2023年文章----能源催化与多孔材料课题组

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2023年文章

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发布时间：2022-12-26来源：

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(218) Zhenkun Xia, Jiajian Gao*, Tengfei Zhang, Kangjun Wang*, Fushan Chen, Guangwen Xu, Ziyi Zhong, and Fabing Su*. Thermodynamic analysis of the key reactions in synthesizing inorganic silicon compounds or products. Industrial & Engineering Chemistry Research 2023, 62:13213-13222.
(217) Junbo Tian1, Peng Zheng1, Tengfei Zhang, Zhennan Han*, Wenqing Xu*, Fangna Gu*, Fang Wang, Zhanguo Zhang, Ziyi Zhong*, Fabing Su*, and Guangwen Xu*. CO2 methanation over Ni nanoparticles inversely loaded with CeO2 and Cr2O3: Catalytic functions of metal oxide/Ni interfaces. Applied Catalysis B: Environmental 2023, 339:123121.
(216) Ning Qi, Baofang Jin*, Yongxia Zhu, Yuanyuan Dong, Liqing Ban*, Zhanguo Zhang, Jiajian Gao*, Ziyi Zhong, Guangwen Xu, and Fabing Su*. Fe2O3-modified CuO catalyst for efficient catalytic silicon hydrochlorination to trichlorosilane: Catalyst structural evolution. Applied Catalysis A, General 2023, 664:119327.
(215) Heng Zhang, Baofang Jin*, Yongxia Zhu, Liqing Ban*, Kangjun Wang*, Jing Xu, Jiajian Gao*, Ziyi Zhong, Guangwen Xu, and Fabing Su*. Deciphering the promoting mechanism of SnO2 to Cu2O in the Rochow-Müller reaction. Journal of Catalysis 2023, 425:143-154.
(214) Shaomian Liu, Yongjun Ji*, Bing Liu*, Wenqing Xu*, Wenxing Chen*, Jian Yu, Ziyi Zhong, Guangwen Xu, Tingyu Zhu*, and Fabing Su. Coupling Co single atoms and CoOx nanoclusters with cerium zirconium solid solution support synergistically boosts the NO reduction by CO. Advanced Functional Materials 2023 33:2303297.
(213) Qiongguang Li*, Menglei Yuan, Yaqin Wang, Meng Yao, Yanhong Wang, Ziyi Zhong, and Fabing Su*. Carbon-supported Single-atom Metal Materials for Robust Li/Na/K Storage: A Mini Review. Materials Today Sustainability 2023, 22: 100355.
(212) Yongjun Ji1*, Xiaoli Chen1, Shaomian Liu1, Liwen Xing*, Xingyu Jiang, Bin Zhang, Huifang Li, Wenxing Chen, Ziyi Zhong, Ligen Wang*, Guangwen Xu, and Fabing Su*. Engineering oxygen vacancies and localized amorphous regions in CuO-ZnO separately boost catalytic reactivity and selectivity. Nano Research 2023, 16: 2126-2132.
(211) Jing Xu1, Shaojia Song1, Jing Li*, Yongjun Ji*, Zhenxing Li*, Dongxing Fu, Ziyi Zhong*, Guangwen Xu, and Fabing Su*. Forming multiple heterojunctions in ZnO/Cu/Cu2O boosts dimethyldichlorosilane production in Rochow-Müller Reaction. Journal of Catalysis 2023, 419: 99-111.
(210) Tengfei Zhang*1, Feng He1, Jianling Zhang, and Fangna Gu*. Ultrathin NiZrAl layered double hydroxide nanosheets derived catalyst for enhanced CO2 methanation. International Journal of Hydrogen Energy 2023, 48: 5940-5952.
(209) Jingjing Song1, Shaomian Liu1, Yongjun Ji*, Wenqing Xu*, Jian Yu, Bing Liu*, Wenxing Chen*, Jianling Zhang, Lihua Jia*, Tingyu Zhu, Ziyi Zhong, Guangwen Xu, and Fabing Su*. Dual single-atom Ce-Ti/MnO2 catalyst enhances low-temperature NH3-SCR performance with high H2O and SO2 resistance. Nano Research 2023, 13:299-308.
(208) Yongjun Ji1*, Xiaoli Chen1, Shaomian Liu1, Shaojia Song1, Wenqing Xu*, Ruihuan Jiang, Wenxing Chen, Huifang Li, Tingyu Zhu, Zhenxing Li*, Ziyi Zhong, Dingsheng Wang, Guangwen Xu, and Fabing Su*. Tailoring the electronic structure of single Ag atoms in Ag/WO3 for efficient NO reduction by CO in the presence of O2. ACS Catalysis 2023, 13:1230-1239.
(207) Yongjun Ji*1, Shaomian Liu1, Shaojia Song1, Wenqing Xu*, Liang Li, Yu Zhang, Wenxing Chen, Huifang Li, Jingang Jiang*, Tingyu Zhu, Zhenxing Li*, Ziyi Zhong, Dingsheng Wang, Guangwen Xu, and Fabing Su*. Negatively charged single-atom Pt catalysts show superior SO2-tolerance in NOx reduction by CO. ACS Catalysis 2023, 13,224-236.
(206) Tengfei Zhang1, Peng Zheng1, Fangna Gu*, Wenqing Xu*, Wenxing Chen*, Tingyu Zhu, Yi-fan Han, Guangwen Xu, Ziyi Zhong*, and Fabing Su*. Dual-active-site tandem catalyst with Ru single atoms and Ni nanoparticles boosts CO2 methanation. Applied Catalysis B: Environmental 2023, 323:122190.
(205) Shaomian Liu1, Wenjuan Xue1, Yongjun Ji*, Wenqing Xu*, Wenxing Chen*, Lihua Jia, Tingyu Zhu, Ziyi Zhong, Guangwen Xu, Donghai Mei*, and Fabing Su*. Interfacial oxygen vacancies at Co3O4-CeO2 heterointerfaces boost the catalytic reduction of NO by CO in the presence of O2.Applied Catalysis B: Environmental 2023, 323:122151.