李秀華(華南理工大學教授，博士生導師)

08/2014 – 至今華南理工大學化學與化工學院，教授，博（碩）士生導師。

12/2006 – 08/2014 華南理工大學化學與化工學院“引進人才”，副教授。

01/2005 – 07/2006 加拿大McGill 大學化學系博士後研究員；

08/2004 –11/2006 中山大學理工學院博士後研究員；

08/2001 – 07/2004 中國科學院化學研究所高分子化學與物理專業博士研究生，07/2004 獲得化學專業理學

博士學位；

07/1995 – 07/2001 中國石油化工集團公司齊魯石油化工有限公司研究院高分子材料工程師；

09/1992 – 07/1995 大連理工大學高分子材料系高分子材料專業碩士研究生，07/1995 獲得高分子材料專業

工學碩士學位；

09/1988 – 07/1992 大連理工大學高分子材料系高分子化工專業本科，07/1992 獲得高分子化學專業工學學

士學位。

從事高分子化學及物理工作二十多年，研究方向涉及催化化學及材料、環境友好材料、功能高分子材料。已獲得國家環境保護科學技術獎三等獎一項、國家教育部科技進步二等獎一項、國際發明博覽會發明獎金獎一項、廣東省環境保護科學技術獎一等獎一項、遼寧省發明一等獎一項、中國博士後科學基金三等資助金一項、中國科學院院長優秀獎一項。主持並完成了華南理工大學“引進人才”啟動基金（No. B15-D707002II）、教育部高等學校博士學科點基金（No. 200805611046）、廣東省低碳化學與過程節能重點實驗室開放基金（No.20100103 ）、廣東省燃料電池技術重點實驗室開放基金（No. 201104）、廣東省工業攻關項目（No.2011B010100005）、廣州市科技支撐項目(No. 2010Z1-E341)和華南理工大學中央高校基本科研業務經費（No.2009ZM0094）、中國博士後科學基金項目各一項，在研國家自然科學基金面上項目（No. 51173045）一項。作為主要完成人在用二氧化碳合成可降解塑膠方面全面參與了國家科技部引導性重大攻關項目、中國科學院知識創新方向性重大項目、廣州市納米重大專項等重大項目，項目結題評估得到了多位院士為專家組的高度評價，二氧化碳聚合工藝的催化效率被認定為國際先進水平。作為主要研究人員在其它新材料方面參與了863 納米材料領域重大專項課題，國家“85” 重點攻關項目，廣東省新型電池重大專項，中國石化總公司項目等多個科研項目研究工作。已經在SCI 收錄的ACS Appl. Mater. Interfaces（impact factor: 6.73）、Macromolecules (impact factor:5.8) 、JOURNAL OF POWER SOURCES (impact factor:6.217) 、Journal ofMembrane Science (impact factor:5.056)、J. Polym. Sci. Part A (impact factor: 3.113) 、International Journal ofHydrogen Energy (impact factor:3.313) 、Journal of Materials Chemistry A: Materials for Energy and Sustainability(impact factor:7.443)等國際英文刊物上發表論文37 篇，被國內外同行引用達612 次，其中單篇引用達64 次；申請中國專利21 項，美國專利2 項，其中11 項已授權。

1. Alkali resistant cross-linked poly(arylene ether sulfone)s membranes containing aromatic side-chainquaternary ammonium groups. Guanghui Nie, Xiuhua Li*, Jinxiong Tao, Wenjun Wu, Shijun Liao. Journal ofMembrane Science, 2015, 474, 187–195. Impact factor: 5.056.

2. Investigation on Structure and Properties of Anion Exchange Membranes Based on TetramethylbiphenolMoieties Containing Copoly(arylene ether)s. Xiuhua Li*, Liuchan Wang, Shanshan Cheng. Journal of AppliedPolymer Science, 2015, 132（8）, 41525/1-8. Impact factor: 1.64.

3. Anion exchange membranes by bromination of benzylmethyl-containing poly(arylene ether)s for alkalinemembrane fuel cells. Xiuhua Li*, Shanshan Cheng, Liuchan Wang, Qiang Long, Jinxiong Tao, Guanghui Niand Shijun Liao. RSC Adv., 2014, 4, 29682—29693. Impact factor: 3.708.

4. Cross-linked multiblock copoly(arylene ethersulfone) ionomer/nano-ZrO2 composite anion exchangemembranes for alkaline fuel cells. Xiuhua Li*, Jinxiong Tao, Guanghui Nie, Liuchan Wang, Liuhong Li andShijun Liao. RSC Adv., 2014, 4, 41398–41410. Impact factor: 3.708

5. Synthesis and Characterization of Highly Fluorinated poly(phthalazinone ether)s Based on AB-TypeMonomers. Xiuhua Li*, Yan Gao, Qiang Long, Allan S. Hay. Journal of Polymer Science, Part A: PolymerChemistry. 2014, 52, 1761–1770. Impact factor: 3.245 (front cover)

6. Assessing the Influence of Side-Chain and Main-Chain Aromatic Benzyltrimethyl Ammonium on AnionExchange Membranes. Xiuhua Li*, Guanghui Nie, Jinxiong Tao, Wenjun Wu, Liuchan Wang, and Shijun Liao.ACS Appl. Mater. Interfaces, 2014, 6, 7585−7595. Impact factor: 6.73.

7. Synthesis and properties of multiblock ionomers containing densely functionalized hydrophilic blocks foranion exchange membranes. Xiuhua Li*, Qunfang Liu, Yingfeng Yu, Yuezhong Meng. Journal of MembraneScience, 2014, 467, 1–12. Impact factor: 5.056.

8. Synthesis and Properties of Anion Conductive Ionomers Containing Tetraphenyl Methane Moieties. XiuhuaLi*, Yingfeng Yu, Qunfang Liu, and Yuezhong Meng. ACS Appl. Mater. Interfaces, 2012, 4, 3627−3635Impact factor: 5.9.

9. Novel Quaternized Poly(arylene ether sulfone)/Nano-ZrO2 Composite Anion Exchange Membranes forAlkaline Fuel Cells. Xiuhua Li*, Yingfeng Yu, and Yuezhong Meng. ACS Appl. Mater. Interfaces, 2013, 5,1414−1422. Impact factor: 5.9.

10. Synthesis and characterization of anion exchange membranes based on poly(arylene ether sulfone)s containingvarious cations functioned tetraphenyl methane moieties. Xiuhua Li*, Yingfeng Yu, Qunfang Liu, andYuezhong Meng. International Journal of Hydrogen Energy, 2013, 38, 11067-11073. Impact factor: 2.93.

11. Quaternized poly(arylene ether) ionomers containing triphenyl methane groups for alkaline anion exchangemembranes. Xiuhua Li*, Qunfang Liu, Yingfeng Yu, and Yuezhong Meng. Journal of Materials Chemistry A:Materials for Energy and Sustainability, 2013, 1(13), 4324-4335. Impact factor: 7.443.

12. Synthesis and properties of anion conductive multiblock copolymers containing tetraphenyl methane moietiesfor fuel cell application. Xiuhua Li*,Yingfeng Yu, Qunfang Liu, and Yuezhong Meng. Journal of MembraneScience, 2013, 436, 202–212. Impact factor: 5.056.