关于拟确定封红青博士为教学科研岗候选人的公示

        按照《材料科学与光电技术学院引进教学科研岗候选人遴选制度》的相关要求,经学院初审、教研室及外部专家面试评议,拟确定封红青博士为学院教学科研岗候选人,推荐申报长聘副教授。

        现将封红青博士的基本情况进行公示,公示时间2023年11月28日-2023年12月1日。

        公示联系人及联系方式:翟老师 69671768,zhaiyanwu@ucas.ac.cn

 材料科学与光电技术学院

                                                   2023年11月28日

        封红青博士基本情况和简历

        封红青,女,现为北京纳米能源与系统研究所副研究员 

        主要简历

        2001.09-2005 .07 北京大学,生命科学学院,生物科学,学士

        2005.09-2011.07 北京大学,前沿交叉学科研究院,生物医学工程,博士

        2008.09-2009.08 美国华盛顿大学,医学院,Visiting Scholar

        2012.01-2014.06 北京大学,工学院,博士后

        2014.06 -2016.04香港城市大学,物理与材料科学系,Research Fellow

        2016.09-今 中国科学院大学,北京纳米能源与系统研究所,副研究员

        承担项目

        1.国家自然科学基金委,优青项目,主持;

        2.国家自然科学基金委,面上项目,主持;

        3.教育部/中国科学院大学,优秀教师科研能力提升项目,主持;

        4.国家科技部,重点专项,参与单位负责人;

        5.国家自然科学基金委,青年基金,主持

        科研情况

        发表SCI 文章50+ 篇;引用2800+ 次;其中第一及通讯作者26 篇:IF>10 文章14 篇;Nature 子刊1 篇;Cell 子刊1 篇;

        通讯作者

        1.Li, E. G. Wang, Y. Z. Zhang, R. Z. Luo, Y. S. Gai, H. Ouyang, Y. L. Deng, X. Z. Zhou, Z. Li*, H. Q. Feng*. Antibacterial ability of black titania in dark: via oxygen vacancies mediated electron transfer. Nano Today, 2023, 101826 (https://doi.org/10.1016/j.nantod.2023.101826). IF=19.06;       

        2.Bai, H. Q. Feng*, Z. Li*. “Theory and Applications of High Voltage Triboelectric Nanogenerators”. Cell Rep. Phys. Sci.2022, 101108. IF=7.83;

        3,Bai, S. B. Chen, …, H. Q. Feng*, Z. Li*. “Chemical Warfare Agents Decontamination via Air Mircoplasma Excited by a Triboelectric Nanogenerator”. Nano Energy.95, 106992 (2022).  IF=19.07; 

        4.Sun, S. Chao, …, H. Q. Feng*, G. S. Mao*, Z. Li*. “Hybrid nanogenerator based closed-loop self-powered low-level vagus nerve stimulation system for atrial fibrillation treatment”. Sci. Bull.2022, 67, 1284. IF=20.58;

        5.Noreen, E. G. Wang, H. Q. Feng*, Z. Li*. “Functionalization of TiO2 for better performance as orthopedic implants”. Materials,2022, 15, 6868. IF=3.75;

        6.Wang, Y. Cao, …, H. Q. Feng*, Z. Li*. “A triboelectric nanosensor based on ultra-thin MXene composite paper for heavy metal ion detection”. J. Micromech. Microeng.2022, 32, 044003; IF=2.28;

        7.Z. Shan, H. Q. Feng*, Z. Li*. “Electrical Stimulation for Nervous System Injury: Research Progress and Prospects”. Acta Phys.-Chim. Sin.2020, 36 (12): 2005038. IF=6.25;

        8.M. Wang, W. H. Jin, …, H. Q. Feng*,P. K. Chu*. “Antibacterial effects of titanium embedded with silver nanoparticles based on electron-transfer-induced reactive oxygen species.” Biomaterials. 2017,124:25-34; IF=15.30; 

        9.M. Wang, H. Q. Feng*, …, P. K. Chu*. “Long-term antibacterial characteristics and cytocompatibility of titania nanotubes loaded with Au nanoparticles without photocatalytic effects.” Appl. Surf. Sci.2017, 414, 230-237; IF=7.39; 

        第一作者

       10.Q. Feng#,Y. Bai#, et al. “An Ultra-simple Charge Supplementary Strategy for High Performance Rotary Triboelectric Nanogenerators”. Small,2021, 17, 2101430. IF=15.15;

        11.C. Zhao#, H. Q. Feng#,L. J. Zhang, et al. “Highly Efficient in vivo Cancer Therapy by an Implantable Magnet Triboelectric Nanogenerator”. Adv. Funct. Mater. 2019, 1808640 (*: Co-first author) IF=19.92; 

        12.Y. Li#, H. Q. Feng#,Z. Li, et al. "High-Throughput Identification and Screening of Single Microbial Cells by Nanobowl Array". ACS. Appl. Mater. Inter. 11, 44933-44940 (2019) (*: Co-first author)  IF=10.38; 

        13.M. Wang#, H. Q. Feng#,L. S. Hu, et al. “An Antibacterial Platform Based on Capacitive Carbon-Doped TiO2 Nanotubes after Charging with Direct/Alternating Currents”. Nat. Commun. 9, 2055 (2018) (*: Co-first author) IF=17.69; 

        14.Li#, H. Q. Feng#, Q. Zheng, et al. “Photothermally tunable biodegradation of implantable triboelectric nanogenerators for tissue repairing”.  Nano Energy.54,390-399 (2018) (*: Co-first author) IF=19.07; 

        15.Q. Feng#, H. Ouyang#, M. Z. Peng#, et al. “Assessment of extracellular matrix modulation of cell traction force by using silicon nanowire array”. Nano Energy. 50, 504-512,(2018) IF=19.07; 

        16.Q. Feng#C. C Zhao#,P.C. Tan, R. P. Liu, X. Chen, Z. Li *. “Nanogenerator for biomedical applications”. Adv. Healthcare. Mater. 1701298 (2018) IF=11.09; 

        17.J. Tian#, H. Q. Feng#, L. Yan, et al. “A self-powered sterilization system with both instant and sustainable anti-bacterial ability.” Nano Energy.36, 241-249 (2017) (*: Co-first author) IF=19.07;

        18.Yang#, H. Q. Feng#, H. Ouyang, et al. “The modulation effect of the convexity of silicon topological nanostructures on the growth of mesenchymal stem cells”. RSC Advances.7: 16977-16983 (2017) (*: Co-first author) IF=4.04;

        19.Q. Feng, G. M. Wang, W. H. Jin, et al. “Systematic study of inherent anti-bacterial properties of magnesium-based biomaterials”.  ACS. Appl. Mater. Inter8: 9662 – 9673 (2016) IF=10.38;

        20.M. Wang#, H. Q. Feng#, W. H. Jin, et al. “Extracellular electron transfer from aerobic bacteria to Au-loaded TiO2 semiconductor without light: a new bacteria killing mechanism other than localized surface plasmon resonance or microbial fuel cells”.ACS. Appl. Mater. Inter. 8 24509-24516 (2016) (*: Co-first author) IF=10.38; 

       21.Q. Feng, G. S. Wu, et al. “Unusual Anti-Bacterial Behavior and Corrosion Resistance of Magnesium Alloy Coated with Diamond-Like Carbon” RSC Advances, 6 (18):14756 – 14762 (2016).IF=4.04;

       22.Q. Feng,G. M. Wang, G. S. Wu, W. H. Jin, H. Wu, and P. K. Chu, “Plasma and Ion-Beam Modification of Metallic Biomaterials for Improved Anti-Bacterial Properties”, Surf. Coat. Tech. 306: 140-146 (2016); IF=4.86;

        23.N. Ma#, H. Q, Feng#, J. S.Guo, Y. D. Liang, et al. “An Efficient and Specific Protection of Non-Thermal Plasma-Induced Live Yeast Cell Derivative (LYCD) for Cells against Plasma Damage”. Plasma. Process. Polym.11(9): 822-832 (2014). (*: Co-first author); IF=3.88;

        24.N. Ma#, H. Q. Feng#, F.T. Li, Y. D. Liang, Q. Zhang, et al. “An Evaluation of Anti-oxidative Protection for Cells against Atmospheric Pressure Cold Plasma Treatment”Appl. Phys. Lett.100: 123701(2012). (*: Co-first author); IF=3.97; 

       25.Q. Feng, R. X. Wang, P. Sun, H.Y. Wu, et al, “A study of eukaryotic response mechanisms to atmospheric pressure cold plasma by using Saccharomyces cerevisiaesingle gene mutants”. Appl. Phys. Lett. 97: 131501 (2010). IF=3.97; 

       26.Q. Feng, P. Sun, et al. “The Interaction of a Direct-Current Cold Atmospheric-Pressure Air Plasma with Bacteria”. IEEE. T. Plasma. Sci.37(1):121-127 (2009). IF=1.37;