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Exploration and Research on Textbook Quality Evaluation Index System Based on Engineering Major in Higher Education
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作者 xiaoyang yue Yanqiong Wu 《Journal of Contemporary Educational Research》 2024年第3期1-6,共6页
The report of the Chinese 20th National Congress put forward“strengthening the construction and management of textbooks”for the first time,which indicates the importance of textbook construction and highlights the v... The report of the Chinese 20th National Congress put forward“strengthening the construction and management of textbooks”for the first time,which indicates the importance of textbook construction and highlights the vital position of textbooks in the overall development of the country.From the perspective of textbook quality,and based on the research and analysis of the policy requirements and current evaluation indicators of higher education textbooks,this paper establishes the textbook quality evaluation index system composed of basic indicators and evaluation indicators.This system is based on the principles of science,comprehensiveness,operability,and target-oriented approach.It provides a relatively scientific,objective,and fair reference system for the management and evaluation of textbooks. 展开更多
关键词 Textbooks Evaluation index system Higher education Engineering major
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碳环渗入的结晶氮化碳S型同质结及其光催化析氢
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作者 余治晗 关晨 +1 位作者 岳晓阳 向全军 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2023年第7期361-371,共11页
通过人工光催化将水分解为可再生的氢能燃料,是解决全球能源问题的重要途径之一.石墨氮化碳(g-C_(3)N_(4))作为一种极具发展前景的新型半导体光催化剂,因其成本低、能带位置合适和化学稳定性好等优点受到广泛研究.为了克服原始g-C_(3)N_... 通过人工光催化将水分解为可再生的氢能燃料,是解决全球能源问题的重要途径之一.石墨氮化碳(g-C_(3)N_(4))作为一种极具发展前景的新型半导体光催化剂,因其成本低、能带位置合适和化学稳定性好等优点受到广泛研究.为了克服原始g-C_(3)N_(4)光生电荷易复合和电导率低等缺点,从而提高光催化析氢效率,研究人员通过纳米结构设计、增大比表面积、负载单原子和掺杂元素等方法改善g-C_(3)N_(4)基光催化剂的性能.然而,由于脱胺不完全导致石墨氮化碳层内载流子难以迁移,仍旧极大地限制了其可见光利用率.因此,如何有效改善载流子传输,构建新的电子迁移通道依然需要探索和研究.本文采用热聚合法制备g-C_(3)N_(4)(CN-C),将碳元素以碳环的形式逐渐渗透到结晶氮化碳表面,从而实现光生电子在内层和外层之间的快速空间转移,并运用高分辨透射电镜(HRTEM)、二次离子质谱(SIMS)、密度泛函理论(DFT)和飞秒瞬态吸收光谱(fs-TA)等手段研究了所制备半导体材料的结构和光催化机理.HRTEM结果表明了氮化碳与碳环的晶格条纹的存在,证实了结晶氮化碳与碳环的形成.SIMS通过对碳和氮元素在制备的光催化剂的不同深度的比值分析证实了碳环的分布,表明碳环成功从氮化碳表面渗透.DFT结果表明,分子中的内层和外层产生不同的费米能级形成S型同质结并在氮化碳内部建立了的内置电场,从而有效地消除了由于丰富的界面缺陷引起的载流子陷阱的影响,并抑制光生载流子的复合.CN-C内层与外层形成的S型同质结在界面的两侧诱导能级弯曲,形成层间电荷转移通道.此外,fs-TA结果证明碳环与氮化碳结合的共轭平面内也形成了面内光生电荷转移通道,这种双向电子转移通道极大地提高了光生电子解离效率,制备的CN-C在光催化析氢的最大量子效率为15.56%.由此可见,在结晶氮化碳内部成功构建了面内和层间的定向电荷传递路径.综上,本文通过将石墨化碳环渗透到结晶g-C_(3)N_(4)的共轭网络来提高光催化性能,改性的g-C_(3)N_(4)改善了层间电荷转移,而碳环共轭面则大大促进了面内光生电荷对的分离和迁移.CN-C平面内和层间设计的两个电荷转移通道大大缓解了光生电子-空穴对的复合,在可见光照射下,利用10vol%TEOA作为牺牲剂同时负载3wt%Pt作为助催化剂对所有样品进行光催化产氢测试,证实了最优样品具备稳定且较好的光催化制氢性能(93.76μmol h^(–1)),远优于原始的g-C_(3)N_(4)光催化剂(5.19μmol h^(–1)). 展开更多
关键词 碳环 S型结构 层间电荷转移 同质结 光催化析氢
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Construction of efficient active sites through cyano‐modified graphitic carbon nitride for photocatalytic CO_(2) reduction 被引量:4
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作者 Fang Li xiaoyang yue +2 位作者 Haiping Zhou Jiajie Fan Quanjun Xiang 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2021年第9期1608-1616,共9页
The active site amount of photocatalysts,being the key factors in photocatalytic reactions,directly affects the photocatalytic performance of the photocatalyst.Pristine graphitic carbon nitride(g‐C_(3)N_(4))exhibits ... The active site amount of photocatalysts,being the key factors in photocatalytic reactions,directly affects the photocatalytic performance of the photocatalyst.Pristine graphitic carbon nitride(g‐C_(3)N_(4))exhibits moderate photocatalytic activity due to insufficient active sites.In this study,cyano‐modified porous g‐C_(3)N_(4)nanosheets(MCN‐0.5)were synthesized through molecular self‐assembly and alkali‐assisted strategies.The cyano group acted as the active site of the photocatalytic reaction,because the good electron‐withdrawing property of the cyano group promoted carrier separation.Benefiting from the effect of the active sites,MCN‐0.5 exhibited significantly enhanced photocatalytic activity for CO2 reduction under visible light irradiation.Notably,the photocatalytic activity of MCN‐0.5 was significantly reduced when the cyano groups were removed by hydrochloric acid(HCl)treatment,further verifying the role of cyano groups as active sites.The photoreduction of Pt nanoparticles provided an intuitive indication that the introduction of cyano groups provided more active sites for the photocatalytic reaction.Furthermore,the controlled experiments showed that g‐C_(3)N_(4)grafted with cyano groups using melamine as the precursor exhibited enhanced photocatalytic activity,which proved the versatility of the strategy for enhancing the activity of g‐C_(3)N_(4)via cyano group modification.In situ diffuse reflectance infrared Fourier transform spectroscopy and theoretical calculations were used to investigate the mechanism of enhanced photocatalytic activity for CO2 reduction by cyano‐modified g‐C_(3)N_(4).This work provides a promising route for promoting efficient solar energy conversion by designing active sites in photocatalysts. 展开更多
关键词 Graphitic carbon nitride Cyano group modification Active sites Electron acceptor Porous structure Photocatalytic CO2 reduction
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MXene quantum dots of Ti_(3)C_(2):Properties,synthesis,and energy-related applications 被引量:1
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作者 Chen Guan xiaoyang yue +1 位作者 Jiajie Fan Quanjun Xiang 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2022年第10期2484-2499,共16页
The emerging two-dimensional MXene-derived quantum dots(MQDs)have garnered considerable research interest owing to their abundant active edge atoms,excellent electrical conductivity,and remarkable optical properties.C... The emerging two-dimensional MXene-derived quantum dots(MQDs)have garnered considerable research interest owing to their abundant active edge atoms,excellent electrical conductivity,and remarkable optical properties.Compared with their two-dimensional(2D)counterpart MXene,MQDs with forceful size and quantum confinement effects exhibit more unparalleled properties and have considerably contributed to the advanced photocatalysis,detection,energy storage,and biomedicine fields.This critical review summarizes the fundamental properties of MQDs in terms of structure,electricity,and optics.The mechanism,characteristics,and comparisons of two typical synthesis strategies(traditional chemical method and novel fluorine-free or chemical-free method)are also presented.Furthermore,the similarities and differences between MQDs and 2D MXenes are introduced in terms of their functional groups,light absorption capacity,energy band structure,and other properties.Moreover,recent advances in the applications of MQD-based materials for energy conversion and storage(ECS)are discussed,including photocatalysis,batteries,and supercapacitors.Finally,current challenges and future opportunities for advancing MQD-based materials in the promising ECS field are presented. 展开更多
关键词 MXene quantum dots Energy conversion and storage Synthesis method PHOTOCATALYSIS Fundamental property
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Rhodium complex-anchored and supramolecular polymer-grafted CdS nanoflower for enhanced photosynthesis of H_(2)O_(2) and photobiocatalytic C–H bond oxyfunctionalization
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作者 Hongwei Jia xiaoyang yue +7 位作者 Yuying Hou Fei Huang Cuiyao Cao Feifei Jia Guanhua Liu Xiaobing Zheng Yunting Liu Yanjun Jiang 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2024年第10期73-82,共10页
Unspecific peroxygenases exhibit high activity for the selective oxyfunctionalization of inert C(sp3)–H bonds using only H_(2)O_(2) as a clean oxidant,while also exhibiting sensitivity to H_(2)O_(2) concentration.CdS... Unspecific peroxygenases exhibit high activity for the selective oxyfunctionalization of inert C(sp3)–H bonds using only H_(2)O_(2) as a clean oxidant,while also exhibiting sensitivity to H_(2)O_(2) concentration.CdS-based semiconductors are promising for the photosynthesis of H_(2)O_(2) owing to their adequately negative potential for oxygen reduction reaction via a proton-coupled electron transfer process,however,they suffer from fast H_(2)O_(2) decomposition on the surface of pristine CdS.Therefore,[Cp*Rh(bpy)H_(2)O]2+,a highly selective proton-coupled electron transfer catalyst,was anchored onto a supramolecular polymer-grafted CdS nanoflower to construct an efficient integrated photocatalyst for generating H_(2)O_(2),mitigating the surface issue of pristine CdS,increasing light absorption,accelerating photonic carrier separation,and enhancing oxygen reduction reaction selectivity to H_(2)O_(2).This photocatalyst promoted the light driven H_(2)O_(2) generation rate up to 1345μmol·L^(-1)·g^(-1)·h^(-1),which was 2.4 times that of pristine CdS.The constructed heterojunction photocatalyst could supply H_(2)O_(2) in situ for nonspecific peroxygenases to catalyze the C–H oxyfunctionalization of ethylbenzene,achieving a yield of 81%and an ee value of 99%under optimum conditions.A wide range of substrates were converted to the corresponding chiral alcohols using this photo-enzyme catalytic system,achieving the corresponding chiral alcohols in good yield(51%–88%)and excellent enantioselectivity(90%–99%ee). 展开更多
关键词 cadmium sulfide unspecific peroxygenases photobiocatalysis hydrogen peroxide OXYFUNCTIONALIZATION
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Deciphering orbital hybridization in heterogeneous catalysis
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作者 xiaoyang yue Lei Cheng +2 位作者 Eszter Baráth Rajenahally V.Jagadeesh Quanjun Xiang 《Electron》 2024年第1期68-94,共27页
The catalytic coordinate is essentially the evolving frontier orbital interaction while feeding with catalytic materials and adsorbates under proper reaction conditions.The heterogeneous catalytic reaction mechanism i... The catalytic coordinate is essentially the evolving frontier orbital interaction while feeding with catalytic materials and adsorbates under proper reaction conditions.The heterogeneous catalytic reaction mechanism involves the initial adsorption and activation of reactants,subsequent intermediate transformation,final target product desorption,and regeneration of catalytic materials.In these catalytic processes,interaction modulations in terms of orbital hybridization/coupling allow an intrinsic control on both thermodynamics and kinetics.Concerned charge transfer and redistribution,orbital splitting and rearrangement with specific orientation,and spin change and crossover pose a formidable challenge on mechanism elucidation;it is hard to precisely correlate the apparent activity and selectivity,let alone rational modulations on it.Therefore,deciphering the orbital couplings inside a catalytic round is highly desirable and the dependent descriptor further provides in-depth insights into catalyst design at the molecule orbital level.This review hopes to provide a comprehensive understanding on orbital hybridizations,modulations,and correlated descriptors in heterogeneous catalysis. 展开更多
关键词 CATALYSIS catalyst design and prediction DESCRIPTORS INTERACTIONS orbital hybridization
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