The photothermal synergistic catalysis reaction of reverse water gas shift reaction (RWGS) is considered to be one of the most efficient methods of using CO 2 resource. The design and development of photothermal catalysts with high activity and high selectivity continue to be the focus of attention...
1.It is proved that the MgAl,ZnAl and CuMgAl composite oxide catalysts all exhibit fairly good thermal stability with thereverse water-gas shift reaction.Mg-Al、Zn-A、Cu-Mg-Al三种复合氧化物对逆水煤气变换反应的热稳定性均较好,Cu的引入大幅度的提高催化活性,特别是低温活性的提高尤为明显。 4)inver...
enhancingcurrenttechnologies,suchastheReverseWaterGasShift(RWGS)reaction, toconvertCO2tosyntheticfuels.Thegoalofthisresearchwastodevelopacatalystthat hasahighCO2conversionandCOselectivity.Toachievethisgoal,different experimentswereconductedatthesameconditionstostudytheeffectofdifferent ...
1.It is proved that the MgAl,ZnAl and CuMgAl composite oxide catalysts all exhibit fairly good thermal stability with the reverse water-gas shift reaction.Mg-Al、Zn-A、Cu-Mg-Al三种复合氧化物对逆水煤气变换反应的热稳定性均较好,Cu的引入大幅度的提高催化活性,特别是低温活性的提高尤为明显。 英文短...
water–gas shift reaction6, and CO2reduction7. Therefore, the construction of active interfaces is essential for the design of efficient supported catalysts. However, the catalytic properties of interfacial structure can be influenced by many factors, such as the size of active metals1,8, the type...
0 Citations 0 Altmetric 73 Article access Article metrics 科大讯飞翻译(iFLYTEK Translation) The reverse water–gas shift (RWGS) reaction combined with Fischer–Tropsch synthesis establishes a promising tandem catalytic system for transforming CO2into valuable chemicals and fuels[1,2]. However, the tech...
Reverse water gas shift (RWGS) reaction can transform inert CO2 into active CO. Molybdenum carbide (MoC) has shown good performance in the RWGS reaction, and different crystalline phases exhibit distinct catalytic behaviors. Here, we performed a systematic study on the RWGS reaction mechanism on ...
reverse water‐gas shiftsurface redoxThis paper presents a systematic comparison study of the surface redox reaction mechanism for reverse water鈥恎as shift (RWGS) over Ni(111) and Ni(311) surfaces. Specifically, the most stable surface intermediates and the reaction kinetics involved in the direct...
S. Schneider and co‐workers report in their Communication on page?14482?ff. a reverse water‐gas‐shift reaction that is mediated by a molecular nickel hydride. This photodriven reaction proceeds under ambient conditions.Felix SchneckGeorg-August-Universität Institut für Anorganische Chemie Tammann...
The reverse water-gas shift (RWGS) reaction offers a sustainable approach for CO2 utilization, yielding CO for vital catalytic processes. This study compares the catalytic performance of exsolved Cu- and Ni-encapsulated silicalite-1 (S-1) catalysts against those prepared by impregnation methods. Ex...