Paper Publications
- Zhou, Gaoyu,jiangjiangmin,Feng, Qilin,Zhou, Fei,Qiu, Xia,Xu, Chencheng,Qiu, Lingbang,Zhicheng Ju,Cui, Yanhua,zhuang quanchao.Transforming Li/CFx primary batteries with a novel additive: Engineering solvation structure regulation and electrode/electrolyte interface modification enables superior discharge performance in wide temperatures,2025,v 123,
- Zhou, Gaoyu,jiangjiangmin,Feng, Qilin,Zhou, Fei,Qiu, Xia,chenyaxin,kongxiangkai,Zhicheng Ju,Cui, Yanhua,zhuang quanchao.Engineering high-concentration electrolyte with high ionic conductivity and solvation structure regulation enables high-performance Li/CFx primary batteries,2025,v 633,
- 张蕾,张绪平,张思维,庄全超.白藜芦醇对长期贮存锂离子电池电解液性能的影响,2021,2021年01期:83-91,9
- Guo, Weijia,Meng, Yating,Hu, Yi,Wu, Xuan,鞠治成,庄全超.Surface and Interface Modification of Electrode Materials for Lithium-Ion Batteries With Organic Liquid Electrolyte,2020,卷: 8
- 柳方景,别蕾蕾,郭佳培,宗志敏,魏贤勇.褐煤中有机氮的赋存形态分布和分子结构特征,2020,2020年07期:,9
- 柳方景,Bie, Lei-Lei,Guang-Hui,Guo, Jia-Pei,黄再兴,宗志敏,魏贤勇.Production of Benzenecarboxylic Acids from Geting Bituminous Coal through Oxidation with NaOCl Enhanced by Pretreatment with H2O2,2020,卷: 5期: 28页: 8380-8385
- 柳方景,Liu, Guang-Hui,Gasem, Khaled A. M.,Xu, Bang,Goroncy, Alexander,Tang, Ming-Chen,Huang, Zai-Xing,Fan, Maohong,Wei, Xian-Yong.Green and efficient two-step degradation approach for converting Powder River Basin coal into fuels/chemicals and insights into their chemical compositions,2020,卷: 264
- 柳方景,Gasem, Khaled A. M.,Tang, Mingchen,Xu, Bang,Huang, Zaixing,Zhang, Riguang,Fan, Maohong.Enhanced liquid tar production as fuels/chemicals from Powder River Basin coal through CaO catalyzed stepwise degradation in eco-friendly supercritical CO2/ethanol,2020,卷: 191
- 柳方景,宗志敏,朱英,魏贤勇,Zhu, Xiang-Nan,Tang, Ming-Chen,Huang, Zai-Xing.Production of benzenecarboxylic acids from two typical Chinese subbituminous coals by oxidation in aqueous sodium hypochlorite solution and insights into structural characteristics,2019,卷: 247页: 386-394
- 柳方景,宗志敏,李炜图,朱向楠,魏贤勇,唐铭辰,黄再兴.A three-step dissociation method for converting Xiaolongtan lignite into soluble organic compounds: Insights into chemicals, geochemical clues, and structural characteristics,2019
