刘盈,女,博士,硕导,副教授
下载亚博的联系方式 liuyingwda@ouc.edu.cn
教育与工作背景
2013.12-至今 中国海洋大学材料科学与工程研究院副教授
2013.07-2013.12 中国海洋大学材料科学与工程研究院讲师
2011.07-2013.07 中国海洋大学材料科学与工程研究院博士后
2006.09-2011.07 中国科学院兰州化学物理研究所获博士学位
2000.09-2004.07 山东师范大学化学系获得学士学位
主要研究方向
(1)新能源与纳米材料
(2)海洋防腐防污
承担教学课程
(l)本科生课程《新型碳材料》
(2)研究生课程《分子自组装与纳米制造》
学术成果
先后主持国家自然科学基金等省部级以上项目十余项,在 journal of materials chemistry a、nano energy、 applied catalysis b: environmental、acs applied materials & interfaces、applied materials today、small、nanoscale、journal of materials chemistry c、electrochemistry communication 等期刊发表sci论文三十余篇(其中影响因子10以上文章9篇,含影响因子20以上文章1篇),授权中国发明专利8项。
科研项目
(1)国家自然科学青年基金,2013.01-2015.12,主持;
(2)山东省自然科学基金面上项目,2022.01-2024.12,主持;
(3)国家自然科学基金委员会,联合基金项目,2022.01-2025.12,合作单位项目负责人;
(4)山东省自然科学基金青年项目,2017.08-2019.12,主持;
(5)青岛市科技计划应用基础研究项目,2015.01-2016.12,主持;
(6)山东省中青年科学家科研奖励基金,2014.01-2015.12,主持;
(7)中国博士后科学基金第六批特别资助,2014.01-2015.12,主持;
(8)中国博士后科学基金第52批面上资助,2013.01-2014.12主持;
(9)山东省博士后创新项目专项资金,2012.01-2013.12主持;
(10)中央高校青年教师科研专项基金,主持;
(11)国家自然科学基金委员会,联合基金项目,2019.01至2022.12,参与;
(12)国家自然科学基金委员会,面上项目,2016.01至2019.12,参与。
代表性论文(通讯作者或第一作者)
(1) high-output single-electrode droplet triboelectric nanogenerator based on asymmetrical distribution electrostatic induction enhancement, small, 2023, 19(37),2301568(if= 13.3)
(2) charge storage coating based triboelectric nanogenerator and its applications in self-powered anticorrosion and antifouling. frontiers of materials science, 2023, 17, 230635(if= 2.7)
(3) new blind navigation sensor based on triboelectrification and electrostatic induction. nano energy, 2022, 104,107899(if= 17.6)
(4) high-efficiency droplet triboelectric nanogenerators based on arc-surface and organic coating material for self-powered anti-corrosion, applied materials today, 2022, 29, 101564(if=8.3)
(5) controlling the triboelectric properties and tribological behavior of polyimide materials via plasma treatment, nano energy, 2022, 102,107691(if= 17.6)
(6) a new sip qds/tio2 nrs composite catalyst with al2o3 passivation layerfor enhanced photoelectrochemical water splitting, chemical engineering journal, 2022, 429, 132248(if=15.1)
(7) an asymmetric ac electric field of triboelectric nanogenerator for efficient water/oil emulsion separation,nano energy 2021,90,106641(if=17.6)
(8) a new method for the electrostatic manipulation of droplet movement by triboelectric nanogenerator, nano energy, 2021, 85, 106023(if=17.6)
(9) gas-solid two-phase flow-driven triboelectric nanogenerator for wind-sand energy harvesting and self-powered monitoring sensor, nano energy, 2021, 85, 106023(if=17.6)
(10) leaf-like mxene nanosheets intercalated tio2 nanorod array photoelectrode with enhanced photoelectrochemical performance, journal of power sources, 2021,484, 229236(if=9.2)
(11) new hydrophobic organic coating based triboelectric nanogenerator for efficient and stable hydropower harvesting, acs applided materials & interfaces, 2020, 12, 31351(if=9.5)
(12) ta2o5 nts-tio2 nanodots heterostructure photocatalyst material for enhanced photodegradation and photoelectrochemical performance under simulated solar light, j nanopart res, 2020, 22, 375(if=2.5)
(13) new inorganic coating-based triboelectric nanogenerators with anti-wear and self-healing properties for efficient wave energy harvesting, applied materials today, 2020, 20,100645(if=8.3)
(14) new coating teng with antiwear and healing functions for energy harvesting,acs applied materials & interfaces,2020, 12, 9387(if=9.5)
(15) controllable tio2 core-shell phase heterojunction for efficient photoelectrochemical water splitting under solar light,applied catalysis b: environmental, 2019, 244,519(if= 22.1)
(16) alumina anchored cqds/tio2 nanorods by atomic layer deposition for efficient photoelectrochemical water splitting under solar light, journal of materials chemistry a, 2018, 6, 37,18293-18303(if= 11.9)
(17) facile design of superhydrophobic and superoleophilic copper mesh assisted by candle soot for oil water separation. colloids and surfaces a: physicochemical and engineering aspects, 2018, 537, 294-302(if=5.2)
(18) preparation of superhydrophobic/oleophilic copper mesh for oil-water separation,applied surface science, 2017, 412, 599-605(if=6.7)
(19) hydrogenated tio2 nanotube arrays with enhanced photoelectrochemical property for photocathodic protection under visible light, materials letters 2016, 185, 81(if=3.0)
(20) self-assembled super-hydrophobic multilayer films with corrosion resistance on copper substrate, rsc advances, 2016, 6, 2379(if=3.9)
(21) ag nanoparticle-loaded hierarchical superamphiphobic surface on an al substrate with enhanced anticorrosion and antibacterial properties, journal of physical chemistry c 2015, 119, 25449(if=3.7)
(22) synthesis of mesoporous grooved znfe2o4 nanobelts as peroxidase mimetics for improved enzymatic biosensor, ceramics international, 2015, 41, 10400(if=5.2)
(23) block copolymer nanolithography to manufacture nanopatterned gold substrate for surface-initiated polymerization. journal of materials chemistry c, 2013, 1, 902(if=6.4)
(24) structural engineering of highly ordered tio2 nanotube array by periodic anodization of titanium. electrochemistry communication, 2012, 23, 68-71(if=5.4)
(25) amination of surfaces via self-assembly dopamine. journal of colloid and interface science, 2011, 362 (1), 127-134(if=9.9)
(26) nanostructure formation via print diffusion etching through block copolymer templates. nanoscale, 2010, 2, 587-593(if=6.7)
专利
(1) 琼脂糖图案化印章的制备方法,中国,专利号:zl200910117455.0 授权日期: 20120523
(2)一种防爬行防腐蚀钛或钛合金材料的制备方法,中国,专利号 zl200910221165.0 .授权日期:20120822
(3) 金属钛或钛合金超疏水表面的制备方法,中国,专利号zl200810183386.9授权日期:20110202
(4)伸缩式固-液摩擦纳米发电机,中国,专利号zl201810906416.8授权日期:20180810
(5)一种复合式水滴固-液摩擦纳米发电机及其使用方法, 中国,专利号zl202110255950.9授权日期:20220506
(6)一种粘性摩擦纳米发电机,中国,专利号zl202110339522.4授权日期:20220819
(7)一种sip2量子点/光催化材料及其制备方法,中国,专利号zl202010232299.9授权日期:20221018
(8)一种泡沫金属摩擦单元及其制备方法和应用、单电极摩擦纳米发电机及其应用,中国,专利号zl202011344159.7授权日期:20221223
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