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1 de dic. de 2023 · Here, we studied the deep reduction-hydrogen production characteristics. Specifically, the effects of temperature, papermaking sludge (PMS) blended ratio, and reaction time on the deep reduction characteristics of Fe in pickling sludge and presintered waste were studied.
1 de mar. de 2024 · A novel machine learning-based approach called deep mechanism reduction (DeePMR) has been developed to address this issue. The current method transforms mechanism reduction into an optimization problem in the combinatorial space of chemical species while mitigating the curse of dimensionality inherent in the high-dimensional space.
Herein, we propose the immobilization of an alkaline ionic liquid on copper for promoting the deep reduction of CO 2. By this strategy, a C 2+ FE of 81.4% can be achieved under a current density of 0.9 A·cm –2 with a half-cell energy conversion efficiency of 47.4% at −0.76 V vs reversible hydrogen electrode (RHE).
A Deep Reduction and Partial Oxidation Strategy for Fabrication of Mesoporous Si Anode for Lithium Ion Batteries. Jianwen Liang †‡. , Xiaona Li †. , Zhiguo Hou †. , Wanqun Zhang †. , Yongchun Zhu *†. , and. Yitai Qian *†‡. View Author Information. Cite this: ACS Nano 2016, 10, 2, 2295–2304. Publication Date: January 20, 2016.
1 de mar. de 2020 · By adjusting and promoting the aggregation and growth of metal iron and nickel into a certain size of iron particles, iron and nickel powder could be obtained by the efficient separation of reduced materials [19]. Deep reduction was a state between “direct reduction†and “smelting reduction†.
1 de dic. de 2021 · Abstract. The electrosynthesis of valuable chemicals via carbon dioxide reduction reaction (CO 2 RR) has provided a promising way to address global energy and sustainability problems. However, the selectivity and activity of deep-reduction products (DRPs) still remain as big challenges.
Alkaline Ionic Liquid Microphase Promotes Deep Reduction of CO2 on Copper Zhonghao Tan 1,2, Jianling Zhang*,1,2, Yisen Yang1,2, Jiajun Zhong3, Yingzhe Zhao1,2, Jingyang Hu1,2, Buxing Han1,2 and Zhongjun Chen3 1Beijing National Laboratory for Molecular Sciences, CAS Key Laboratory of Colloid, Interface and
