基本信息
白慧娟  女  硕导  中国科学院过程工程研究所
电子邮件: huijuanbai@ipe.ac.cn
通信地址: 中关村北二街1号中科院过程所
邮政编码: 100190

研究领域

功能树脂设计与复合成型,聚合物电解质膜燃料电池

招生信息

招生专业
081702-化学工艺
081701-化学工程
085800-能源动力
招生方向
功能树脂与复合材料成型
聚合物电解质膜
膜电极

教育背景

2016-09--2020-08   北京航空航天大学空间与环境学院   博士
2013-09--2016-07   郑州大学化工与能源学院   硕士
2008-09--2012-07   河南大学化学化工学院   学士
学历
博士研究生

学位
工学

工作经历

   
工作简历
2023-09~现在, 中国科学院过程工程研究所, 副研究员
2020-09~2023-08,中国科学院过程工程研究所, 助理研究员

专利

[1] 卢善富,白慧娟,相艳,王海宁,张劲,一种燃料电池用侧链型高温质子交换膜及其制备方法,2021-01-26,中国 ZL 201910748699.2.

[2] 卢善富,庄林,白慧娟,彭汉青,一种燃料电池用高温质子交换膜的制备方法,2021-02-05,中国 ZL 201910873513.6.

[3] 白慧娟, 杨超, 曾欣欣, 王敏, 赵永忠, 黄培, 俞娟. 一种聚酰胺酸、聚酰亚胺树脂及其制备方法[P]. 2023-4-14 中国 ZL 202310006191.1.

[4] 白慧娟(1/1),国家奖学金荣誉证书,中华人民共和国教育部,2019

[5] 白慧娟(1/1)2021年校级优秀博士学位论文,北京航空航天大学学位评定委员会。

专利成果
[1] 白慧娟, 杨超, 曾欣欣, 王敏, 赵永忠, 黄培, 俞娟. 一种聚酰胺酸、聚酰亚胺树脂及其制备方法. CN: CN115678010B, 2023-04-14.
[2] 卢善富, 庄林, 白慧娟, 彭汉青. 一种燃料电池用高温质子交换膜的制备方法. CN: CN110661021B, 2021-02-05.
[3] 卢善富, 白慧娟, 相艳, 王海宁, 张劲. 一种燃料电池用侧链型高温质子交换膜及其制备方法. CN: CN110534782B, 2021-01-26.

出版信息

[1] Bai Huijuan; Hanqing Peng; Yan Xiang; Jin Zhang; Wang Haining; Lu Shanfu; Zhuang Lin. Poly(arylenepiperidine)s with phosphoric acid doping as high temperature polymer electrolyte membrane for durable, high-performance fuel cells, Journal of Power Source, 2019, 443, 227219. (SCI 1)

[2] Bai Huijuan; Jin Zhang; Haining Wang; Yan Xiang; Shanfu Lu; Highly conductive quaternary ammonium-containing cross-linked poly (vinyl pyrrolidone) for high-temperature PEM fuel cells with high-performance, Journal of Membrane Science. 2022, 645, 120194. (SCI 1)

[3] Bai Huijuan; Wang Haining; Zhang Jin; Zhang Jujia; Lu Shanfu; Xiang Yan. High temperature polymer electrolyte membrane achieved by grafting poly(1-vinylimidazole) on polysulfone for fuel cells application, Journal of Membrane Science. 2019, 592, 117395. (SCI 1)

[4] Bai Huijuan; Wang Haining; Zhang Jin; Wu Chunxiao; Zhang Jujia; Xiang Yan; Lu Shanfu. Simultaneously enhancing ionic conduction and mechanical strength of poly (ether sulfones)-poly(vinyl pyrrolidone) membrane by introducing graphitic carbon nitride nanosheets for high temperature proton exchange membrane fuel cell application. Journal of Membrane Science, 2018, 558, 26-33. (SCI 1)

[5] Bai Huijuan; Li Yifan; Zhang Haoqin; Chen Huiling; Wu Wenjia; Wang Jingtao; Liu Jindun. Anhydrous proton exchange membranes based on chitosan and phosphorylated graphene oxide for elevated temperature fuel cells. Journal of Membrane Science, 2015, 495, 48-60. (SCI 1)

[6] Bai Huijuan; Zhang Haoqin; He Yakun; Liu Jindun; Zhang Bing; Wang Jingtao. Enhanced proton conduction of chitosan membrane enabled by halloysite nanotubes bearing sulfonate polyelectrolyte brushes. Journal of Membrane Science, 2014, 454, 220-232. (SCI 1)

[7] Zhang Jin#; Bai Huijuan#; Ren Qiu; Luo Hong-Bin; Ren Xiaoming; Tian Zhengfang, Lu Shanfu. Extra water-and acid-stable MOF-801 with high proton conductivity and its composite membrane for proton-exchange membrane, ACS Applied Materials & Interfaces, 2018, 10, 28656-28663. (SCI 1)

[8] Wang Jingtao; Bai Huijuan; Zhang Haoqin; Zhao Liping; Chen Huiling; Li Yifan. Anhydrous proton exchange membrane of sulfonated poly(ether ether ketone) enabled by polydopamine-modified silica nanoparticles. Electrochimica Acta, 2015, 152, 443-455. (SCI 1)

[9] Wang Jingtao; Bai Huijuan; Zhang Jiakui; Zhao Liping; Chen Pingping; Li Yifan; Liu Jindun. Acid-base block copolymer brushes grafted graphene oxide to enhance proton conduction of polymer electrolyte membrane. Journal of Membrane Science, 2017, 531, 47-58. (SCI 1)

[10] 曾欣欣,白慧娟*,俞娟,黄培,杨超,徐俊波*,面向空天动力的聚酰亚胺树脂基复合材料介尺度结构与调控.化工学报2022http: DOI: 10.11949/0438-1157.20220088.(核心期刊)

已发表的其余论著:

[1] Wu Chunxiao; Bai Huijuan; Lv Yang; Lv Zhaoqian; Xiang Yan; Lu Shanfu. Enhanced membrane ion selectivity by incorporating graphene oxide nanosheet for vanadium redox flow battery application. Electrochimica Acta, 2017, 248, 454-461. (SCI 1)

[2] Zhang, Jujia; Bai Huijuan; Yan, Wenrui; Zhang, Jin; Wang, Haining; Xiang, Yan; Lu, Shanfu; Enhancing cell performance and durability of high temperature polymer electrolyte membrane fuel cells by inhibiting the formation of cracks in catalyst layers. Journal of the Electrochemical Society, 2020, 167: 114501. (SCI 2)

[3] Zhang Jujia; Zhang Jin; Bai Huijuan; Tan Qinglong; Wang Haining; He Baoshan; Xiang Yan; Lu Shanfu. A new high temperature polymer electrolyte membrane based on trifunctional group grafted polysulfone for fuel cell application, Journal of Membrane Science, 2019, 572, 496-503. (SCI 1)

[4] Chen Huiling; Wang Jianshe; Bai Huijuan; Sun Jie; Li Yifan; Liu Yong; Wang Jingtao. Nanohybrid membranes with hydroxide ion transport highways constructed from imidazolium functionalized graphene oxide, RSC Advance, 2015, 5, 88736-88747. (SCI 3)

[5] Gao Lei; Li Xingxing; Yao Zhaoyu; Bai Huijuan; Lu Yangfan; Ma Chao; Lu Shanfu; Peng Zhenmeng; Yang Jinlong; Pan Anlian; Huang Hongwen*. Unconventional p-d hybridization interaction in PtGa ultrathin nanowires boosts oxygen reduction electrocatalysis, Journal of the American Chemical Society. 2019, 141, 18083-18090. (SCI 1)

[6] Zhang Haoqin; Ma Chuanming; Wang Jingtao; Wang Xuyang; Bai Huijuan; Liu Jindun. Enhancement of proton conductivity of polymer electrolyte membrane enabled by sulfonated nanotubes. International journal of Hydrogen Energy, 2014, 39, 974-986. (SCI 2)


科研活动

1)国家自然科学基金委员会,青年项目,22208356,跨温域聚亚芳基两性质子交换膜微观结构设计与性能调控,2023.01-2025.1230万元,在研,主持;

2GFJCJQ重点项目子课题,材料机理研究,2023.07-2029.12.3175万元,在研,主持;

3)国家自然科学基金委员会,面上项目,22178351,多级孔结构纤维复合膜微结构调控与质子传递过程强化,2016.01-2019.1260万元,结题,参与;

4)国家自然科学基金委员会,面上项目,21576007,侧链型高温质子交换膜的微观结构调控、性能,2016.09-2019.1260万,结题,参与,主要完成人;

5)国家自然科学基金委员会,国际(地区)合作与交流项目,51761145047,膜电容脱盐一体化膜电极构筑、界面离子传输及脱盐性能研究,2017.10-2020.09195万元,结题,参与,主要完成人;

6)北京市科学技术委员会,研发攻关类,Z171100000917011,车用燃料电池低铂膜电极研制及评测,2017.01-2019.12490万元,结题,参与,主要完成人;

7)科技部, 国家重点研发计划, 2018YFB1502303,千瓦级廉价燃料电池堆研究,2019.04-2023.03313万元,在研,参与;

8)国家自然科学基金委员会,重点项目,22035007,熔融聚合制备TPI复合材料与极端服役动态演变机制,2021.01-2025.12300万元,在研,参与,主要参与人;

9)国家重点研发计划“网络协同制造和智能工厂”重点专项课题,2021YFB1716301XXX构件多工艺协同与质量稳定性控制技术,2021.11-2024.102200万,在研,参与;

10)军委科技委,XX6工程重点项目,211-CXCY-N106-030-11-00,极端环境XXXXXX骨架增强复合材料部件研究,2022-012023-03900万元,结题,参与,主要参与人;