电置换反应制备纳米结构Ag(Au)/Cu2O复合物及其电催化还原CO2性能研究
[1] 佚名.Rational design of Cu-based electrocatalysts for electrochemical reduction of carbon dioxide[J].能源化学.2017,26(6).1050-1066.
[2] Xiaobing Zhu,Jian-Hao Liu,Xiao-Song Li,等.Enhanced effect of plasma on catalytic reduction of CO2 to CO with hydrogen over Au/CeO2 at low temperature[J].能源化学.2017,(3).488-493.
[3] Serena,Esposito."Traditional" Sol-Gel Chemistry as a Powerful Tool for the Preparation of Supported Metal and Metal Oxide Catalysts.[J].Materials (Basel, Switzerland).2019,12(4).DOI:10.3390/ma12040668 .
[4] Yang, Yuying,Yan, Qin,Liu, Qing,等.An ultrasensitive sandwich-type electrochemical immunosensor based on the signal amplification strategy of echinoidea-shaped Au@Ag-Cu2O nanoparticles for prostate specific antigen detection.[J].Biosensors & Bioelectronics.2018.99450-457.DOI:10.1016/j.bios.2017.08.018 .
[5] Zhipeng,Chen,Xiaohan,Wang,Licheng,Liu.Electrochemical Reduction of Carbon Dioxide to Value-added Products: The Electrocatalyst and Microbial Electrosynthesis.[J].Chemical record (New York, N.Y.).2018.DOI:10.1002/tcr.201800100 .
[6] Lei Chen,Maomao Liu,Yue Zhao,等.Enhanced catalyst activity by decorating of Au on Ag@Cu2O nanoshell[J].Applied Surface Science.2018.43572-78.DOI:10.1016/j.apsusc.2017.11.082 .
[7] Rodrigues, Thenner S.,Oliveira, Daniela C.,Camargo, Pedro H. C.,等.Controlling Reduction Kinetics in the Galvanic Replacement Involving Metal Oxides Templates: Elucidating the Formation of Bimetallic Bowls, Rattles, and Dendrites from Cu2O Spheres[J].Particle & Particle Systems Characterization: Measurement & Description of Particle Properties & Behavior in Powders & Other Disperse Systems.2018,35(5).201700175-1-201700175-9.
[8] Dai, Daxiang,Gu, Chunchuan,Zhang, Mingzhen,等.In-situ synthesis of Cu2O-Au nanocomposites as nanozyme for colorimetric determination of hydrogen peroxide[J].Journal of Alloys & Compounds: An Interdisciplinary Journal of Materials Science & Solid-state Chemistry & Physics.2018.747
[9] Su, Ya,Guo, Hua,Wang, Zuoshang,等.Au@Cu2O core-shell structure for high sensitive non-enzymatic glucose sensor[J].Sensors and Actuators, B. Chemical.2018,255(Pt.3).2510-2519.DOI:10.1016/j.snb.2017.09.056 .
[10] Tao-Tao Zhuang,Yuanjie Pang,Zhi-Qin Liang,等.Copper nanocavities confine intermediates for efficient electrosynthesis of C3 alcohol fuels from carbon monoxide[J].Nature Catalysis.2018,1(12).946-951.DOI:10.1038/s41929-018-0168-4 .
相关知识
电置换反应制备纳米结构Ag(Au)/Cu2O复合物及其电催化还原CO2性能研究
花状Ag/ZnO复合物的制备及光催化性能
铂纳米花的绿色合成以及电催化性能的研究
笼状Au
磷化钴–磷酸钴修饰氮化钽基纳米花可见光催化CO2还原性能
花状纳米铜的制备及抗菌性能
磷化钴–磷酸钴修饰氮化钽基纳米花可见光催化CO2还原性能 Cobalt Phosphide
钴纳米粒子和二氧化钒纳米花复合材料的制备及其在室温钠硫电池中催化性能研究
一种具有缺陷的钒掺杂二硫化钼纳米花的制备方法及电催化应用与流程
一种用于氮气电化学还原合成氨的介孔氧化镍纳米花电极及其制备方法
网址: 电置换反应制备纳米结构Ag(Au)/Cu2O复合物及其电催化还原CO2性能研究 https://m.huajiangbk.com/newsview2245155.html
| 上一篇: 具有孪晶结构的红细胞状硫化铜的制 |
下一篇: 一种花球状镍铝层状双金属氢氧化物 |
