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[1] sheng han, dongqing wu, sha li, fan zhang * and xinliang feng*. porous graphene materials for advanced electrochemical energy storage and conversion devices. advanced materials, 2014, 26(6): 849-864. (sciÊÕ¼, Ó°ÏìÒò×Ó£º21.950£»ËûÒý´ÎÊý£º384)
[2] han yu, shi ru, guo-yong dai, yong-yan zhai, hua-lin lin, sheng han*, and yong-ge wei(*). an efficient iron(iii)-catalyzed aerobic oxidation of aldehydes in water for the green preparation of carboxylic acids [j]. angew. chem. int. ed. 2017, 56:3867-3871. (sciÊÕ¼, Ó°ÏìÒò×Ó£º12.101£»ËûÒý´ÎÊý£º20)
[3] sheng han, yunlong feng, fan zhang *, chongqing yang, xiaodong zhuang *, xinliang feng. metal-phosphide-containing porous carbons derived from an ionic-polymer framework and applied as highly efficient electrochemical catalysts for water splitting [j]. advanced functional materials, 2015, 25(25): 3899-3906. (sciÊÕ¼, Ó°ÏìÒò×Ó£º13.325£»ËûÒý´ÎÊý£º67)
[4] sheng han, jinzuan wang, sha li, dongqing wu* and xinliang feng*. graphene aerogel supported fe5(po4)4(oh)3¡¤2h2o microspheres as high performance cathode for lithium ion batteries [j]. journal of materials chemistry a, 2014, 2: 6174-6179. (sciÊÕ¼, Ó°ÏìÒò×Ó£º9.931£»ËûÒý´ÎÊý£º30)
[5] sheng han, jianzhong jiang, yanshan huang, yanping tang, jing cao, dongqing wu * and xinliang feng. hierarchical tio2-sno2-graphene aerogels for enhanced lithium storage [j]. physical chemistry chemical physics: pccp, 2015, 17(3): 1580-1584. (sciÊÕ¼, Ó°ÏìÒò×Ó£º4.123£»ËûÒý´ÎÊý£º23)
[6] sheng han, zhao yanru, feng xinliang and wu dongqing*. ternary mos2/sio2/ graphene hybrids for high-performance lithium storage [j]. carbon, 2015, 81: 203-209. (sciÊÕ¼, Ó°ÏìÒò×Ó£º6.337£»ËûÒý´ÎÊý£º29)
[7] leichang cao, jieni wang, kuojin liu and sheng han*. ethyl acetoacetate: a potential bio-based diluent for improving the cold flow properties of biodiesel from waste cooking oil [j]. applied energy, 2014, 114: 18-21. (sciÊÕ¼, Ó°ÏìÒò×Ó£º7.900£»ËûÒý´ÎÊý£º40)
[8] leichang cao, jieni wang, cheng liu, yanwei chen, kuojin liu and sheng han*. ethylene vinyl acetate copolymer: a bio-based cold flow improver for waste cooking oil derived biodiesel blends [j]. applied energy, 2014, 132: 163-167. (sciÊÕ¼, Ó°ÏìÒò×Ó£º7.900£»ËûÒý´ÎÊý£º16)
[9] ning fu, huan-ming wei, hua-lin lin, sheng han* and gu-yu xiao*. iron nanoclusters as template/activator for the synthesis of nitrogen doped porous carbon and its co2 adsorption application [j]. acs appl. mater. interfaces, 2017, 9 (11): 9955¨c9963. (sciÊÕ¼, Ó°ÏìÒò×Ó£º8.097£»ËûÒý´ÎÊý£º11)
[10] j. jiang *, l. zhu 1, h. chen, y. sun, h. lin, s. han*. effect of nickel-doped fes2 nanoparticles-reduced graphene oxide electrocatalysts for efficient hydrogen evolution, journal of alloys and compounds, 2019, 775:1293-1300.
[11] hualin lin*, lian jun, yeping liu,yuan xue, sheng han*,.comprehensive study of structure model, pyrolysis and liquefaction behaviour of heidaigou lignite and its liquefied oil, fuel, 2019,240,84-91. £¨sciÊÕ¼£¬Ó°ÏìÒò×Ó£º4.908£©
[12] guangwen xu, yuan xue, zhicheng zhao, hualin lin*, sheng han*. et al. influence of poly (methacrylate-co-maleic anhydride) pour point depressant with various pendants on low-temperature flowability of diesel fuel[j]. fuel, 2018, 216: 898-907. £¨sciÊÕ¼£¬Ó°ÏìÒò×Ó£º4.908£©
[13] zhicheng zhao, song yan, jun lian, wei chang, yuan xue, zhongyi he, dongsu bi*, sheng han*. a new kind of nanohybrid poly(tetradecyl methyl-acrylate)-graphene oxide as pour point depressant to evaluate the cold flow properties and exhaust gas emissions of diesel fuels. fuel. 2018, 216:818-825.
[14] bin chang, jing chen, mingan zhou, xiaojie zhang, wei wei, bin dai, sheng han*, and yanshan huang*. three©\dimensional graphene©\based n©\doped carbon composites as high©\performance anode materials for sodium©\ion batteries[j]. chemistry¨can asian journal, 2018. doi:10.1002/asia.201801484
[15] yuanhai chen, fengru liu, feng qiu*, chenbao lujialing kang, doudou zhao, sheng han*, xiaodong zhuang*. cobalt-doped porous carbon nanosheets derived from 2d hypercrosslinked polymer with con4 for high performance electrochemical capacitors. polymers, 2018, 10(12):1339-1351.
[16] hualin lin, daming chen, chenbao lu, chao zhang feng qiu, sheng han*, xiaodong zhuang*. rational synthesis of n/s-doped porous carbons as high efficient electrocatalysts for oxygen reduction reaction and zn-air batteries[j]. electrochimica acta, 2018, 266: 17-26.
[17] mengqi zhang, han yu*, yongyan zhai, yongge wei, sheng han*. highly practical and efficient preparation of aldehydes and ketones from aerobic oxidation of alcohols with an inorganic-ligand supported iodine catalyst[j]. chemical communications, 2018, 54(72): 10164-10167.
[18] huanming wei, qian wei, fu ning, hualin lin*, sheng han*, et al. biomass-derived nitrogen-doped porous carbon with superior capacitive performance and high co 2 capture capacity[j]. electrochimica acta, 2018, 266:161-169.
[19] zhicheng zhao, yuan xue, hualin lin*, sheng han*. effect of the nano-hybrid pour point depressants on the cold flow properties of diesel fuel. fuel. 2017, 193:65-71.
[20] yu han, zhai yongyan, dai guoyong, sheng han*, et al. transition©\metal©\controlled inorganic ligand©\supported non©\precious metal catalysts for the aerobic oxidation of amines to imines[j]. chemistry-a european journal, 2017, 23(56): 13883-13887.
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