Photocatalytic hydrogenation of nitroarenes using Cu1.94S-Zn0.23Cd0.77S heteronanorods 被引量：3

Photocatalytic hydrogenation of nitroarenes using Cu1.94S-Zn0.23Cd0.77S heteronanorods

导出

摘要 Catalytic hydrogenation is an important process in the chemical industry. Traditional catalysts require the effective cleavage of hydrogen molecules on the metal-catalyst surface, which is difficult to achieve with non-noble metal catalysts. In this work, we report a new hydrogenation method based on water/ proton reduction, which is completely different from the catalytic cleavage of hydrogen molecules. Active hydrogen species and photo-generated electrons can be directly applied to the hydrogenation process with Cu1.94S-Zn0.23Cd0.775 semiconductor heterojunction nanorods. Nitrobenzene, with a variety of substituent groups, can be efficiently reduced to the corresponding aniline without the addition of hydrogen gas. This is a novel and direct pathway for hydrogenation using non-noble metal catalysts. Catalytic hydrogenation is an important process in the chemical industry. Traditional catalysts require the effective cleavage of hydrogen molecules on the metal-catalyst surface, which is difficult to achieve with non-noble metal catalysts. In this work, we report a new hydrogenation method based on water/ proton reduction, which is completely different from the catalytic cleavage of hydrogen molecules. Active hydrogen species and photo-generated electrons can be directly applied to the hydrogenation process with Cu1.94S-Zn0.23Cd0.775 semiconductor heterojunction nanorods. Nitrobenzene, with a variety of substituent groups, can be efficiently reduced to the corresponding aniline without the addition of hydrogen gas. This is a novel and direct pathway for hydrogenation using non-noble metal catalysts.

作者 Zhanjun Yu Zheng Chen Yueguang Chen Qing Peng Rui Lin Yu Wang Rongan Shen Xing Cao Zhongbin Zhuang Yadong Li

机构地区 Department of Chemistry Faculty of Science Beijing Advanced Innovation Center for Soft Matter Science and Technology

出处《Nano Research》 SCIE EI CAS CSCD 2018年第7期3730-3738,共9页 纳米研究（英文版）

基金 We thank the National Natural Science Foundation of China for support （Nos. 21325101, 21231005, and 21171105） and China Ministry of Science and Technology under Contract of 2016YFA （No. 0202801）.

关键词 PHOTOCATALYTIC HYDROGENATION NITROARENE SELECTIVITY heteronanorods photocatalytic hydrogenation nitroarene selectivity heteronanorods

分类号 O643.36 [理学—物理化学] TE624.43 [理学—化学]

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参考文献5

1Ping Wang Lei Han Chengzhou Zhu Yueming Zhai Shaojun Dong.Aqueous-Phase Synthesis ofAg-TiO2-Reduced Graphene Oxide and Pt-TiO2-Reduced Graphene Oxide Hybrid Nanostructures and Their Catalytic Properties[J].Nano Research,2011,4(11):1153-1162. 被引量：10
2Liuyi Li Chunshan Zhou Huaixia Zhao Ruihu Wang.Spatial control of palladium nanoparticles in flexible click-based porous organic polymers for hydrogenation of olefins and nitrobenzene[J].Nano Research,2015,8(3):709-721. 被引量：3
3Qiao Zhang Ji-Bong Joo Zhenda Lu Michael Dahl Diana Q. L. Oliveira Miaomiao Ye Yadong Yin.Self-Assembly and Photocatalysis of Mesoporous TiO2 Nanocrystal Clusters[J].Nano Research,2011,4(1):103-114. 被引量：17
4Piyush Kar,Samira Farsinezhad,Najia Mahdi,Yun Zhang,Uchenna Obuekwe,Himani Sharma,Jing Shen,Natalia Semagina,Karthik Shankar.Enhanced CH4 yield by photocatalytic CO2 reduction using TiO2 nanotube arrays grafted with Au, Ru, and ZnPd nanoparticles[J].Nano Research,2016,9(11):3478-3493. 被引量：4
5Bing Yang,Qikun Zhang,Xiaoye Ma,Junqing Kang,Jingmin Shi,Bo Tang.Preparation of a magnetically recoverable nanocatalyst via cobalt-doped Fe3O4 nanoparticles and its application in the hydrogenation of nitroarenes[J].Nano Research,2016,9(7):1879-1890. 被引量：4

二级参考文献73

1李德馨,陈郁文.对氯硝基苯在含镧的镍钼硼奈米触媒上的氢化反应(英文)[J].催化学报,2013,34(11):2018-2028. 被引量：2
2G.R.Dey.Chemical Reduction of CO_2 to Different Products during Photo Catalytic Reaction on TiO_2 under Diverse Conditions:an Overview[J].Journal of Natural Gas Chemistry,2007,16(3):217-226. 被引量：16
3Ding, S. Y.; Wang, W. Covalent organic frameworks (COFs): From design to applications. Chem. Soc. Rev. 2013, 42, 548-568. 被引量：1
4Xiang, Z. H.; Cao, D. P. Porous covalent--organic materials: Synthesis, clean energy application and design..Z Mater. Chem. A 2013, 1, 2691- 2718. 被引量：1
5Dawson, R.; Cooper, A. I.; Adams, D. J. Nanoporous organic polymer networks. Prog. Polym. Sci. 2012, 37, 530-563. 被引量：1
6Li, Y.; Fu, Z. Y.; Su, B. L. Hierarchically structured porous materials for energy conversion and storage. Adv. Funct. Mater. 2012, 22, 4634-4667. 被引量：1
7Yuan, Y.; Sun, F. X.; Zhang, F.; Ren, H.; Guo, M. Y.; Cai, K.; Jing, X. F.; Gao, X.; Zhu, G. S. Targeted synthesis of porous aromatic frameworks and their composites for versatile, facile, efficacious, and durable antibacterial polymer coatings. Adv. Mater. 2013, 25, 6619-6624. 被引量：1
8Patel, H. A.; Karadas, F.; Byun, J.; Park, J.; Deniz, E.; Canlier, A.; Jung, Y.; Atilhan, M.; Yavuz, C. T. Highly stable nanoporous sulfur-bridged covalent organic polymers for carbon dioxide removal. Adv. Funct. Mater. 2013, 23, 2270-2276. 被引量：1
9Zhang, P.; Weng, Z. H.; Guo, J.; Wang, C. C. Solution- dispersible, colloidal, conjugated porous polymer networks with entrapped palladium nanocrystals for heterogeneous catalysis of the Suzuki Miyaura coupling reaction. Chem. Mater. 2011, 23, 5243-5249. 被引量：1
10Xie, Z. G.; Wang, C.; deKrafft, K. E.; Lin, W. B. Highly stable and porous cross-linked polymers for efficient photocatalysis. J. Am. Chem. Soc. 2011, 133, 2056-2059. 被引量：1

共引文献31

1Lixia Sang,Lei Lei,Clemens Burda.Electrochemical Fabrication of rGO-embedded Ag-TiO2 Nanoring/Nanotube Arrays for Plasmonic Solar Water Splitting[J].Nano-Micro Letters,2019,11(4):674-689. 被引量：2
2姜丽丽,鲁雄.石墨烯在太阳能电池中的应用[J].无机材料学报,2012,27(11):1129-1137. 被引量：26
3杨朋举,王剑,赵江红,朱珍平.罗丹明B敏化TiO2可见光分解水产氢研究[J].燃料化学学报,2013,41(6):735-740. 被引量：3
4Jianxing Shi Yunxin Liu Qing Peng Yadong Li.ZnO hierarchical aggregates： Solvothermal synthesis and application in dye-sensitized solar cells[J].Nano Research,2013,6(6):441-448. 被引量：6
5彭黎琼,谢金花,郭超,张东.石墨烯的表征方法[J].功能材料,2013,44(21):3055-3059. 被引量：40
6Weichang Hao,Yuan Gao,Xi Jing,Wen Zou,Yan Chen,Tianmin Wang.Visible Light Photocatalytic Properties of Metastable γ-Bi_2O_3 with Different Morphologies[J].Journal of Materials Science & Technology,2014,30(2):192-196. 被引量：4
7Taeseup Song,Hyungkyu Han,Heechae Choi,Jung Woo Lee,Hyunjung Park,Sangkyu Lee,Won II Park,Seungchul Kim,Li Liu,Ungyu Paik.TiO2 nanotube branched tree on a carbon nanofiber nanostructure as an anode for high energy and power lithium ion batteries[J].Nano Research,2014,7(4):491-501. 被引量：4
8Dawei Su,Shixue Dou,Guoxiu Wang.Mesocrystal Co3O4 nanoplatelets as high capacity anode materials for Li-ion batteries[J].Nano Research,2014,7(5):794-803. 被引量：12
9Wenhui Wang,Junnan Gu,Ting He,Yangbin Shen,Shaobo Xi,Lei Tian,Feifei Li,Haoyuan Li,Liuming Yan,Xiaochun Zhou.Optical super-resolution microscopy and its applications in nano-catalysis[J].Nano Research,2015,8(2):441-455. 被引量：3
10Cheng Han,Yingde wang,Yongpeng Lei,Bing Wang,Nan Wu,Qi Shi,Qiong Li.In situ synthesis of graphitic-C3N4 nanosheet hybridized N-doped TiO2 nanofibers for efficient photocatalytic H2 production and degradation[J].Nano Research,2015,8(4):1199-1209. 被引量：31

同被引文献13

1S.S.Shinde,C.H.Bhosale,K.Y.Rajpure.Solar light assisted photocatalysis of water using a zinc oxide semiconductor[J].Journal of Semiconductors,2013,34(4):11-14. 被引量：5
2刘文贤,刘芷莹,王冠男,孙晓明,李亚平,刘军枫.Carbon coated Au/TiO_2 mesoporous microspheres: a novel selective photocatalyst[J].Science China Materials,2017,60(5):438-448. 被引量：4
3Jinxing Chen,Shan Lei,Kun Zeng,Mozhen Wang,Anila Asif,Xuewu Ge.Catalase-imprinted Fe3O4/Fe@fibrous SiO2/polydopamine nanoparticles： An integrated nanoplatform of magnetic targeting, magnetic resonance imaging, and dual-mode cancer therapy[J].Nano Research,2017,10(7):2351-2363. 被引量：5
4Zhao Zhao,Yanbo Xing,Haibo Li,Pingyun Feng,Zaicheng Sun.Constructing CdS/Cd/doped TiO_2 Z-scheme type visible light photocatalyst for H_2 production[J].Science China Materials,2018,61(6):851-860. 被引量：10
5Hassan Anwer,Asad Mahmood,Jechan Lee,Ki-Hyun Kim,Jae-Woo Park,Alex C.K.Yip.Photocatalysts for degradation of dyes in industrial effluents:Opportunities and challenges[J].Nano Research,2019,12(5):955-972. 被引量：27
6Yanbin Huang,Jun Liu,Yanchun Deng,Yuanyuan Qian,Xiaohao Jia,Mengmeng Ma,Cheng Yang,Kong Liu,Zhijie Wang,Shengchun Qu,Zhanguo Wang.The application of perovskite materials in solar water splitting[J].Journal of Semiconductors,2020,41(1):39-55. 被引量：6
7Qun Li,Xinmei Hou,Zhi Fang,Tao Yang,Junhong Chen,Xiangzhi Cui,Tongxiang Liang,Jianlin Shi.Construction of layered h-BN/TiO2 hetero-structure and probing of the synergetic photocatalytic effect[J].Science China Materials,2020,63(2):276-287. 被引量：3
8Tao Zhang,Zhenqi Jiang,Libin Chen,Chunshu Pan,Shan Sun,Chuang Liu,Zihou Li,Wenzhi Ren,Aiguo Wu,Pintong Huang.PCN-Fe(Ⅲ)-PTX nanoparticles for MRI guided high efficiency chemo-photodynamic therapy in pancreatic cancer through alleviating tumor hypoxia[J].Nano Research,2020,13(1):273-281. 被引量：7
9Fajer Mushtaq,Xiangzhong Chen,Harun Torlakcik,Bradley JNelson,Salvador Pané.Enhanced catalytic degradation of organic pollutants by multi-stimuli activated multiferroic nanoarchitectures[J].Nano Research,2020,13(8):2183-2191. 被引量：4
10Yu-Long Men,Peng Liu,Xingcui Peng,Yun-Xiang Pan.Efficient photocatalysis triggered by thin carbon layers coating on photocatalysts:recent progress and future perspectives[J].Science China Chemistry,2020,63(10):1416-1427. 被引量：3

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1Hao Fu,Aiwei Tang.Rational design of multinary copper chalcogenide nanocrystals for photocatalytic hydrogen evolution[J].Journal of Semiconductors,2020,41(9):78-85. 被引量：3
2Liping Liu,Xiaolong Liu,Yongqiang Chai,Bo Wu,Chunru Wang.Surface modification of Ti O2 nanosheets with fullerene and zinc-phthalocyanine for enhanced photocatalytic reduction under solar-light irradiation[J].Science China Materials,2020,63(11):2251-2260. 被引量：4
3Chen Zhao,Shien Guo,Qi Li,Jianan Liu,Mang Zheng,Xudong Xiao,Baojiang Jiang,Honggang Fu.Supramolecular precursor derived loofah sponge-like Fe_(2)O_(x)/C for effective synergistic reaction of Fenton and photocatalysis[J].Nano Research,2022,15(3):1949-1958.

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1Meng Zu,Shengsen Zhang,Changyu Liu,Porun Liu,Dong-Sheng Li,Chao Xing,Shanqing Zhang.Portable wastewater treatment system based on synergistic photocatalytic and persulphate degradation under visible light[J].Science China Materials,2021,64(8):1952-1963. 被引量：1
2Zhe Yin,Min Hu,Jun Liu,Hao Fu,Zhijie Wang,Aiwei Tang.Tunable crystal structure of Cu-Zn-Sn-S nanocrystals for improving photocatalytic hydrogen evolution enabled by copper element regulation[J].Journal of Semiconductors,2022,43(3):68-73. 被引量：4
3陈一凡,唐国钦,赵春霞,陈业凯.富勒醇修饰氮掺杂二氧化钛复合材料及其光催化性能研究[J].硅酸盐通报,2022,41(8):2935-2942. 被引量：1
4侯丹星,訚哲,唐爱伟.CuGaS_(2)半导体纳米晶的合成、光学性能及应用研究进展[J].中央民族大学学报（自然科学版）,2022,31(3):46-57.
5华紫辉,吴波,甘利华,李慧,王春儒.富勒烯及金属富勒烯的形成机理[J].硅酸盐学报,2023,51(2):323-331.
6Yu Li,Shuaibing Wang,Jie Chen,Ouyang Lin,Zhe Yin,Chunhe Yang,Aiwei Tang.From kesterite 2D nanosheets to wurtzite 1D nanorods:controllable synthesis of Cu-Zn-Sn-S and their application in electrocatalytic hydrogen evolution[J].Journal of Semiconductors,2023,44(12):104-110.
7张宝龙,孙彬,刘方璇,高婷婷,周国伟.用于能源转化和环境修复的TiO_(2)基梯型异质结光催化剂[J].Science China Materials,2024,67(2):424-443. 被引量：4

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5杨丽丽,姚玉增,贾晟哲,张秋莹,胡嘉哲,刘洋.辽东树基沟铜锌矿矿区表层土壤重金属分布[J].沈阳理工大学学报,2018,37(1):17-22. 被引量：3
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