The use of solar energy to drive the chemical and energy processes,and the chemical storage of solar energy are the key elements to move to a low-carbon economy,sustainable society and to foster energy transition.For ...The use of solar energy to drive the chemical and energy processes,and the chemical storage of solar energy are the key elements to move to a low-carbon economy,sustainable society and to foster energy transition.For this reason,there is a fast-growing scientific interest on this subject,which is part of the general effort for a solar-driven chemistry and energy,the chemistry of the future.To realize this展开更多
Based on Cite Space software,big data bibliometrics analysis was carried out on the keywords of papers of photocatalytic materials published in 2020.Tracking the hotspots and directions can help young scholars to unde...Based on Cite Space software,big data bibliometrics analysis was carried out on the keywords of papers of photocatalytic materials published in 2020.Tracking the hotspots and directions can help young scholars to understand the latest progress.In the Web of Sciences,4147 related papers were searched with"photocatalytic materials"as the main topic.Cluster analysis showed that the hotspots were g-C_(3)N_(4),Mxene and metal-organic frameworks (MOF) and titanium dioxide (TiO_(2)).展开更多
Summary and Scope Photocatalysis is an emerging technology that enables a wide variety of applications,including degradation of organics and dyes,antibacterial action,and fuel generation through water splitting and ca...Summary and Scope Photocatalysis is an emerging technology that enables a wide variety of applications,including degradation of organics and dyes,antibacterial action,and fuel generation through water splitting and carbon dioxide reduction.Numerous inorganic semiconducting materials have been explored as photocatalysts,and the versatility of these materials and reactions has been expanded in recent years.This special issue is展开更多
A novel photocatalytic cement based material was prepared. The distribution of TiO2 on the surface of cement was characterized by scanning electron microscope(SEM) and X-ray diffraction(XRD), which showed the rela...A novel photocatalytic cement based material was prepared. The distribution of TiO2 on the surface of cement was characterized by scanning electron microscope(SEM) and X-ray diffraction(XRD), which showed the relationship of photocatalysis and presence of TiO2. TiO2 also had an impact on cement hydration, which was studied by thermal analysis. With 300 W UV illuminations, formaldehyde and benzene were degraded efficiently by the prepared photocatalytic cement based materials. 15wt% TiO2/cement showed the highest degradation efficiency and capability. The results show that formaldehyde and benzene can be degraded within 4 and 9 hours, respectively. Besides, inorganic ions can induce TiO2 agglomeration. As a result, the presence of inorganic ions in cement is unfavorable for degradation. The photocatalytic cement based materials were fabricated and the degradation efficiency of formaldehyde was measured on building roof under sunlight illumination. Formaldehyde in glass chamber can be degraded thoroughly within 10 days.展开更多
In this study,a photocatalytic material consisting of ZnO and yttrium-doped ZnO(YZO)nanoparticles was obtained via a facile precipitation conducted under ambient pressure whereby crystalline ZnO was successfully doped...In this study,a photocatalytic material consisting of ZnO and yttrium-doped ZnO(YZO)nanoparticles was obtained via a facile precipitation conducted under ambient pressure whereby crystalline ZnO was successfully doped with yttrium.YZO had a hexagonal wurtzite polycrystalline structure with smaller crystal and grain sizes than ZnO,which in turn meant larger specific surface area and pore volume.Chemical defects were also produced,which facilitated photocatalytic activity,because such defects can act as reaction centers.The optical band gap magnitude and the diamagnetic nature of YZO were also determined.The structural,crystalline,and chemical defects of YZO synergistically enhanced the photocatalytic degradation of carbaryl;indeed,the kinetic rate constant of this reaction catalyzed by YZO was 11.17×10^(−2) min^(−1) under natural sunlight irradiation,higher than the value measured for ZnO(8.68×10^(−2) min^(−1)).Evidence thus indicates that yttrium-doping effectively modified some properties of ZnO nanoparticles so that YZO nanoparticles proved a suitable photocatalytic material for carbaryl degradation.展开更多
ZnO/graphene oxide(ZnO/GO) composite material,in which ZnO nanoparticles were densely coated on the GO nanosheets,was successfully prepared by an improved two-step method and characterized by IR, XRD,TEM,and UV-vis ...ZnO/graphene oxide(ZnO/GO) composite material,in which ZnO nanoparticles were densely coated on the GO nanosheets,was successfully prepared by an improved two-step method and characterized by IR, XRD,TEM,and UV-vis techniques.The improved photocatalytic property of the ZnO/GO composite material,evaluated by the photocatalytic degradation of methyl orange(MO) under UV irradiation,is ascribed to the intimate contact between ZnO and GO,the enhanced adsorption of MO,the quick electron transfer from excited ZnO particles to GO sheets and the activation of MO molecules viaπ-πinteraction between MO and GO.展开更多
In this paper,photocatalytic degradation processes of different materials are fitted to the first-order kinetic model,second-order kinetic model and fractional first-order kinetic model.Deterministic coefficients are ...In this paper,photocatalytic degradation processes of different materials are fitted to the first-order kinetic model,second-order kinetic model and fractional first-order kinetic model.Deterministic coefficients are calculated for the evaluation of the validity of these models.The fitting results show clearly that the degradation process can fit the fractional first-order kinetic model in a very good manner.In this way,two material parameters can be well defined.One is the degradation time,which can be used to describe the photocatalytic degradation process quantitatively.Another is the order of the derivative,which could be related to the material’s microstructure.展开更多
文摘The use of solar energy to drive the chemical and energy processes,and the chemical storage of solar energy are the key elements to move to a low-carbon economy,sustainable society and to foster energy transition.For this reason,there is a fast-growing scientific interest on this subject,which is part of the general effort for a solar-driven chemistry and energy,the chemistry of the future.To realize this
基金supported by the Open Foundation of the State Key Laboratory of Structural Chemistry(20190027)Youth Program of National Natural Science Foundation of China(51702053)。
文摘Based on Cite Space software,big data bibliometrics analysis was carried out on the keywords of papers of photocatalytic materials published in 2020.Tracking the hotspots and directions can help young scholars to understand the latest progress.In the Web of Sciences,4147 related papers were searched with"photocatalytic materials"as the main topic.Cluster analysis showed that the hotspots were g-C_(3)N_(4),Mxene and metal-organic frameworks (MOF) and titanium dioxide (TiO_(2)).
文摘Summary and Scope Photocatalysis is an emerging technology that enables a wide variety of applications,including degradation of organics and dyes,antibacterial action,and fuel generation through water splitting and carbon dioxide reduction.Numerous inorganic semiconducting materials have been explored as photocatalysts,and the versatility of these materials and reactions has been expanded in recent years.This special issue is
基金Funded by the National Natural Science Foundation of China(Nos.51478370 and 51461135005)
文摘A novel photocatalytic cement based material was prepared. The distribution of TiO2 on the surface of cement was characterized by scanning electron microscope(SEM) and X-ray diffraction(XRD), which showed the relationship of photocatalysis and presence of TiO2. TiO2 also had an impact on cement hydration, which was studied by thermal analysis. With 300 W UV illuminations, formaldehyde and benzene were degraded efficiently by the prepared photocatalytic cement based materials. 15wt% TiO2/cement showed the highest degradation efficiency and capability. The results show that formaldehyde and benzene can be degraded within 4 and 9 hours, respectively. Besides, inorganic ions can induce TiO2 agglomeration. As a result, the presence of inorganic ions in cement is unfavorable for degradation. The photocatalytic cement based materials were fabricated and the degradation efficiency of formaldehyde was measured on building roof under sunlight illumination. Formaldehyde in glass chamber can be degraded thoroughly within 10 days.
基金supported by the Kasetsart University Kamphaeng Saen Campus (No.KPS-RDI 2019-002)the Research Promotion and Technology Transfer Center (RPTTC), Faculty of Liberal Arts and Science, Kasetsart University Kamphaeng Saen Campus (No.204/2564)the Department of Physics, Faculty of Liberal Arts and Science, Kasetsart University Kamphaeng Saen Campus (No.PHY-2021/09)
文摘In this study,a photocatalytic material consisting of ZnO and yttrium-doped ZnO(YZO)nanoparticles was obtained via a facile precipitation conducted under ambient pressure whereby crystalline ZnO was successfully doped with yttrium.YZO had a hexagonal wurtzite polycrystalline structure with smaller crystal and grain sizes than ZnO,which in turn meant larger specific surface area and pore volume.Chemical defects were also produced,which facilitated photocatalytic activity,because such defects can act as reaction centers.The optical band gap magnitude and the diamagnetic nature of YZO were also determined.The structural,crystalline,and chemical defects of YZO synergistically enhanced the photocatalytic degradation of carbaryl;indeed,the kinetic rate constant of this reaction catalyzed by YZO was 11.17×10^(−2) min^(−1) under natural sunlight irradiation,higher than the value measured for ZnO(8.68×10^(−2) min^(−1)).Evidence thus indicates that yttrium-doping effectively modified some properties of ZnO nanoparticles so that YZO nanoparticles proved a suitable photocatalytic material for carbaryl degradation.
基金supported by the Natural Science Foundation of China(No.21174114)the Ministry of Education Plan for Yangtze River Scholar and Innovation Team Development(No.IRT1177)+2 种基金Scientific and Technical Plan Project of Gansu Province(No. 1204GKCA006)the Natural Science Foundation of Gansu Province (No.1010RJZA024)Scientific and Technical Innovation Project of Northwest Normal University(No.nwnu-kjcxgc-03-63)
文摘ZnO/graphene oxide(ZnO/GO) composite material,in which ZnO nanoparticles were densely coated on the GO nanosheets,was successfully prepared by an improved two-step method and characterized by IR, XRD,TEM,and UV-vis techniques.The improved photocatalytic property of the ZnO/GO composite material,evaluated by the photocatalytic degradation of methyl orange(MO) under UV irradiation,is ascribed to the intimate contact between ZnO and GO,the enhanced adsorption of MO,the quick electron transfer from excited ZnO particles to GO sheets and the activation of MO molecules viaπ-πinteraction between MO and GO.
基金supported by the National Natural Science Foundation of China(51672159,51501105 and 51611540342).
文摘In this paper,photocatalytic degradation processes of different materials are fitted to the first-order kinetic model,second-order kinetic model and fractional first-order kinetic model.Deterministic coefficients are calculated for the evaluation of the validity of these models.The fitting results show clearly that the degradation process can fit the fractional first-order kinetic model in a very good manner.In this way,two material parameters can be well defined.One is the degradation time,which can be used to describe the photocatalytic degradation process quantitatively.Another is the order of the derivative,which could be related to the material’s microstructure.
