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[1] Experimental investigation on a dual-mode thermochemical sorption energy storage system Energy, 2017,
[2] 三水醋酸钠相变储能复合材料改性制备及储/放热特性 化工学报【封面论文】, 2018,
[3]litingxian. Thermochemical characterizations of high-stable activated alumina/LiCl composites with multistage sorption process for thermal storage Energy, 2018,
[4]litingxian. 热化学复合吸附储热循环的理论及实验 化工学报, 2016,
[5]litingxian. 蛭石/氯化钙复合吸附剂的吸附特性和储热性能 化工学报, 2018,
[6] 膨胀石墨/有机金属骨架复合吸附材料的制备及性能研究 化工学报【封面论文】, 2018,
[7] Preparation and thermal performance of form-stable expanded graphite/stearic acid composite phase change materials with high thermal conductivity Kexue Tongbao/Chinese Science Bulletin, 2018,
[8]litingxian. Experimental investigation on thermochemical heat storage using manganese chloride/ammonia Energy, 2018,
[9] 氯化镁/沸石复合材料的吸附特性及储热性能 化工学报【封面论文】, 2016,
[10] High energy-density multi-form thermochemical energy storage based on multi-step sorption processes Energy, 2019,
[11] Dehydration kinetics and thermodynamics of magnesium chloride hexahydrate for thermal energy storage Solar Energy Materials and Solar Cells, 2021,
[12]litingxian. Demonstration of Mg(NO3)(2)center dot 6H(2)O-based composite phase change material for practical-scale medium-low temperature thermal energy storage ENERGY, 2020,
[13]litingxian. Near-Zero-Energy Smart Battery Thermal Management Enabled by Sorption Energy Harvesting from Air ACS Central Science, 2020,
[14]litingxian. Highly thermally conductive and flexible phase change composites enabled by polymer/graphite nanoplatelet-based dual networks for efficient thermal management Journal of Materials Chemistry A, 2020,
[15]litingxian. Efficient Solar-Driven Water Harvesting from Arid Air with Metal-Organic Frameworks Modified by Hygroscopic Salt Angewandte Chemie-International Edition, 2020,
total93 2/7
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