个人简介
教育经历
时 间
学校、专业
获得学位
2003.09-2007.07
山东师范大学化学专业
学士学位
2007.09-2012.06
中科院兰州化学物理研究所
博士学位
u 工作经历
时间
单位、岗位
职称晋升情况及其它
2012.07-2014.08
中科院兰州化学物理研究所
助理研究员
2014.09-至今
西南石油大学教师
讲师
近期论文
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2016
(1) Baogang Wang, Weiwei Tang, Hongsheng Lu,Zhiyu Huang. Ionicliquid capped carbon dots as the high-performance friction-reducing andantiwear additive of poly(ethylene glycol), Journal of MaterialsChemistry A, 2016, revised. (IF = 7.443)
(2) Hongsheng Lu, Qianping Shi, BaogangWang, Zhiyu Huang. Spherical-to-wormlike micelle transition in apseudogeminisurfactant system with two types of effective pH-responsive groups,Colloids and Surfaces A, 2016, 494, 74-80.
(3) Hongsheng Lu, Ya Liu, Baogang Wang*,Zhiyu Huang. Self-assemblingtransition behavior of a hydrophobic associativepolymer based on counterion andpH effects, Colloids and Surfaces A, 2016, 490, 1-8.
(4) Hongsheng Lu, Lingling Yang, BaogangWang*, Zhiyu Huang.Journal of Dispersion Science and Technology, 2016, 37, 159-165.
2015
(1) Baogang Wang, J. Hao, et al. Ionic liquidfunctionalized carbon dots: synthesis, property regulation, and applicationsfor fluorescent ink and ion sensor, ACS Applied Materials & Interfaces, 2015,7, 6919-6925. (IF = 6.723)
(2) Baogang Wang, Weiwei Tang, Hongsheng Lu,Zhiyu Huang. Hydrothermal synthesis of ionic liquid-capped carbon quantum dotswith high thermal stability and anion responsiveness, Journal of Materials Science, 2015, 40,5411-5418.
(3) Hongsheng Lu, Xueqian Guan, BaogangWang*, Zhiyu Huang. Journal of Surfactants and Detergents, 2015, 18, 773-782.
(4) Hongsheng Lu, Miao Xue, BaogangWang*, Zhiyu Huang. pH-Regulated surface property andpH-reversible micelle transition of a tertiary amine-based gemini surfactant inaqueous solution, SoftMatter, 2015, 11, 9135-9143. (IF = 4.029)
2014-2010
(1) Baogang Wang, J. Hao, et al. New insightsinto thermal conduction mechanisms of multi-walled carbon nanotube/ionic liquidsuspensions. International Journal of Thermal Sciences, 2014, 83,89-95.
(2) Baogang Wang, J. Hao, et al.Remarkable improvements in thestability and thermal conductivity of graphite/ethylene glycol nanofluidscaused by a graphene oxide percolation structure. DaltonTransactions, 2013, 42, 5866-5873. (IF = 4.197)
(3) Baogang Wang, J. Hao, et al. Relationship betweendispersion state and reinforcement effect of graphene oxide in microcrystallinecellulose–graphene oxide composite films. Journal Materials Chemistry,2012, 22, 12859-12866. (IF = 7.443)
(4) Baodui Wang, Baogang Wang, et al.Controlled synthesis and size-dependent thermal conductivity of Fe3O4magnetic nanofluids. Dalton Transactions, 2012, 41, 896-899. (IF= 4.197)
(5) Baogang Wang, J. Hao, et al. Reducedgraphene oxides by microwave-assisted ionothermal treatment. New Journal of Chemistry, 2012, 36, 1684-1690. (IF= 3.086)
(6) Baogang Wang, J. Hao, et al. A gel–soltransition phenomenon of oxidation multi-walled carbon nanotubes–glycerolnanofluids induced by polyvinyl alcohol. New Journal of Chemistry, 2012, 36, 1273-1279. (IF= 3.086)
(7) Baogang Wang, J. Hao, et al. Thermalconductivity and rheological properties of graphite/oil nanofluids. Colloidsand Surfaces A, 2012, 414, 125-131.
(8) Baogang Wang, J. Hao, et al. Ionicliquid-based stable nanofluids containing gold nanoparticles. Journal of Colloid and Interface Science, 2011, 362, 5. (IF = 3.368)
(9) Baogang Wang, J. Hao, et al. Gold-ionicliquid nanofluids with preferably tribological properties and thermalconductivity. Nanoscale Research Letters, 2011, 6, 259.
(10) BaogangWang, J.Hao, et al. Rheological and Tribological Properties of Ionic Liquid-BasedNanofluids Containing Functionalized Multi-Walled Carbon Nanotubes. Journal of Physical Chemistry C, 2010, 114, 8749.(IF = 4.772)