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韩国强
福州大学机械工程及自动化学院

韩国强,男,福州大学机械工程及自动化学院副教授。

人物简历

2015.10-2016.10, 美国波士顿大学(BU),光电子中心,访问学者;

2013.06-2013.09, 香港城市大学(CityU),访问学者;

2012.03-2014.04, 中科院海西研究院(CAS),化学,博士后;

2005.03-2010.06, 西安交通大学(XJTU),仪器科学与技术,博士;

2002.09-2005.03,西安交通大学(XJTU),材料科学与工程,硕士;

1998.09-2002.06,兰州理工大学,材料科学与工程,计算机科学与技术(辅修),学士。

社会兼职

中国民盟盟员

中国计算机学会会员;

2017年国家自然科学基金委项目函评专家(信息1处:计算机科学与技术学科)

国际期刊审稿人:ACS Applied Materials & Interfaces,Ultramicroscopy,Analyst,Engineering Applications of Artificial Intelligence,Review of Scientific Instrument,Infrared Physics and Technology,BioMedical Engineering Online,IEEE Transactions on Instrumentation & Measurement。

工作经历

2013.07-至今,福州大学,仪器科学与技术、机械工程,副教授;

2010.07-2013.06年,福州大学,仪器科学与技术、机械工程,讲师。

获奖

2017年,福州大学优秀硕士学位论文指导教师;

2016年,中国计量测试学会科技进步二等奖;

2014年,福建省教育厅“高校杰出青年科研人才培育计划”;

2009年,西安交通大学“优秀博士毕业生”;

2007年,“沈阳机床”企业奖学金;

2000年,全国大学生数学建模竞赛省“二等奖”

项目

[1] 福建省自然科学基金“基于压缩感知的图像重构技术研究” (2019,在研)

[2] 国家自然科学基金(青年)“基于纳米金柱阵列结构的原子力显微镜探针针尖形貌盲重构”(No.51205063)

[3] 中国博士后基金特别资助“结型SBN纳米线紫外光探测器光电性能研究”(No. 2013T60643)

[4] 中国博士后基金面上资助“一维单根SBN纳米线紫外光探测器光电性能研究”(No. 2012M521281)

[5] 福建省教育厅“原子力显微镜探针针尖表征与重构”(No.JA14032)

[6] 福建省教育厅“纳米结构的制备及AFM测量不确定度研究” (No.JA11031)

[7] 福州大学科研启动“纳米结构制备及应用” (No. XRC-1023)

学术成果

论文

[1]Guoqiang Han, Shuguang Cao, Qian Yang, Wenyu Yang, Huipeng Chen, et al.High Performance All-solution Processed Flexible Photodetector Arrays Based on Ultrashort Channel Amorphous Oxide Semiconductors Transistor.ACS Applied Materials & Interfaces.2018,10(47):40631-40640.(1区,IF=8.7)

[2] Yixiang Niu andGuoqiang Han*. High-speed AFM imaging based on compressive sensing with undersamling raster scan pattern.IEEE Transactions on Instrumentation and Measurement. 2020,Accepted,(1区,IF=3.9)

[3]Guoqiang Han* , Yixiang Niu, Yu Zou, Bo Lin.Super-resolution AFM imaging based on compressive sensing.Applied Surface Science. 2020,508:145231.(1区, IF=5.8)

[4]Guoqiang Han*, Yixiang Niu, Yu Zou, Bo Lin. Reconstruction of undersampled atomic force microscope images using block-based compressive sensing.Applied Surface Science, 2019, 448: 797–807. (1区, IF=5.8)

[5]Guoqiang Han*and Bo Lin. Optimal Sampling and Reconstruction of Atomic Force Microscopy (AFM) Image using Compressed Sensing (CS).Ultramicroscopy, 2018. 198:85-94.(1区,IF=2.9)

[6]Guoqiang Han, Xiumei Wang, Huipeng Chen. Interface engineering with double-network dielectric structure for flexible Organic Thin Film Transistors [J].Organic Electronics, 2018, 52:213-221.(2区,IF=3.7)

[7]Guoqiang Han,Jun Zhang, Huipeng Chen et al. Surface Infused Interpenetrating Network as Gate Dielectric for high Performance Thin Film Transistor [J].Macromolecular Materials and Engineering2017(1):1-9.(2区,IF=2.7)

[8]Guoqiang Han*, Bo Lin and Yuqin Chen.Reconstruction of atomic force microscopy image using compressed sensing.Micron, 2017, 105:1-10.(三区,IF=1.8)

[9]Guoqiang Han*, Shuguang Cao, Bo Lin. UV Photocatalytic Activity for Water Decomposition ofSrxBa1-xNb2O6 (SBN) Nano-crystals with Different Components and Morphologies [J].Journal of Chemistry, 2017(1):1-6.

[10]Guoqiang Han*, Xiumei Wang, Shuguang Cao, Bo Lin, Yuqin Chen. Blind Evaluation of AFM Tip Shape by Using Optical Glass Surface with Irregular Nanostructures as a Tip Characterize [J].Micro & nano letters. 2017(1):1-4.

[11]Guoqiang Han*,Bo Lin, Zhijun Xu. Electrocardiogram Signal Denoising based on Empirical Mode Decomposition Technique: An Overview.Journal of Instrumentation,2017(1)1-19.

[12]Guoqiang Han*and Zhijun Xu. Electrocardiogram Signal Denoising Based on Improved Wavelet Thresholding [J].Review of Scientific Instrument. 87, 084303 (2016).

[13]Guoqiang Han*, Yuqin Chen, Bingwei He. Biaxially oriented polypropylene film for AFM tip characterization [J]Nano. 2014,9(3): 1450029-1450034.

[14] Zhiying Ren, Chenghui Gao,Guoqiang Han, et al. DT-CWT Robust Filtering Algorithm for the Extraction of Reference and Waviness from 3-D Nano Scalar Surfaces [J].Measurement Science Review.2014, 2(14), 87-93.

[15] Yuqin Chen,Guoqiang Han*, Bingwei He.Atomic force microscopy tip characterizer based on the fabrication of nanorod array structures[J].Micro & Nano Letters. 2013, 12(8):861-864

[16]Guoqiang Han*,Yuqin Chen , Bingwei He. Blind reconstruction of atomic force microscopy tip morphology by using porous anodic alumina membrane [J].Micro & Nano Letters, 2012,7:1282-1284

[17]Guoqiang Han*,Zhuangde Jiang*, Weixuan Jing, Philip D.Prewett and Kyle Jiang. Estimation of AFM tip shape and status in linewidth and profile measurement [J].Journal of nanoscience and nanotechnology, 2011,11:11041-11044

[18]Guoqiang Han*,Zhuangde Jiang*, Weixuan Jing. Jianzhong Gao, Philip D.Prewett and Kyle Jiang. Characterization of sidewall roughness for silicon microstructures in micro-actuator [J].International Journal of Applied Electromagnetics and Mechanics, 2010, 3-4(33):985-990

专利

[1]韩国强陈玉琴 何炳蔚,纳米镍棒阵列原子力显微镜针尖表征样品及其制造方法.

[2]韩国强, 吕路遥, 牛羿翔. 一种原子力显微镜超分辨率图像重构的方法及系统.

[3]韩国强, 牛羿翔, 吕璐瑶.一种欠采样光栅扫描原子力显微镜高速成像的方法及系统.

[4]韩国强, 李怀东,邹宇. 基于针尖盲重构的光栅原子力显微镜图像重构方法.

研究方向

显微镜、机器人与传感器等

1)信号与系统:压缩感知与稀疏表示、一维信号、二维图像处理及其系统,多传感器系统等;

2)光/电子器件:紫外光探测器,柔性晶体管阵列等;

3)智能精密仪器: 显微镜、机器人及传感器等;[1]

参考资料