王保国教授课题组

研究方向：

电化学能源转化与储能

研究课题：

开展膜分离和电化学工程的交叉领域科学研究，揭示电化学能源材料（离子传导膜、自支撑催化电极）“化学组成—物理结构-器件性能”之间的构效关系，发展电化学能源转换与储能过程的材料、装备与基础理论。

1）氢能：可再生能源电解水制氢技术与装备；

2）储能：全钒液流电池技术与装备；

3）基础理论：锌空气电池关键材料与技术

研究成果

1、学术期刊论文

2021年

1)Lei Wan, Ziang Xu, Peican Wang, Yuqun Lin,Wang, Baoguo*,H₂SO₄-doped polybenzimidazole membranes for hydrogen production with acid-alkaline amphoteric water electrolysis，Journal of Membrane Science，2021，618，118642.

2)Yuqun Lin, Peican Wang, Adeline Lohb, Lei Wana, Ullah Habibb, Ziang Xua, Xiaohong Li*, Baoguo Wang*，Assembling Flower-on-Sheet CoP-NiCoP Nanohybrids as Efficient Self-Supported Electrocatalysts for Hydrogen Evolution Reaction in Both Acidic and Alkaline Media，Journal of Materials Science，2021，56, 3375–3386.

2020年

3)Peican Wang,Wang, Baoguo*, Interface Engineering of Binder-Free Earth-Abundant Electrocatalysts for Efficient Advanced Energy Conversion,ChemSusChem,2020, 13, 1– 18.(IF=7.804)

4)Peican Wang, Tong Jia,Wang, Baoguo*，Review—Recent Advance in Self-Supported Electrocatalysts for Rechargeable Zinc-Air Batteries，Journal of The Electrochemical Society, 2020，167，110564.(IF=3.721)

5)Peican Wang, Yuqun Lin, Lei Wan,Wang, Baoguo*, Core−Shell Cu@CoP as Highly Efficient and Durable Bifunctional Electrodes for Electrochemical Water Splitting,Energy Fuels2020, 34, 10276−10281.

6)Peican Wang, Tong Jia,Wang, Baoguo*, A critical review: 1D/2D nanostructured self-supported electrodes for electrochemical water splitting,Journal of Power Sources474 (2020) 228621.

7)Peican Wang, Ziang Xu, Yuqun Lin, Lei Wan,Wang, Baoguo*, Exceptional Performance of MOF-Derived N‑Doped CoP and Fe-Doped CoOOH Ultrathin Nanosheets Electrocatalysts for Overall Water Splitting,ACS Sustainable Chem. Eng.2020, 8, 8949−8957.(IF=7.741)

8)Peican Wang, Yuqun Lina, Lei Wan,Wang, Baoguo*, Autologous growth of Fe-doped Ni(OH)₂nanosheets with low overpotential for oxygen evolution reaction,International Journal of hydrogen energy，2020，45：6416-6424. (IF=4.939)

9)Adeline Loh, Xiaohong Li*, Oluwadamilola O. Taiwo, Farid Tariq, Nigel P. Brandon, Peican Wang, Ke Xu, Baoguo Wang, Development of NieFe based ternary metal hydroxides as highly efficient oxygen evolution catalysts in AEM water electrolysis for hydrogen production,International Journal of hydrogen energy，2020，45：24232-24247. (IF=4.939)

10)Lei Wan, Zeheng Zhao, Xiaoxia Chen, Peng-Fei Liu, Peican Wang, Ziang Xu, Yuqun Lin,Wang, Baoguo*，Controlled Synthesis of Bifunctional NiCo₂O₄@FeNi LDH Core−Shell Nanoarray Air Electrodes for Rechargeable Zinc−Air Batteries，ACS Sustainable Chem. Eng.2020, 8, 11079−11087.(IF=7.741)

11)Xueqi Xing, Qinghua Liu,Baoguo Wang, John P. Lemmon, Wayne Qiang Xu, A low potential solvent-miscible 3-methylbenzophenone anolyte material for high voltage and energy density all-organic flow battery,Journal of Power Sources,2020,445,227330-227335.(IF=7.467)

12)陈晓霞，刘凯，王保国^*,高安全性锂电池电解液研究与应用,储能科学与技术，2020，9（2）：583-592.

13)王保国^*，电化学能源转化膜与膜过程研究进展，膜科学与技术，2020,40(1):179-187.

2019年

14)Xueqi Xing, Qinghua Liu,a Jiang Li, Zhihua Han,Baoguo Wang，John P. Lemmon，A nonaqueous all organic semisolid flow battery,Chem. Commun., 2019,55, 14214-14217.

15)Xueqi Xing, Qinghua Liu, Wenqiang Xu, Wenbin Liang, Junqing Liu,Baoguo Wang, John P. Lemmon，All-Liquid Electroactive Materials for High Energy Density OrganicFlow Battery，ACS Appl. Energy Mater.2019, 2, 2364−2369.(IF=8.456)

16)Peican Wang, Yuqun Lin, Lei Wan,Wang, Baoguo*, Construction of a Janus MnO2‑NiFe Electrode via Selective Electrodeposition Strategy as a High-Performance Bifunctional Electrocatalyst for Rechargeable Zinc−Air Batteries,ACS Appl. Mater. Interfaces, 2019, 11, 37701−37707.(IF=8.901)

17)Lei Wan, Peican Wang, Yuqun Lin,Wang, Baoguo*，Janus-Typed Integrated Bifunctional Air Electrode with MnOx-NiFe LDH/Ni Foam for Rechargeable Zinc-Air Batteries，Journal of The Electrochemical Society, 2019, 166 (14) A3409-A3415.(IF=3.12)

18)Pei-can Wang,Lei Wan, Yu-qun Lin,Wang, Baoguo*，NiFe Hydroxide Supported on Hierarchically Porous Nickel Mesh as aHigh-Performance Bifunctional Electrocatalyst for Water Splitting at Large Current Density，ChemSusChem，2019, 12,4038–4045.(IF=7.804)

19)Wang, Peican; Wan, Lei ; Lin, Yuqun;Wang, Baoguo*，MoS₂supported CoS₂on carbon cloth as a high-performance electrode for hydrogen evolution reaction，International journal of hydrogen energy，2019，44（31）：16566-16574. DOI: 10.1016/j.ijhydene.2019.04.195. (IF=4.084)

20)Peican Wang, Lei Wan, Yuqun Lin, Wang, Baoguo*, Construction of mass-transfer channel in air electrode with bifunctional catalyst for rechargeable zinc-air battery, Electrochimica Acta, 320 (2019) 134564.https://doi.org/10.1016/j.electacta.2019.134564. (IF=5.383)

21)Zenghui Li, Yuqun Lin, Lei Wan,Wang, Baoguo*，Stable positive electrolyte containing high-concentration Fe₂(SO₄)₃for vanadium flow battery at 50 °C,Electrochimica Acta, 2019，309，148-156. (IF=5.383)

22)Yiming Lai, Lei Wan,Baoguo Wang*，PVDF/Graphene Composite Nanoporous Membranes for Vanadium Flow Batteries，Membranes, 2019, 9(7), 89.Doi:10.3390/membranes9070089 （IF= 3.28，SCI: IN9KL; Times cited1)）

23)Qing Lei,Baoguo Wang*, Peican Wang, Shuai Liu，Hydrogen generation with acid/alkaline amphoteric water electrolysis，Journal of Energy Chemistry，2019，38，162-169. （IF= 5.162）

24)王培灿,雷青,刘帅,王保国，电解水制氢MoS₂催化剂研究与氢能技术展望，化工进展，2019，38（1）：278-290.

25)万磊，赖忆铭，王保国，离子交换膜界面结构对膜电极性能影响研究进展，膜科学与技术，2019，39（4），132～141.

26)刘帅，雷青，王保国，聚苯并咪唑膜用于膜法酸碱两性电解水制氢研究，膜科学与技术，2019，38（5）， 1～7.

2018年

27)Zhenhao, Liu;Baoguo Wang*;Lixin Yu, Preparation and surface modification of PVDF-carbon felt composite bipolar plates for vanadiumflow battery，Journal of Energy Chemistry, 2018, 27，1369–1375.(IF=5.162，SCI:GS1TL; Times cited1)

28)Xu Ke, Adeline Loh,Baoguo Wang*, Xiaohong Li，Enhancement of Oxygen Transfer by Design Nickel Foam Electrode for Zinc−Air Battery，Journal of The Electrochemical Society, 2018, 165 (5) A809-A818.(IF=3.721)

2017年

29)Loh, AL;Xu, K;Li, XH;Baoguo Wang*, Influence of synthesis parameters on amorphous manganese dioxide catalyst electrocatalytic performance,Electrochemica Acta, 2017, 245, 615-624.(IF=5.116 )

30)许可，王保国，锌空气电池空气电极研究进展，储能科学与技术，2017，6（5）， 924～940.doi: 10.12028/j.issn.2095-4239.2017.0073

31)李冰洋，刘珍豪，王保国，聚偏氟乙烯纳米多孔膜结构调控及离子传递特性，化工学报，2017, 68(2): 732-738.DOI: 10.11949/j.issn.0438-1157.20160930.

2016年

32)Weichen Hong, Zhijun Jia,Baoguo Wang*Influence of cathodic overpotential and zincate concentration on zinc deposition in alkaline solution，Journal of Applied Electrochemistry，2016，46(10)：1085-1090(DOI 10.1007/s10800-016-0990-9).

33)BingyangLi,BaoguoWang*, ZhenhaoLiu,GeletuQing，Synthesis of nanoporous PVDF membranes by controllable crystallization for selective proton permeation，Journal ofMembraneScience,2016，517,111–120.(IF=7.015，SCI: DR7WF; Times cited11)

34)洪为臣, 马洪运, 赵宏博,王保国锌空气电池关键问题与发展趋势,化工进展2016,35 (6): 1713-1722.

35)Hong, WC; Li, H ;Wang, BG^*A Horizontal Three-Electrode Structure for Zinc-Air Batteries with Long-Term Cycle Life and High Performance,International journal ofelectrochemicalscience,2016, 11(5):3843-3851. (WOS:000375750100045)

36)Zhijun Jia,Baoguo Wang, Yi Wang, Tao Qi, Yahui Liu，Qian Wang Hierarchical porous nitrogen doped reduced graphene oxide prepared by surface decoration–thermal treatment method as high-activity oxygen reduction reaction catalyst and high-performance supercapacitor electrodes，RSC Adv., 2016, 6, 49497 – 49504. (IF=3.708， )

37)Zhijun Jia, JunWang, YiWang, Bingyang Li,BaoguoWang,Tao Qi, XinWang, Interfacial Synthesis of δ-MnO2 Nano-sheets with a Large Surface Area and Their Application in Electrochemical Capacitors,Journal of Materials Science & Technology,2016, 32,147–152.

38)洪为臣、雷青、马洪运、王保国，锌空气电池锌负极研究进展，化工进展，2016，35（2）：445-452.

2015年

39)青格乐图、郭伟男、刘平、王保国，全钒液流电池的隔膜研究与应用，电化学，2015，21（5），445～452.

40)洪为臣、李冰洋、王保国，液流电池理论与技术——荷电状态的表征，储能科学与技术，2015，4（5）， 493～497.

41)Zhijun Jia,Baoguo Wang, Yi Wang,Copper hexacyanoferrate with a well-defined openframework as apositive electrode for aqueous zinc ion batteries,Materials Chemistry and Physics2015,149-150,601-606.(IF=2.129 )

2、专利技术成果

序号	专利号	发明专利名称
全钒液流电池
1	2019100489580	一种中温型全钒液流电池的电解液
2	2017105402067	一种液流电池双极板的连续化制造方法
3	2012101990673	一种液流电池电解液在线取样装置
4	2012101999396	一种密封状态下分析电解液浓度的装置
5	2012101857041	一种空气/钒液流电池
6	2012100109518	一种液流电池电堆的嵌入式电极框
7	2011104093020	一种干态保存离子交换膜的方法
8	2011101918623	一种液流电池电堆的端板压紧构件
9	2010101386824	一种液流电池的双极板框和电堆
10	2010101296584	一种含氟树脂的导电塑料双极板制备方法
11	2009100882580	一种基于电位差参数的液流电池荷电状态在线检测方法
12	200910088228X	一种聚离子液体的互穿网络型导电膜制备方法
13	2009100822166	一种液流电池的复合材料双极板制备方法
14	2009100770246	一种质子传导膜的制备方法
15	2007101189241	一种液流电池的双极板
16	2006100114703	一种使电解液穿过多孔电极的液流电池
17	2005100869179	一种氧化还原液流电池储能装置的电堆结构
电解水制氢技术
18	202110046844X	一种聚四氟乙烯无机纳米粒子复合膜的制备方法
19	2021100907061	一种自支撑型催化电极的制备方法和应用
20	2021101595974	一种自支撑型羟基氧化铁与铁掺杂硒化镍的复合析氧电极的制备方法和应用
21	2019105315655	一种自支撑型催化析氢电极及其制备方法
22	201910324963X	一种自支撑型三维多孔结构双功能催化电极的制备方法
23	2016100451965	一种电解水制氢气的方法及装置
24	2013106859851	电催化剂及其制备方法
其它电化学技术
25	2015104517401	一种水平式三电极电化学可充的锌空气电池
26	2013107135965	空气电极的制备方法、空气电极和包括空气电极的电池
27	2012103801426	一种水溶液电解液可充电锌离子电池