齐鲁青年学者,中国机械工程学会、微米纳米技术学会高级会员,美国化学会会员。拥有东南大学工学博士学位,东南大学优秀博士学位论文获得者。2014至2019年先后在美国加州大学欧文分校进行联合培养博士研究生,在美国加州大学欧文分校、东北大学、犹他大学进行博士后研究工作。2019年9月起任职于山东大学机械工程学院,主要研究方向为:微纳流体传感与控制、微纳制造技术、微纳能源、微纳米摩擦与润滑等。在国际知名期刊及国际会议上发表学术论文 30 余篇;申请发明专利6项,获授权发明专利 2 项(美国专利1项);申请软件著作权2项,获批1项;主持国家、省级、市级和校级等各类科研项目22项。
教育经历
工学博士 机械工程 东南大学 2016.12
University of California, Irvine (联合培养博士生2014-2016)
博士论文: 基于Resistive-Pulse技术的微米孔内颗粒输运研究
导师: 陈云飞教授 东南大学 和 Zuzanna S. SIWY教授 University of California, Irvine
工学学士 机械工程 合肥工业大学 2010.6
科研经历
2019.09 – 今 教授,博士生导师 山东大学机械工程学院,济南
教授,博士生导师 山东大学深圳研究院,深圳
教授,博士生导师 山东大学苏州研究院,苏州
2018.09 – 2019.08 博士后 University of Utah, Salt Lake City
合作导师:Henry S. White教授(美国艺术与科学学院院士)
研究方向:扫描离子电导显微镜,扫描电化学显微镜,界面纳米气泡
2017.08 – 2018.08 博士后 Northeastern University, Boston
合作导师:Meni Wanunu教授
研究方向:纳米器件制造,生物分子检测,纳米流体力学
2017.01 – 2017.07 博士后 University of California, Irvine
合作导师:Zuzanna Siwy教授(美国物理学会Fellow)
研究方向:颗粒检测和离子电路 (微纳米流体传感器)
2016.09 - 2016.12 Assistant Specialist, University of California, Irvine
合作导师:Zuzanna Siwy教授(美国物理学会Fellow)
研究方向:基于多孔薄膜的海水淡化 (纳米流体操控)
2014.09 - 2016.09 Junior Specialist, University of California, Irvine
导师:Zuzanna Siwy教授(美国物理学会Fellow)
研究方向:基于Resistive-Pulse技术的颗粒检测 (微纳米流体传感器)
2010.09 – 2016.10 科研助理 东南大学
导师:陈云飞教授(国家杰出青年基金获得者,长江学者)
研究方向:基于分子动力学模拟的固液界面离子和水分布
获奖情况
2019.09.27 齐鲁青年学者,山东大学
2018.12.15 优秀研究奖,中国旅美科协犹他分会,Low-Cost and High-Throughput Micro/Nanoparticle Detection
2018.10.10 优秀博士论文,东南大学
2018.02.19 62届美国生物物理学会年会旅行奖,Nanopore Fabrication in Ultrathin HFO2 Membranes for Nanopore-Based DNA Sequencing
2014.12.31 博士生 国家奖学金,教育部
2014.06.06 博士生 “团结普瑞玛英才班”奖学金,东南大学
2014.05.16 博士生 国家公派出国资格,中国留学基金委员会
学生获奖
2022.12 Best Student Paper Award (Honourable Mention) from《Electrophoresis》
2022.11 博士生马龙获2022年 “榜样的力量”学院榜样人物
2021.12 博士生马龙获2021年博士研究生国家奖学金
2021.06 博士生马龙获山东大学2021年研究生优秀学术成果三等奖
研究兴趣
微/纳机电系统(M/NEMS);
植/介入医疗器械与表界面工程;
微纳米流体传感与控制;
微纳界面摩擦与润滑;
海水淡化与纳米能源;
微纳米气泡及其应用。
在研项目:
5. 山东大学,研究生教研项目,贯彻党的二十大精神,以课程思政建设为突破口的《Physics and Chemistry of Interfaces》实践,2023.1-2023.12,5万元,在研,主持;
4. 广东省自然科学基金,面上项目,2023A1515012931,面向高效盐差能采集的多物理场下纳米孔内离子扩散传输动力学行为研究,2023.1-2025.12,10万元,在研,主持;
3. 国家自然科学基金委员会,青年项目,52105579,基于纳米孔阵列传感器的外泌体高通量超分辨检测研究,2022.01-2024.12,30万元,在研,主持;
2. 江苏省科学技术厅,江苏省自然科学基金-青年项目,BK20200234,基于多孔石墨烯的高通量低能耗RO海水淡化关键技术研究,2020.7-2023.6,20万元,在研,主持;
1. 山东大学,齐鲁青年学者项目,31360089963202,超分辨微纳流体传感器,2019.9-2024.9,100万元,在研,主持;
发表的文献
专利
7. 裘英华,庄嘉坤,马龙,刘哲,满佳,李建勇,一种基于电场作用的低压力低能耗高通量的反渗透脱盐装置及脱盐方法,国家发明专利,申请号:202211695517.8,申请日期:2022.12.28.
6. 裘英华,高梓浩,王昊诚,一种微纳米气泡制备装置及方法,国家发明专利,申请号:202210973287.0,申请日期:2022.8.15
5. 裘英华,庄嘉坤,一种多孔膜的孔径和孔密度的测量方法,国家发明专利,申请号:202210062507.4,申请日期:2022.1.19
4. 裘英华,王昊诚,庄嘉坤,一种微纳米气泡发生器及方法,国家发明专利,专利号:ZL 202111038824,申请日期:2021.9.6,授权日期:2022.8.2。
3. Zuzanna Siwy, Yinghua Qiu, Crystal Yang, and James Boyd, Systems and Methods for Liquid Purification, US2020/0139306 A1, 申请日期:2018.5.22,授权日期:2020.5.7美国专利商标局
2. 郑刚,陈敏,裘英华,陈冬冬,一种电渗流泵及其泵体设计工艺流程,发明专利,专利ZL201310572450,申请日期:2013.11.18,授权日期:2015.8.19。
1. 陈敏,郑刚,裘英华,陈冬冬,一种电渗流泵,实用新型专利,专利号 CN 203610146 U, 申请日期:2013.11.18,授权日期:2014.5.28。
软著
3. 刘睿,裘英华,李剑锋,微纳米孔传感器数据处理系统Eventview V1.0,软件著作权申请
2. 裘英华,刘哲,纳米孔传感器电流信号采集系统isense V1.0,软件著作权,登记号: 2023SR0094473,申请日期:2022.10.6,登记日期:2023.1.16。
1. 裘英华,高梓浩,王昊诚,纳米孔制造与表征系统 PoreFab V1.0,软件著作权,登记号:2022SR1176147,申请日期:2022.4.27,登记日期:2022.8.18。
同行评审期刊
共计SCI 34篇,一作/通讯26篇。SCI他引总数600余次,被Advanced Materials,JACS,Nature Communications,Nano Letters,ACS Nano等顶级期刊多次引用。 (#: 共同一作; *: 通讯作者)
SCI论文
26. Yinghua Qiu*, and Long Ma, Influences of Electroosmotic Flow on Ionic Current through Nanopores: a Comprehensive Understanding, Physics of Fluids, 34 (11): 112010, 2022
25. Jiakun Zhuang, Long Ma, and Yinghua Qiu*, Characterization of the Surface Charge Density and Porosity of Track-etched Polymer Membranes, Electrophoresis, 43(23-24):2428-2435, 2022 (Honourable Mention by Editor)
24. Fenhong Song, Xuan An, Long Ma, Jiakun Zhuang, and Yinghua Qiu*, Influences of Divalent Ions in Natural Seawater/River Water on Nanofluidic Osmotic Energy Generation, Langmuir, 38 (42): 12935–12943, 2022
23. Long Ma#, Xuan An#, Fenhong Song, and Yinghua Qiu*, Effective Charged Exterior Surfaces for Enhanced Ionic Diffusion through Nanopores under Salt Gradients, The Journal of Physical Chemistry Letters, 13 (24): 5669-5676, 2022 (Nature Index Journal, Cover)
22. Zhongwu Li*, Quan Han, and Yinghua Qiu*, Field-enhanced water transport in sub-nanometer graphene nanopores, Desalination, 528, 115610, 2022
21. Long Ma, Kabin Lin, Yinghua Qiu*, Jiakun Zhuang, Xuan An, Zhishan Yuan*, and Chuanzhen Huang, Significantly Enhanced Performance of Nanofluidic Osmotic Power Generation by Slipping Surfaces of Nanopores, Journal of Physical Chemistry C, 125(26), 14195-14203, 2021
20. Long Ma, Zhongwu Li, Zhishan Yuan, Haocheng Wang, Chuanzhen Huang, and Yinghua Qiu*, High-Performance Nanofluidic Osmotic Power Generation Enabled by Exterior Surface Charges under the Natural Salt Gradient, Journal of Power Sources, 492, 229637, 2021
19. Long Ma#, Zhongwu Li#, Zhishan Yuan, Chuanzhen Huang, Zuzanna S. Siwy and Yinghua Qiu*, Modulation of Ionic Current Rectification in Ultra-Short Conical Nanopores, Analytical Chemistry, 92 (24), 16188-16196, 2020 (Nature Index Journal)
18. Yinghua Qiu, Hang Ren, Martin A. Edwards, Rui Gao, Koushik Barman, and Henry S. White*, Electrochemical Generation of Individual Nanobubbles Comprising H2, D2, and HD, Langmuir, 36(22), 6073-6078, 2020
17. Zhongwu Li#, Yinghua Qiu#, Yan Zhang, Min Yue, and Yunfei Chen*, Effects of Surface Trapping and Contact Ion Pairing on Ion Transport in Nanopores, Journal of Physical Chemistry C , 123(24), 15314-15322, 2019
16. Yinghua Qiu*, Zuzanna Siwy, and Meni Wanunu*, Abnormal Current Rectification Caused by Reversed Electroosmotic Flow under Viscosity Gradients across Thin Nanopores, Analytical Chemistry, 91 (1), 996-1004, 2019 (Nature Index Journal)
15. Yinghua Qiu*, Optimal Voltage for Nanoparticle Detection Using Thin Nanopores, Analyst, 143(19) 4638-4645, 2018
14. Yinghua Qiu and Zuzanna Siwy*, Probing Charges on Solid-Liquid Interfaces with the Resistive-Pulse Technique, Nanoscale, 9, 13527-13537, 2017
13. Yinghua Qiu, Rachel Lucas and Zuzanna Siwy*, Viscosity and Conductivity Tunable Diode-like Behavior for Meso- and Micropores, Journal of Physical Chemistry Letters, 8(16), 3846-3852, 2017 (Nature Index Journal)
12. Yinghua Qiu, Anna Dawid, and Zuzanna Siwy*, Experimental Investigation of Dynamic Deprotonation/Protonation of Highly Charged Particles, Journal of Physical Chemistry C, 121 (11), 6255–6263, 2017
11. Yinghua Qiu#, Chih-Yuan Lin#, Preston Hinkle, Timothy S Plett, Crystal Yang, Jenu Varghese Chacko, Michelle A Digman, Li-Hsien Yeh*, Jyh-Ping Hsu* and Zuzanna S Siwy*, Highly Charged Particles Cause a Larger Current Blockage in Micropores Compared to Neutral Particles, ACS Nano, 10 (9), 8413-8422, 2016 (Nature Index Journal)
10. Yinghua Qiu, Ivan Vlassiouk, Yunfei Chen and Zuzanna Siwy*, Direction Dependence of Resistive-Pulse Amplitude in Conically Shaped Mesopores, Analytical Chemistry, 88 (9), 4917–4925, 2016 (Nature Index Journal)
9. Yinghua Qiu, Ivan Vlassiouk, Preston Hinkle, Maria Eugenia Toimil-Molares, Alex J Levine and Zuzanna S Siwy*, Role of Particle Focusing in Resistive-Pulse Technique: Direction-Dependent Velocity in Micropores, ACS Nano, 10 (3), 3509–3517, 2016 (Nature Index Journal)
8. Yinghua Qiu, Jian Ma and Yunfei Chen*, Ionic Behavior in Highly Concentrated Aqueous Solutions Nanoconfined between Discretely Charged Silicon Surfaces, Langmuir, 32 (19), 4806–4814, 2016
7. Yinghua Qiu, Crystal Yang, Preston Hinkle, Ivan V Vlassiouk and Zuzanna S Siwy*, Anomalous Mobility of Highly Charged Particles in Pores, Analytical Chemistry, 87(16), 8517-8523, 2015 (Nature Index Journal)
6. Yinghua Qiu#, Preston Hinkle#, Crystal Yang#, Henriette E Bakker, Matthew Schiel, Hong Wang, Dmitriy Melnikov, Maria Gracheva, Maria Eugenia Toimil-Molares, Arnout Imhof, Zuzanna S Siwy*. Pores with Longitudinal Irregularities Distinguish Objects by Shape, ACS Nano, 9(4), 4390-4397, 2015 (Nature Index Journal)
5. Yinghua Qiu, and Yunfei Chen*, Capacitance Performance in Sub-2-nm Graphene Nanochannels in Aqueous Electrolyte, Journal of Physical Chemistry C, 119(42), 23813–23819, 2015
4. Yinghua Qiu, Kun Li, Weiyu Chen, Wei Si, Qiyan Tan and Yunfei Chen*. Ion and Water Transport in Charge-Modified Graphene Nanopores, Chinese Physics B, 24(10), 108201, 2015
3. Yinghua Qiu, and Yunfei Chen*, Counterions and Water Molecules in Charged Silicon Nanochannels: the Influence of Surface Charge Discreteness, Molecular Simulation, 41(14), 1187-1192, 2015
2. Jian Ma#, Yinghua Qiu#, Zhishan Yuan, Yin Zhang, Jingjie Sha, Lei Liu, Litao Sun, Zhonghua Ni, Hong Yi, Deyu Li and Yunfei Chen*, Detection of Short Single-Strand DNA Homopolymers with Ultrathin Si3N4 Nanopores, Physical Review E, 92(2), 022719, 2015
1. Yinghua Qiu, Qiyan Tan, Wei Si, and Yunfei Chen*, Ion Specificity in NaCl Solution Confined in Silicon Nanochannels, SCIENCE CHINA Technological Sciences, 57(1), 230-238, 2014
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