1.Paper
(1) Li-e JIN, Fenfen CHANG, Xiaojuan WANG, Qing CAO.Optimization of synthesizing glucose 1-phosphate by sodium tripolyphosphate as a phosphorus acylating agent using response surface methodology Turk J Chem,2013, 37: 765-774.
(2) CaoQing,ZhouCunming,Zhong Cungui,JinLi'e*. Bio-oil upgraded by catalytic co-pyrolysis of sawdust with tyre,International Journal of Oil, Gas and Coal Technology,2014,8(2):235-250.
(3)li-e Jin, lei-li wang Comparison of the Catalyzed Evaporation of Bio-oils From the Co-pyrolysis of Rice Husk and Waste Tires Energy Sources, Part A: covery, Utilization, and Environmental Effects 2015, 37(24):2655-2661.
(4) Rui Zhao, Yan Li, Shilei Gong, Li-e Jin* ,Qing Cao Preparation of polymeric tannins and a dsorption behavior of Cr(VI) adsorbed from aqueous solutions, Advances in Energy Science and Equipment Engineering ,2015,2727-2732
(5)Qing Cao,Liangcheng Guo,Yawei Dong,Xiaoling Xie,Li'e Jin*,Autocatalytic modification of coal tar pitch using benzoyl chloride and its effect on the structure of char,Fuel ProcessingTechnology,2015,129(1):61-66.
(6)ZhangKang, ZhangXiaohua, LiYan, WangXinxin, Cao Qing, JinLi'e. * Synthesis, characteristics and evaluation of antioxidant activity of [1-(tannin-ether)-ethyl] tearate, Jouenal of food science and technology, 2017,54(11), 3483-3490.
(7)Zhang, Kang; Zhang, Xiaohua; Jin, Li'e; Synthesis and evaluation of a novel dispersant with jellyfish-like 3D structure for preparing coal-water slury . FUEL 2017 200 (15): 458-466
(8)Zhang, Kang; Cao, Qing; Jin, Li'e; A novel route to utilize waste engine oil by blending it with water and coal .JOURNAL OF HAZARDOUS MATERIALS 2017,332(1): 51-58
(9)Zhang, Kang; Deng, Shaobo; Li, Ping; Jin, Li'e Synthesis of a novel humic acid-based polycarboxylic dispersant for coal water slurry . INTERNATIONAL JOURNAL OF GREEN ENERGY 2017,14(2) :205-211
(10)Meng, Xingyu; Cao, Qing; Jin, Li'e;Carbon electrode materials for supercapacitors obtained by co-carbonization of coal-tar pitch and sawdust. JOURNAL OF MATERIALS SCIENCE,2017, 52 (2) :760-769
(11)Zhang, Xiaohua ; Zhang, Kang ; Li, Hengxiang; Cao, Qing ; Jin, Li'e; Li, PingPorous graphitic carbon microtubes derived from willow catkins as a substrate of MnO2 for supercapacitors, JOURNAL OF POWER SOURCES ,2017 344(3):176-184
(12)Hengxiang Li, Kang Zhang, Xiaohua Zhang, Qing Cao, Li'e Jin*. Contributions of ultrasonic wave, metal ions, and oxidation on the depolymerization of cellulose and its kinetics. Renewable Energy ,2018 ,(126):699-707.
(13)Xiaohua Zhang, Hengxiang Li, Kang Zhang, Qun Wang, Bing Qin, Qing Cao, and Li’e Jin*. Strategy for preparing porous graphitic carbon for super-capacitor: Balance on porous structure and graphitization degree. Journal of the Electrochemical Society, 2018, 165 (10): 2084-2092.
(14)Qun Wang, Bin Qin, Xiaohua Zhang, Xiaoling Xie, Li'e Jin and Qing Cao Synthesis of N-doped carbon nanosheets with controllable porosity derived from bio-oil for high-performance supercapacitors Journal of Material Chemistry A. 2018, 40(6): 19653-19663
(15)Heng-Xiang Li, Xiaohua Zhang, Qun Wang, Kang Zhang, Qing Cao, Li'e Jin. reparation of the recycled and regenerated mesocarbon micro beads-based solid acid and its catalytic behaviors for hydrolysis of cellulose. Bioresource Technology,2018,270 :166–171
(16)Bin Qin, Qun Wang, Xiaohua Zhang, Xiaoling Xie, Li'e Jin, Qing Cao One-pot synthesis of interconnected porous carbon derived from coal tar pitch and cellulose for high-performance supercapacitors, Electrochimica Acta,2018,283: 655-663
(17)Xue Zhang, Hengxiang Li, Qing Cao, Li’e Jin and Fumeng Wang, Upgrading pyrolytic residue from waste tires to commercial carbon black Waste Management & Research,2018, 36(5):436-444.
(18)Xiaohua Zhang, Kang Zhang, Hengxiang Li, Qun Wang, Li’e Jin & Qing Cao Synthesis of porous graphitic carbon from biomass by one-step method and its role in the electrode for supercapacitor Journal of Applied Electrochemistry,2018, 48:415–426.
(19)Xiaohua Zhang, Xingyu Meng, Qun Wang, Bing Qin, Li’e Jin, Qing Cao Preparation and electrochemical investigation of polyaniline nanowires for high performance supercapacitor, Materials Letters,2018,217: 312–315.
(20)Zhang kang,Qing Cao, Li’e Jin,Direct exfoliation of graphite into graphene in aqueous solution using a novel surfactant obtained from used engine oil J Mater Sci 2018, 53:2484–2496.
(21)Zhang, Xiaohua; Li, Hengxiang; Qin,Bing Li’e Jin, Direct synthesis of porous graphitic carbon sheets grafted on carbon fibers for high-performance supercapacitors,J Mater Sci Chemistry 2019,21(7)3298-3306
(22)Xing, XH; Zhang, XH; Zhang, K; Jin, LE; Cao, Q Preparation of large-sized graphene from needle coke and the adsorption for malachite green with its graphene oxide, Fullerenes nanotubes and carbon nanostructures,2019,27 (2)97-105
(23)Dong, YW Xing, GZ ; Jin, LE; Li, P; Cao, Q,Co-carbonization of brominated petroleum pitch, coal tar pitch and benzoyl chloride to prepare cokes,New carbon materials 2019,34(3) 258-266
(24)Cailing Xie,Lisi Ba,YuruWei,ZeyiShi,Li’e Jin. Synthesis and properties of maleic acid cholesteryl monoester-citric acid triester.
2.Patent
(1)Jin Li-e, WU Ai-lian, PANG Guo-zhong, Cao Qing, LV Yongkang. A preparation method of methionine chelated calcium, patent No. :Zl201010534052.9
(2)Jin Lie, Cao Qing, Yang Wenying, ZHANG Qinglan, WANG Xinyue. Preparation and application of a peroxidase electrode, Patent No. :Zl201110020051.7
(3)Xie Xiaoling, CAO Qing, JIN Li-e, ZHANG Yaodong, ZHANG Zheng, GUO Liangchen, a method for preparing orderly needle-shaped coke from coal bitumen,N201310289562.8.
(4)Cao Qing, JIN Li-e, XIE Xiao-ling, ZHANG Huai-ping, Yu Hui, preparation method of a high acid content carbon-based solid acid, CN201210229347.4.
(5)Cao Qing, JIN Li-e, LI Yue-xian, ZHANG Huai-ping, a preparation method without quinoline insoluble coal tar or coal bitumen,CN201110135689.5.
(6)Jin Li E, Yang Wenying, Yu Hui, ZHAO Hong a preparation method of cellulose super absorbent resin ZL201310065874.0
(7)Jin Li-e, XIE Xiao-ling, WEI Ai-li, Zhao Zhi-jun, a preparation method of edible membrane,Zl201110020051.7
(8)Cao Qing, DENG Shao-bo, ZHAO Hong, YU Hui, JIN Li-e, ZHANG Huaiping, preparation method of a humic acid-based polycarboxylic acid type water slurry dispersant, CN201410074369.7
(9)Cao Qing, JIN Li-e, XIE Xiao-ling, WEI Aili, ZHAO Hong, Preparation of a high-temperature and hydrolyzation-resistant asphalten-based super solid acid,CN201310498085.6
(10)Jin Li-e, Fan Bao-yun, LI Yan, ZHAO Hong, LV Yongkang, Cao Qing, a preparation method of tannic acid ether stearate, CN201410569706.x
(11)Cao Qing, LU Yongkang, YU Hui, ZHAO Hong, ZHANG Rong, WANG Ying, JIN Li-e, a preparation method of nanometer thin layer structure carbon material CN201410661870.3
(12)Jin Li-e, FU Si-mei, LI Yan, ZHANG Jianming, CAO Qing, LU Yongkang, GUO Yu-chen, SUN Hong-ping. Preparation method of tannin-stearate CN201510395409.2
(13)Hao Genyan, CAO Qing, JIN Li-e, ZHANG Kang, A method for preparing coal water slurry surfactant from waste lubricating oil CN201510516861.x
(14)Cao Qing, XIE Xiaoling, WANG Fumeng, Xing Guo-zheng, JIN Li-e, a preparation method of carbon microspheres with controllable particle size, CN201610470744.9
(15)Jin Li-e, CAO Qing, AN Li-ping, ZHANG Qinglan, Paris, Cao Jian, a preparation method of aniline molecularly imprinted polymer CN201610883252.2
(16)Jin Li-e, Cao Qing, Ba Lisi, ZHANG Qinglan, Sun Hong-ping, Jin Wen-bo, a method for the preparation of a single ester of cholesterol maleic acid triester citrate liquid crystal, application Number :CN20171070964697.8
(17)Jin Li-e, Cao Qing, Bali Si, ZHANG Qinglan, Jin Wenbo, a preparation method of -glutamate cholesterol ester gel, application No. CN201710788590.2
(18)Cao Qing-Bin, Jin Li-e, Li Yue-xian, a new preparation method of composite carbon materials with high conductivity and low thermal expansion coefficient,CN201711066410.6
(19)Jin Li-e, PANG Guo-zhong, SHI Ze-Yi, Yang Dong-hua, CAO Qing, preparation method of gelatin - stearic acid composite gel, CN109851818A
(20)Jin Li-e, XIE Cai-ling, GUO Hua, ZHANG Hai-xia, DENG Bo, WANG Ya-xiong, a preparation method of tannin-histidine metal complex, CN202010514999.7
