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Synthesis of CuNi/C and CuNi/γ-Al2O3Catalysts for the Reverse Water Gas Shift Reaction

机译：用于逆水煤气变换反应的CUNI / C和CUNI /γ-AL2O3催化剂的合成

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摘要

A new polyol synthesis method is described in which CuNi nanoparticles of different Cu/Ni atomic ratios were supported on both carbon and gamma-alumina and compared with Pt catalysts using the reverse water gas shift, RWGS, reaction. All catalysts were highly selective for CO formation. The concentration of CH4 was less than the detection limit. Cu was the most abundant metal on the CuNi alloy surfaces, as determined by X-ray photoelectron spectroscopy, XPS, measurements. Only one CuNi alloy catalyst, Cu50Ni50/C, appeared to be as thermally stable as the Pt/C catalysts. After three temperature cycles, from 400 to 700°C, the CO yield at 700°C obtained using the Cu50Ni50/C catalyst was comparable to that obtained using a Pt/C catalyst.

机译：描述了一种新的多元醇合成方法，其中在碳和γ-氧化铝上负载不同Cu / Ni原子比的CUNI纳米颗粒，并使用反向水气体移位，RWG，反应与PT催化剂进行比较。所有催化剂都是对CO形成的高度选择性。 CH4的浓度小于检测极限。 Cu是CUNI合金表面上最丰富的金属，由X射线光电子光谱，XPS，测量值确定。只有一个CUNI合金催化剂CU50NI50 / c似乎与PT / C催化剂一样热稳定。在三个温度循环后，400至700℃，使用Cu50Ni50 / C催化剂获得的700℃的共屈服与使用Pt / C催化剂获得的相当。

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Maxime Lortie; Rima Isaifan; Yun Liu; Sander Mommers;
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年度 2015
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正文语种 eng
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1. Synthesis of CuNi/C and CuNi/γ-Al2O3Catalysts for the Reverse Water Gas Shift Reaction [J] . MaximeLortie, RimaIsaifan, YunLiu, International journal of chemical engineering . 2015,第1期

机译：用于逆水煤气变换反应的CUNI / C和CUNI /γ-AL2O3催化剂的合成
2. Synthesis of CuNi/C and CuNi/γ-Al2O3 Catalysts for the Reverse Water Gas Shift Reaction [J] . Maxime Lortie, Rima Isaifan, Yun Liu International journal of chemical engineering . 2015,第Null期

机译：反向水煤气变换反应用CuNi / C和CuNi /γ-Al2O3催化剂的合成
3. Catalytic Reactivity of CuNi Alloys toward H2O and CO Dissociation for an Efficient Water-Gas Shift: A DFT Study [J] . Li-Yong Gan, Ren-Yu Tian, Xiao-Bao Yang The journal of physical chemistry, C. Nanomaterials and interfaces . 2012,第1期

机译：CuNi合金对H2O和CO分解的催化活性，以实现有效的水煤气变换：DFT研究
4. New Investigations on Critical Wall Shear Stresses of CuNi Alloys in Natural and Artificial Seawater [C] . C. Kapsalis, G. Schmitt, R. Feser, European corrosion congress;EUROCORR 2011 . 2012

机译：天然和人工海水中CuNi合金临界壁切应力的新研究
5. Gas separation by adsorption in order to increase carbon dioxide conversion to carbon monoxide via reverse water gas shift (rwgs) reaction [D] . Abdollahi, Farhang 2013

机译：通过吸附进行气体分离，以通过反向水煤气变换（rwgs）反应提高二氧化碳转化为一氧化碳的能力
6. Recent Advances in Supported Metal Catalysts and Oxide Catalysts for the Reverse Water-Gas Shift Reaction [O] . Xiaodong Chen, Ya Chen, Chunyu Song, 2020

机译：支持金属催化剂和氧化物催化剂的最新进展用于反向水气移反应
7. Effects of Ni and Cu Antisite Substitution on the Phase Stability of CuGa2 from Liquid Ga/CuNi Interfacial Reaction [O] . -1

机译：Ni和Cu Arisite取代对液态GA / CUNI界面反应的Cuga2相位稳定性的影响
8. Flame Synthesis of Nanosized Cu-Ce-O, Ni-Ce-O, and Fe-Ce-O Catalysts for the Water-Gas Shift (WGS) Reaction [R] . Pati, R. K., Lee, I. C., Hou, S., 2009

机译：用于水煤气变换（WGs）反应的纳米Cu-Ce-O，Ni-Ce-O和Fe-Ce-O催化剂的火焰合成

Synthesis of CuNi/C and CuNi/γ-Al2O3Catalysts for the Reverse Water Gas Shift Reaction

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