双博士学位、硕士生导师、博士后经历、青年百人计划特聘副教授、澳大利亚Endeavor Research Fellow。主要从事电力电子变换器拓扑与构造、新能源变换技术等。近年来，主持国家自然科学基金青年基金、广东省自然科学基金、广州市科技计划项目、广东省教育厅创新人才项目，参与德国洪堡国际联合项目、德国工业联盟项目以及国家自然科学基金等科技项目。获得两次中国专利优秀奖（2012年、2016年）、广东省科学技术奖二等奖、中国电源学会科学技术发明二等奖、东莞市科学技术进步一等奖等科技奖项。出版Springer英文专著1本；发表高水平论文40余篇，其中SCI收录29篇

学科领域

科学学位：电气工程

专业学位：电气工程

教育背景：

2011.11--2015.12，德国哈根大学，工学博士，电气工程

2008.09--2014.12，华南理工大学，工学博士，电力电子与电力传动

2004.09--2008.07，西安理工大学，工学学士，电气工程及其自动化

工作经历： 2016.09--至今， 广东工业大学，自动化学院，副教授/青年百人

2016.11--2017.05，西澳大学（澳大利亚），Endeavour Research Fellow

2015.11--2016.10，香港大学，Postdoctoral Fellow

2013.12--2015.11，哈根大学(德国)，Research Assistant (兼职)

2011.12--2013.11，杜伊斯堡-艾森大学(德国)，Research Assistant(兼职)

英文专著

[1] Guidong Zhang, Bo Zhang, Zhong Li, Designing Impedance Networks Converter [M]. Springer, July. 2017

代表性发明专利(已授权42项): [1]张桂东，陈思哲，章云：一种多输出Z源半桥变换器， ZL201610738524.X，授权日：2017.09.15

[2]张桂东，章云，陈思哲，熊国专：一种高兼容性混合电源结构LED集中式直流供电系统， ZL201610957330.9，授权日：2017.12.08

[3]张桂东，章云，陈思哲，熊国专：一种电源故障控制方法、管理系统及LED直流集中供电系统，ZL201610957441.X，授权日：2018.03.23

[4]张桂东，章云，陈思哲，熊国专：一种高兼容性LED集中式直流供电系统，ZL201610957442.4，授权日：2018.10.09

[5]张桂东，王志洋，陈思哲，章云，叶远茂： 一种基于阻抗网络的半桥逆变器, ZL201710146094.7, 授权日：2019.02.05

[6]张桂东，王志洋，陈思哲，章云：一种电能双向流动型智能插座及其运行方法, ZL201610947777.8，授权日：2019.02.22

[7]张桂东，王志洋，陈思哲，章云：一种家庭供电系统及其运行方法，ZL 201610946552.0,授权日：2019.05.28

4. 主持科研项目(5项): [1]国家自然科学基金青年基金：离子引擎供电电源的超高增益变换器及最佳负载点运行控制；2020年，25万元。

[2]广东省教育厅青年创新人才项目（自然科学）：高增益阻抗型DC-DC变换器拓扑研究；2017年，5万元。

[3]广东省自然科学基金博士启动项目：面向Z源变换器的阻抗匹配机理研究； 2017年，10万元。

[4]广州市科技计划项目：间歇性能源弹性存储技术与电网友好型能源路由器的研制；2018年，20万元。

[5]广东省自然科学基金：基于图论的高增益阻抗型电力电子变压器拓扑研究； 2018年，10万元。

5. 科技奖励(5项)： [1]（2/4），一种LED集中式直流供电系统及其运行方法，国家知识产权局，中国专利奖，优秀奖，2016。

[2]（3/3），基于LLC串联谐振的低电压应力单级AC-DC变换器，国家知识产权局，中国专利奖，优秀奖，2012

[3]（9/10），高性能开关电源的柔性技术及应用，广东省人民政府，广东省科学技术奖，二等奖，2013

[4]（4/6），基于TRIZ理论的开关电源变换器拓扑构造方法及应用，中国电源学会，中国电源学会科学技术发明奖，二等奖，2011

[5]（10/13），大功率LED驱动电源关键技术，东莞市政府，东莞市科技进步奖一等奖，2013 所在团队主要依托“广东省高校电力节能与新能源技术重点实验室”开展研究工作，主要合作者包括：章云教授、陈思哲副教授、王裕副教授、杨苓讲师。

变换器拓扑与构造、新能源变换技术

中国电源学会第一届会员发展工作委员会委员，中国电源学会第二届青年工作委员会委员，中国电源学会高级会员。

IEEE Trans. Power Electron., IEEE Trans. Ind. Electron.，IET Power Electron.等多个权威期刊审稿人

[1]G. Zhang(张桂东), Z. Li, B. Zhang, and W. Halang: Power Electronics Converters: Past, Present and Future[J], Renewable & Sustainable Energy Reviews, 2018, 81(2): 2028-2044

[2]G. Zhang(张桂东), Z. Wang, S.S. Yu, S.Z. Chen, B. Zhang, H.H.-C. Iu, and Y. Zhang: A Generalized Additional Voltage Pumping Solution for High-Step-Up Converters[J], IEEE Transactions on Power Electronics, 2019, 34(7): 6456-6467

[3]G. Zhang(张桂东), H.H.-C. Iu, B. Zhang, Z. Li, S. Chen, and Y. Zhang: An Impedance Network Boost Converter With a High-voltage Gain[J], IEEE Transactions on Power Electronics, 2017, 32(9): 6661-6665

[4]G. Zhang(张桂东), Z. Wang, H.H.-C. Iu, S. Chen, B. Zhang, and Y. Zhang: Unique Modular Structure of Multi-Cell High-Boost Converters with Reduced Component Currents[J], IEEE Transactions on Power Electronics, 2018, 33(9): 7795-7804

[5]G. Zhang(张桂东), J. Chen, S.S.L. Yu, H.H.C. Iu, D. Qiu, B. Zhang, T. Fernando, and Y. Zhang: A Waveform-Subtraction Based Single-Stage Ripple-Suppression Converter Family for Multiple Waveform Generation[J], IEEE Transactions on Industrial Electronics, 2019, Early Access

[6]G. Zhang(张桂东), Z. Li, B. Zhang, D. Qiu, W. Xiao and W.A. Halang: A Z-Source Half-Bridge Converter[J], IEEE Transactions on Industrial Electronics, 2014, 61(3), 1269-1279

[7]G. Zhang(张桂东), Z. Li, B. Zhang, D. Qiu, L. Yang and W.A. Halang: A 3-Z-network Boost Converter[J], IEEE Transactions on Industrial Electronics, 2015, 62(1), 278-288

[8]G. Zhang(张桂东), B. Zhang, Z. Li, Y. Zhang and S. Chen: A Novel Single-Input-Dual-Output Impedance Network Converter[J], IEEE Journal of Emerging and Selected Topics in Power Electronics, 2017, 5(3), 1133-1141

[9]G. Zhang(张桂东), Y. Shen, J. Chen, S.S.L. Yu, H.H.C. Iu, T. Fernando, and Y. Zhang: Advanced small-signal-based analytical approach to modeling high-order power converters[J], IET Power Electronics, 2019, 12(2), 228-236

[10]G. Zhang(张桂东), Z. Wang, H.H.C. Iu, S.Z. Chen, B. Zhang, D. Qiu, T. Fernando and Y. Zhang: A Five-Terminal Impedance Network based Three-port Converter[J], IEEE Access, 2018, 6, 29474-29485

[11]G. Zhang(张桂东), Z. Li, B. Zhang and W.A. Halang: Cascading Failures of Power Grids Caused by Line Breakdown[J], International Journal of Circuit Theory and Applications, 2015, 43(12), 1807-1814

[12]G. Zhang(张桂东), Z. Li, B. Zhang and W.A. Halang: Understanding The Cascading Failures in Indian Power Grids with Complex Networks Theory[J], Physica A: Statistical Mechanics and its Applications, 2013, 392(15), 3273-3280

[13]G. Zhang(张桂东), S.S. Yu, S. Zou, H.H.C. Iu, T. Fernando, and Y. Zhang: An Investigation into Cascading Failure in Large-Scale Electric Grids: A Load-Redistribution Approach[J], Applied Sciences-BASEL, 2018, 8(7):1033-104

[14]G. Zhang(张桂东), H. Chen, L. Qu, S. Chen, Y. Zhang, A Family of Y-Impedance-Network Half-Bridge Converters with Additional Voltage Adjustment Function. Energies, 2019, 12, 3430.

[15]G. Zhang(张桂东), Zuhong Ou, Lili Qu*:A Fractional-Order Element (FOE)-Based Approach to Wireless Power Transmission for Frequency Reduction and Output Power Quality Improvement[J], Electronics, 2019, 8(9), 1029

[16]G. Zhang(张桂东), J. Chen, B. Zhang and Y. Zhang: A Critical Topology Review of Power Electronic Transformers: In View of Efficiency[J], Chinese Journal of Electrical Engineering, 2018, 4(3): 90-95

[17]S. Chen, G. Xiong, G. Zhang*(张桂东), S.S.L. Yu, H.H.-C. Iu, T. Fernando, and Y. Zhang: An Aerodynamics-Based Novel Optimal Power Extraction Strategy for Offshore Wind Farms with Central VSCs[J], IEEE Access, 2018, 6, 44351-44361

[18]S.S.L. Yu, G. Zhang*(张桂东), H.H.-C. Iu, and T. Fernando: A DSE-Based SMC Method of Sensorless DFIG Wind Turbines Connected to Power Grids for Energy Extraction and Power Quality Enhancement [J], IEEE Access, 2018, 6, 76596-76605

[19]J. Hong, X. Deng, G. Zhang*(张桂东), Z. Huang, X. Li, and Y. Zhang: Sneak Circuit Identification of An Improved Boost Converter with Soft-Switching Realization[J], IEEE Journal of Emerging and Selected Topics in Power Electronics, 2019, EA

[20]S. Chen, Z. Wang, S.S.L. Yu, G. Zhang*(张桂东), Y. Zhang: A Novel Alternative to Traditional nHSLC: An n-Switched-Cell Based Approach to High-Step-up Converters [J], IEEE Access, 2019, 7, 114529-114538.

[21]S. Chen, J. Lu, G. Zhang*(张桂东), Y. Zhang: Immunizing Variable Frequency Transformer from Dual-Side Asymmetrical Grid Faults via A Single-Converter-Based Novel Control Strategy, IEEE Transactions on Power Delivery, 2019, Accepted.

[22]N. Zhang, G. Zhang(张桂东), and K. See: Systematic Derivation of Dead-Zone Elimination Strategies for the Non-Inverting Synchronous Buck-Boost Converter[J], IEEE Transactions on Power Electronics, Vol. 33, No. 4, pp. 3497-3508, Apr. 2018

[23]N. Zhang, G. Zhang(张桂东), and K. See: A Δ-Y Hybrid Impedance Network Boost Converter with Reduced Input Current Ripple[J], IEEE Transactions on Power Electronics, Vol. 33, No. 4, pp. 2803–2808, Apr. 2018

[24]N. Zhang, G. Zhang(张桂东), K. See and B. Zhang: A Single-Switch Quadratic Buck-Boost Converter with Continuous Input Port Current and Continuous Output Port Current[J], IEEE Transactions on Power Electronics, 2018, 33(5): 4157-4166

[25]M. Li, B. Zhang, D. Qiu and G. Zhang(张桂东): Sneak Circuit Phenomena in a DCM Boost Converter Considering Parasitic Parameters[J], IEEE Transactions on Power Electronics, 2017, 32(5): 3946-3958

[26]L. Yang, D. Qiu, B. Zhang and G. Zhang(张桂东): High-performance Quasi-Z-source Inverter with Low Capacitor Voltage Stress and Small Inductance[J], IET Power Electronics, Vol. 8, No. 6, pp. 1061–1067, Jun. 2015

[27]X. Li, L. Qu, B. Zhang, G. Zhang(张桂东) and H. Liao, A Simplified Modulation Strategy of Nine-Switch Inverter to Cut Off Half of Switching Modes[J], IEEE Access, Vol. 6, pp. 7254–7261, Mar. 2018

[28]Z. Li, T. Wu, G. Zhang(张桂东) and R. Yang, Hybrid Modulation Method Combining Variable Frequency and Double Phase-shift for A 10kW LLC Resonant Converter[J], IET Power Electronics, Vol. 11, No. 13, pp. 2161-2169, Nov. 2018

[29]Y. Wang, Y.W. Wang, S.-Z. Chen, G. Zhang(张桂东), and Y. Zhang, A Simplified Minimum DC-Link Voltage Control Strategy for Shunt Active Power Filters[J], Energies, 2018, 11(9), 2407

Y. Wang, Y. W. Wang, G. Zhang(张桂东), S.-Z. Chen, and Y. Zhang: Hybrid-wave modulation for modular multilevel high-frequency DC converter in DC distribution application[J], The Journal of Engineering, 2018