(1)获奖情况 ●中高含水油藏剖面综合改造关键技术及规模化应用,湖北省科技进步三等奖,2019.06 (2)学术论文 ●Preparation of oxidized carbon black grafted with nanoscale silica and its demulsification performance in water-in-oil emulsion. Colloids and surfaces A. 2019, 123878.(SCI收录) ●Carbon nanotubes grafted with β-cyclodextrin by an ultrasonication method and its demulsification performance in oily wastewater. Colloids and surfaces A. 2020, 124939.(SCI收录) ●Demulsification of oil-in-water emulsions using hyperbranched poly(amido amine) demulsifiers with 4,4-diaminodiphenyl methane as initial cores. Journal of applied polymer science. 2019,48846. (SCI收录) ●Preparation of reduced graphene oxide/titanium dioxide composite materials and its application in the treatment of oily wastewater. Colloids and surfaces A. 2020,124251.(SCI收录) ●Separation of oily wastewater using titanium modified multi-walled carbon nanotubes as demulsifier. Journal of Dispersion Science and Technology. 2020,5,1. (SCI收录) ●Demulsification of water-containing crude oil driven by environmentally friendly SiO2@CS composite materials. Energy & Fuels. 2020. (SCI收录) ● Multi-walled Carbon Nanotubes Grafted by Polyvinyl Alcohol and Its Demulsification Performance in Oily Wastewater. ChemistrySelect. 2020. (SCI收录) ● Magnetic recyclable carbon nanotubes and its demulsification performance in oily wastewater. ChemistrySelect. 2020. (SCI收录) ●A hyperbranched Poly(amido amine) demulsifier with trimethyl citrate as initial cores and its demulsification performance at ambient temperature. Journal of Water Process Engineering. 2020. (SCI收录) ● Synthesis of hexaganol close-packed nanocrystalline nickel by a thermal reduction process. Materials Chemistry and Physics, 2005, 89(2-3):359-361. (SCI收录) ●The synthesis of carbon nanotubes via toluene-thermal reduction process. Journal of Materials Science. 2005, 40:3635-3638. (SCI收录) ●Synthesis of carbon micro-beads by an alcohol-thermal reduction route. Chemistry Letters. 2005,34(6):846-847. (SCI收录) ●Effect of solvothermal reduction process on crystal structure of nickel. Magnetic Materials, Processes, and Devices VIII-Proceedings of the International Symposium. Pennington: Electrochemical Society Inc., 2006: 218-224. (EI收录) ●Synthesis of LaNiC2 superconductor by a toluene-thermal route. Journal of Wuhan University of Technology. 2007,22(2): 253-255. (SCI收录) ●Synthesis of carbon micro-spheres by a glucose hydrothermal method. Materials letters. 2008,62(1):1194-1196. (SCI收录) ●Synthesis of carbon micro-rods via a solvothermal route. Materials Research Bulletin. 2009,44(4): 950-952. (SCI收录) ●A simple solvothermal route to synthesize carbon micro-spheres. New carbon materials. 2009, 24(4):375-378. (SCI收录) ●Actinozoan-like carbon materials prepared via a solvothermal route. Advanced Materials Research. 2012,557-559 :983-986.(EI收录) ●Emulsion Polymerization of P(MMA-AA-EA) and Its Demulsifying Performance in Water/Oil Emulsion. Open Journal of Yangtze Gas and Oil. 2019, 4: 212-224. ● 溶剂热制备条件对镍晶体结构的影响. 无机化学学报. 2005, 21(4):603-606. (SCI收录) ● 溶剂热还原法制备蛋壳状碳材料. 无机化学学报. 2007, 23(1):1833-1836. (SCI收录) ● 燃烧法制备纳米晶氧化镍的研究. 化学研究与应用. 2005,17(1):81-82. (中文核心) ● 溶剂热还原法制备镍纳米颗粒的研究. 磁性材料及器件. 2006,37(4):32-34. (中文核心) ● 多面体结构镍粉的溶剂热制备以及镍的晶型转变研究. 功能材料与器件学报. 2010,16(5). (中文核心) ● 有机溶剂极性对镍的晶形影响研究.磁性材料及器件. 2009,40(2):10-14. (中文核心) ● 乙醇热还原法制备空心镍球. 电子元件与材料. 2010, 29(3). (中文核心) ● 溶剂热法制备多边形薄片结构镍粉的研究. 磁性材料及器件. 2010,41(2). (中文核心) ● 一种用于油基钻井液的有机土激活剂. 科学技术与工程. 2017, 17 (9): 173-177. (中文核心) ● 油基钻井液聚合物增黏剂的合成及性能研究. 钻井液与完井液. 2013, 30(2): 6-10. (中文核心) ● 油基钻井液增黏剂的合成及室内评价. 钻井液与完井液. 2014,31(1):4-8. (中文核心) ● VIS-3型油基钻井液增黏剂的合成及其流变性能测试. 油田化学. 2014,31(2):159-162. (中文核心) (3)出版著作 ●周智敏,米远祝, 主编.《美高梅登录》,化学工业出版社,2011 (4)专利及软件著作权 ●发明专利:一种固井胶乳水泥浆体系及其制备方法 (CN106747018B),20200508 ●发明专利:用于镉离子检测的碳材料修饰玻碳电极的制备方法(CN107478696B)20190618 ●实用新型专利:一种用于反应釜的固定装置 (CN207230048U),20180413 ●实用新型专利:一种高温高压反应釜(CN207085844U),20180313 |