to the process. Three tables provide references to work on specific substances. The first table lists organic compounds that are included in various lists of hazardous substances identified by the US Environmental Protection Agency (EPA). The second table lists compounds not included in those categories, but which have been treated in a photocatalytic process. The third table covers inorganic compounds that are on EPA lists of hazardous materials or that have been treated by a photocatalytic process. A short update on companies that are active in providing products or services based on photocatalytic processes is provided.
41 citations
TL;DR: The yield of urea increased notably when the catalysts were supported on zeolite, because of the high adsorption of in situ generated CO2 and NH3 over shape‐selective property of theZeolite in the composite photocatalyst.
Abstract: TiO(2) and Fe-titanate (different wt%) supported on zeolite were prepared by sol-gel and solid-state dispersion methods. The photocatalysts prepared were characterized by X-ray diffraction, scanning electron microscopy and ultraviolet (UV)-visible diffuse reflectance spectroscopy techniques. Photocatalytic reduction of nitrate in water and isopropanol/oxalic acid as hole scavengers are investigated in a batch reactor under UV illumination. The yield of urea increased notably when the catalysts were supported on zeolite. The Fe-titanate supported catalyst promotes the charge separation that contributes to an increase in selective formation of urea. The product formation is because of the high adsorption of in situ generated CO(2) and NH(3) over shape-selective property of the zeolite in the composite photocatalyst. The maximum yield of urea is found to be 18 ppm while 1% isopropanol containing solution over 10 wt% Fe-titanate/HZSM-5 photocatalyst was used.
16 citations
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24,580 citations
TL;DR: The slow pace of hazardous waste remediation at military installations around the world is causing a serious delay in conversion of many of these facilities to civilian uses as discussed by the authors, which is a serious problem.
Abstract: The civilian, commercial, and defense sectors of most advanced industrialized nations are faced with a tremendous set of environmental problems related to the remediation of hazardous wastes, contaminated groundwaters, and the control of toxic air contaminants. For example, the slow pace of hazardous waste remediation at military installations around the world is causing a serious delay in conversion of many of these facilities to civilian uses. Over the last 10 years problems related to hazardous waste remediation have emerged as a high national and international priority.
17,188 citations
Book•
01 Oct 1989
TL;DR: In this paper, the reader is first introduced to the meaning of photocatalysis and subsequently taken through the essentials of photochemistry towards bridging it to semiconductor materials, followed by thermodynamic and kinetic aspects.
Abstract: The book is devoted to the study of photocatalysis, a very popular area of modern-day chemistry. The various chapters will cover aspects of the field that are of particular interest to those at the top in research expertise. Among the subjects discussed are: the theory and preparation of semiconductor mate- rials, the various types of heterogeneous photocatalysis methods, absorption and desorption in photocatalysis, and applied photoca- talysis in energy production. A knowledge of photochemistry is not essential as the format and selection of topics make the field evolve naturally. The student is first introduced to the meaning of photocatalysis and subsequently taken through the essentials of photochemistry towards bridging it to semiconductor materials. The reader is also introduced to the colloidal state of semiconductors followed by thermodynamic and kinetic aspects of photocatalysis. The book is aimed at professional, faculty and graduate students in inorganic and physical chemistry, organic chemistry, oganometallic chemistry, and catalysis.
1,660 citations
TL;DR: In this article, commercial and homemade TiO{sub 2} samples were used as photocatalysts to prove that physicochemical features as determined by the origin and preparation methods affect the photocatalysis behavior, in addition to the semiconducting properties.
Abstract: Several commercial and homemade TiO{sub 2} samples were used as photocatalysts to prove that the physicochemical features as determined by the origin and preparation methods affect the photocatalytic behavior, in addition to the semiconducting properties. The photodegradation of aqueous phenol solution in TiO{sub 2} dispersion, carried out in a batch reactor, was used as a test reaction. The results show a great variability of photocatalytic behavior, and in particular it has been observed that the rutile phase is active or inactive according to the preparation conditions.
409 citations