代表性成果 |
1、论文著作 [1] Heng Zhou, Ying Ren*, Zheng Li, Weichun He and Zhengxin Li *, Selective Detection of Fe3+ by Nitrogen–Sulfur-Doped Carbon Dots Using Thiourea and Citric Acid, Coatings 2022, 12(8), 1042. [2] Ying Ren, Qi Shi,Guifeng Zhang, Lithium storage properties of TiC-modified SnS2 nanosheets, ChemElectroChem 2022 9 (6) e202101567, 1-10. [3] Xi Wang, Ying Ren*, Ni Suo and Guifeng Zhang*, Preparation and Electrochemical Performance of a Graphene Cathode Catalyst Decorated with Pt by Prolysis, Front. Energy Res., 2022, 9, Article 824733,1-6. [4]Aqeela Yasin, Ying Ren, Jingan Li*, Yulong Sheng, Chang Cao* and Kun Zhang,Advances in Hyaluronic Acid for Biomedical Applications,Front. Bioeng. Biotechnol., 04 July 2022 Sec. Biomaterials [5] Y. Ren, H. Zhou, X. Wang,Q. W. Liu, X. D. Hou, G. F. Zhang.Study of the Structure and Properties of ZnS Utilized in a Fluorescence Biosensor, Stem Cells International, 2021, Article ID 7067146, 1-6. [6] Zhigao Xu ,Lili Zhao, Guoqiang Yang,Ying Ren , Jinlong Wu,Yuwei Xia,Xuhong Yang,Milan Cao,Guojiang Zhang,Taisong Peng,Jiafeng Zhao, Hui Yang,Jinfeng Hu,Jiangfeng Du,Severity Assessment of COVID-19 Using a CT-Based Radiomics Model, Stem Cells International, 2021, Article ID 2263469, 1-9. [7] Ren Ying*, Wang Renjie, Cheng Qiaohuan, Chen Qianqian, Xu Zhigao. The Effect of Bias on Properties of DLC Coatings for Artificial Joints, Adv. Mater. Lett. 2020,11(10), 1-5. [8] 任瑛*,王仁杰,许志高.类金刚石薄膜在人工关节摩擦副表面改性进展[J]精细化工, 2020, 37(7), 1314-1319. [9] Ying REN*, Xiaoduo Hou, Guifeng ZHANG. Influence of surface-active agents on Ni-ZrO2 nanocomposite coatings, Journal of the Ceramic Society of Japan, 2019, 127(5), 1-7. [10] Y. Ren*, H.K. Wang. Tribological properties of diamond-like carbon films deposited by vacuum arc, International Journal of Materials Research, 2018, 109(7), 654-660. [11] 任瑛, 金刚石及其他薄膜制备技术, 李颖主编 《超硬材料制造》, 郑州大学出版社, 90千字, 2017.6. ISBN 978-7-5645-4558-1. 中国版本图书馆CIP数据核字(2017)第152104号。 [12] Ying Ren, Biomaterials and coatings for artificial hip joints, in: Jingan Li (Eds.), Biomaterials and Materials for Medicine: Innovations in Research, Devices, and Applications, CRC Press/Taylor ISBN 978-0-367-75321-4, 2021. 2、发明专利 [1] 任瑛,等.一种提高高温高压合成宝石级金刚石氮含量的新方法, 2022.4,中国, ZL 202011135332.2[P]. 3、获奖荣誉 [1] 任瑛,等. Study of the Structure and Properties of ZnS Utilized in a Fluorescence Biosensor,河南省教育厅,优秀科技论文奖,二等奖,2022。 [2]任瑛.《河南万源超硬材料有限责任公司--高导热CVD金刚石膜》, 河南省科技厅, “创青春”河南省大学生创业大赛, “省金奖”并获“优秀指导教师”2016. [3]任瑛.《CVD金刚石厚膜制备技术的改进及其在热沉片方面的应用》河南省科技厅,第十二届挑战杯, ”二等奖”, 2015. 4、主持项目 [1] 任瑛, 等. 河南省高端外国专家引进计划-CVD制备金刚石高导热器件关键技术研究开发(HNGD2022045),河南省科技厅, 2022. [2] 任瑛, 等. 高导热类金刚石散热片的构建及关键技术研究,河南省重点研发与推广专项(科技攻关)(222102230040),河南省科技厅, 2022. [3] 任瑛, 等. CVD和HTHP金刚石合成及应用关键技术研究,“省属高校基本科研业务费专项资金”自科创新基金支持计划, 河南省教育厅,2022. [4] 任瑛, 等. 2020年河南省高等学校青年骨干教师培育计划(21420117),2020. [5] 任瑛, 等. DLC涂层人工关节磨粒形态的研究及磨粒尺寸分布的调控, 河南省科技厅自然科学项目科技攻关项目(192102210036), 河南省科技厅, 2019. [6] 任瑛, 等. 钛合金表面DLC梯度薄膜的制备及其摩擦颗粒的调控,河南省高等学校重点科研项目(15A430004),2015. [7] 任瑛, 等.钛合金表面气相沉积金刚石薄膜的结构优化设计“省属高校基本科研业务费专项资金”项目青年支持计划(2015QNJH15),河南省教育厅,2016. |
