• 
  

• 秦宗益

  博士

  研究員

  高分子科學與工程系

  博士生導師

  陳彥模、朱美芳課題組

  021-67792861；phqin@dhu.edu.cn

•               

·社會兼職：

為十幾家國際知名刊物擔任審稿人，包括Advanced Materials, Energy & Environmental Science, Carbon, ACS Applied Materials & Interfaces, Sensors & Actuators: B. Chemical, Electrochimica Acta, The Journal of Physical Chemistry C, NPG Asia Materials, Nanotechnology, Nanoscale, Chemical Engineering Journal和Cellulose等。

·研究方向:

一、功能材料及傳感纖維

二、能量存儲與轉換材料

三、全生物降解複合材料

·榮譽獲獎:

2000年獲得中科院院長獎學金優秀獎；2007年上海市科委浦江人才計劃

·學習及工作經曆:

2000年在中科院長春應用化學研究所獲得理學博士學位；曾在中科院長春應用化學研究所國家電化學與光譜分析測試中心、高分子化學與物理國家實驗室，複旦大學先進光學材料與器件國家實驗室和香港科技大學物理系從事過研究工作；2006年加入bevictor伟德官网纖維材料改性國家重點實驗室。已在SCI收錄的知名期刊上發表研究論文60餘篇，編寫專著2章；申請發明專利28項，其中授權發明專利22項，轉讓2項。

·主講課程：

研究生課程“現代材料物理化學”；本科生課程“新能源材料”

·已取得的主要研究成果：

(1) 高彈高導的導電纖維的研究。這種新型導電纖維除了新賦予的優異的導電性能以外，還保留着有機纖維基體原有的力學性能，特别是纖維的柔順性和可編織性，可通過針織、機織編織成織物。這種導電纖維與織物除了具備傳統的抗靜電與電磁屏蔽功能特性外，還可用來制作纖維應力傳感、氣體傳感、液體傳感、光、熱傳感等多重響應傳感器，并在金屬離子吸附、催化去污和能量存儲以及軍事僞裝等領域具有潛在的應用前景。

(2) 具有核殼結構的導電高分子、金屬氧化物與碳納米管複合體系的研究。特别注重高有序納米結構和功能特性的調控和多功能集成。該複合體系可用于超級電容器、太陽能電池、光電納米器件、傳感器等領域。

(3) 生物可降解的納米纖維材料的研究。高效制備出功能化的棒狀與球狀纖維素納米顆粒；開發出一種新型生物可降解的納米纖維儲能材料，具有儲能性能高與結構穩定的優點，在溫度調節及蓄熱保溫等領域有着廣泛的應用前景；在藥物緩釋、催化降解等領域也有一定的優勢。

·主要論文：

2012年以來發表的研究論文(均為通訊聯系人)：

[1] Banglei Liang, ZONGYI QIN, Tao Li, Zhenjun Dou, Fanxin Zeng, Yameng Cai, Zhe Zhou, Meifang Zhu, Poly(aniline–co–pyrrole) on the surface of reduced graphene oxide as high–performance electrode materials for supercapacitors, Electrochimica Acta, 2015 (DOI: 10.1016/j.electacta.2015.01.135)

[2] Tao Li, ZONGYI QIN, Banglei Liang, Fei Tian, Jianyun Zhao, Na Liu, Meifang Zhu, Morphology-dependent capacitive properties of three nanostructured polyanilines through interfacial polymerization in various acidic media, Electrochimica Acta, 2015 (DOI:10.1016/j.electacta.2015.03.169)

[3] Xin Liu, ZONGYI QIN, Zhenjun Dou, Na Liu, Long Chen, Meifang Zhu, Fabricating conductive poly(ethylene terephthalate) nonwoven fabrics by using aqueous dispersion of reduced graphene oxides as sheet dyestuffs, RSC Advances, 4(45), 23869-23875 (2014)

[4] Banglei Liang, ZONGYI QIN, Jianyun Zhao, Yu Zhang, Zhe Zhou, Yaqing Lu, Controlled Synthesis, core–shell structure and electrochemical properties of polyaniline/polypyrrole composite nanofibers, Journal of Materials Chemistry A 2 (1), 251-258 (2014)

[5] Miao Cheng, ZONGYI QIN, Yannan Liu, Yunfeng Qin, Tao Li, Long Chen and Meifang Zhu, Efficient extraction of carboxylated spherical cellulose nanocrystals with narrow distribution through hydrolysis of lyocell fibers by using ammonium persulfate as oxidant, Journal of Materials Chemistry A 2 (1), 251 - 258 (2014)

[6] Houyong Yu, ZONGYI QIN, Surface grafting of cellulose nanocrystals with poly(3-hydroxybutyrate-co-3-hydroxyvalerate), Carbohydrate Polymers, 101: 471–478 (2014)

[7] Houyong Yu, ZONGYI QIN, Banglei Liang, Na Liu, Zhe Zhou, Long Chen, Facile fabrication of thermally stable cellulose nanocrystals with high yield of 93% through hydrochloric acid hydrolysis under hydrothermal condition, Journal of Materials Chemistry A, 1(12): 3938–3944 (2013)

[8] Weinan Xu, ZONGYI QIN, Houyong Yu, Yannan Liu, Na Liu, Zhe Zhou, Long Chen, Cellulose nanocrystals as organic nanofillers for transparent polycarbonate films, Journal of Nanoparticle Research, 15: 1562-1-8 (2013)

[9] Xin Liu, ZONGYI QIN, Xiaolin Zhang, Long Chen, Meifang Zhu, Conductive polypyrrole/polyurethane composite fibers for chloroform gas detection, Advanced Materials Research 750-752: 55-58 (2013)

[10] Fei Tian, ZONGYI QIN，Qian Wu, Na Liu, Yaqing Lu, Effects of reaction conditions on microstructures and properties of polyaniline nanofibers through interfacial polymerization, Advanced Materials Research 750-752: 293-296 (2013)

[11] Jieni Luo, ZONGYI QIN，Qian Wu, Zhe Zhou, Yaqing Lu, Polyaniline nanofibers produced via rapid initiated polymerization in a binary oxidant system, Advanced Materials Research 750-752: 297-300 (2013)

[12] Xiaolin Zhang, ZONGYI QIN, Xin Liu, Banglei Liang, Na Liu, Zhe Zhou, Meifang Zhu, Flexible sensing fibers based on polyaniline–coated polyurethane for chloroform vapor detection, Journal of Materials Chemistry A, 1: 10327-10333 (2013).

[13] Qingqing Fan, ZONGYI QIN, Shanglin Gao, Yongtao Wu, Jürgen Pionteck, Edith Mader, Meifang Zhu, The use of a carbon nanotube layer on a polyurethane multifilament substrate for monitoring strains as large as 400%, Carbon 50(11): 4085-4092 (2012)

[14] Houyong Yu, ZONGYI QIN, Yannan Liu, Long Chen, Na Liu, Zhe Zhou, Simultaneous improvement of mechanical properties and thermal stability of bacterial polyester by cellulose nanocrystals, Carbohydrate Polymers 89(3): 971–978 (2012)

[15] Houyong Yu, ZONGYI QIN, Lingfeng Wang, Zhe Zhou, Crystallization behavior and hydrophobic properties of biodegradable ethyl cellulose-g-poly(3-hydroxybutyrate-co-3-hydroxyvalerate): The influence of the side-chain length and grafting density. Carbohydrate Polymers 87: 2447-2454 (2012)

[16] Qinqing Fan, Xiaolin Zhang, ZONGYI QIN, Preparation of Polyaniline/ Polyurethane Fibers and Their Piezoresistive Property, Journal of Macromolecular Science, Part B: Physics 51(4), 736-746 (2012)

[17] Xiaolin Zhang, ZONGYI QIN, Long Chen, Fabrication of Conductive Polypyrrole/Polyurethane Composite Fibers for Large Strain Sensing, Advanced Materials Research 482-484: 1142-1145 (2012)

[18] Houyong Yu, ZONGYI QIN. Effect of Cellulose nanocrystal on Crystallization Behavior of Poly(3–hydroxybutyrate–co–3–hydroxyvalerate). Advanced Materials Research 430-432: 20-23 (2012)

·主要代表作：

[1] Li Li, ZONGYI QIN, Xia Liang, Qingqing Fan, Yaqing Lu, Wenhua Wu, Meifang Zhu, Facile Fabrication of Uniform Core-Shell Structured Carbon Nanotube-Polyaniline Nanocomposites, The Journal of Physical Chemistry C. 113(14): 5502–5507 (2009) (Cited number: 81)

[2] Yi Zhou, ZONGYI QIN, Li Li, Yu Zhang, Yuling Wei, Lingfeng Wang and Meifang Zhu, Polyaniline/multi-walled carbon nanotube composites with core–shell structures as supercapacitor electrode materials, Electrochimica Acta, 55(12): 3904-3908 (2010) (Cited number: 119)

[3] Qingsheng Liu, Meifang Zhu, Wenhua Wu, ZONGYI QIN, Reducing the formation of six-membered ring ester during thermal degradation of biodegradable PHBV to enhance its thermal stability, Polymer Degradation and Stability, 94(1): 18-24 (2009) (Cited number: 40)

[4] Houyong Yu, ZONGYI QIN, Banglei Liang, Na Liu, Zhe Zhou, Long Chen, Facile fabrication of thermally stable cellulose nanocrystals with high yield of 93% through hydrochloric acid hydrolysis under hydrothermal condition,Journal of Materials Chemistry A, 1(12): 3938–3944 (2013) (Cited number: 30)

[5] Houyong Yu, ZONGYI QIN, Yannan Liu, Long Chen, Na Liu, Zhe Zhou, Simultaneous improvement of mechanical properties and thermal stability of bacterial polyester by cellulose nanocrystals, Carbohydrate Polymers 89(3): 971-978 (2012). (Cited number: 30)

[6] Qingqing Fan, ZONGYI QIN, Tobias Villmow, Jürgen Pionteck, Petra P?tschke, Yongtao Wu, Brigitte Voit, Meifang Zhu, Vapor sensing properties of thermoplastic polyurethane multifilament covered with carbon nanotube networks, Sensors and Actuators B: Chemical, 156(1), 57-61 (2011) (Cited number: 21)

[7] Li Li, ZONGYI QIN, Lingfeng Wang, Hong-Jin Liu, Mei-Fang Zhu, Anchoring alpha-manganese oxide nanocrystallites on multi-walled carbon nanotubes as electrode materials for supercapacitor, J Nanoparticle Research 12(2010)2349–2353 (Cited number: 20)

·授權的專利：

[1] 秦宗益、劉彥男等，一種空心超順磁性納米球的制備方法及其應用，ZL 201210513705.4

[2] 秦宗益、劉欣等，一種采用浸染技術制備的導電織物及其應用，ZL 201210454848.2

[3] 秦宗益、劉彥男等，一種羧基化纖維素納米球及其制備方法，ZL 201210435306.0

[4] 秦宗益、張曉琳等，一種導電複合纖維及其制備方法，ZL 201210437061.5

[5] 秦宗益、餘厚詠等，一種納米銀/纖維素納米晶複合粒子的制備方法，ZL 201210238098.5

[6] 秦宗益，駱潔妮等，一種可卷曲的無支撐碳納米管氣敏膜及其制備方法，ZL 201210105297.9

[7] 秦宗益，張天鹭等，一種單分散聚氨酯/聚吡咯複合納米彈性球及其制備方法，ZL 201110418203.9

[8] 秦宗益, 餘厚詠等，一種纖維素納米晶增強聚羟基丁酸戊酸酯納米纖維及其制備方法, ZL201110401211.2

[9] 秦宗益，餘厚詠等，一種無溶劑固-固相變儲能材料的制備方法，ZL 2011 10159365.5

[10] 秦宗益，範青青等，一種彈性導電複合纖維及其制備方法，ZL 2011 10009585.X

[11] 秦宗益，範青青等，一種三元同軸複合導電纖維及其制備方法，ZL 2011 1 0075961.5

[12] 秦宗益，劉彥男等，一種基于廢棄Lyocell纖維制備纖維素納米球的方法， ZL 201110199585.0

[13] 秦宗益，王淩鳳等，一種瓣狀二氧化錳納米晶包覆碳納米管複合電極材料的制備方法，ZL 2010 10256458.5

[14] 秦宗益，張瑜等，核殼結構的聚苯胺/聚吡咯複合納米纖維電極材料的制備，ZL 201010228217.X

[15] 秦宗益，餘厚詠等，生物可降解的固-固相變納米纖維或纖維膜的制備方法，ZL 2010 10513771.2

[16] 秦宗益、餘厚詠等，一種窄分布纖維素納米晶制備方法, ZL 201010575030.7

[17] 秦宗益，範青青等，一種柔性碳納米管-聚氨酯紅外敏感薄膜及其制備方法，ZL 200910199519.6

[18] 秦宗益，潘鼎等，無皮芯結構聚丙烯腈基碳纖維原絲的凝膠紡絲原液及其制備, ZL 2009 1 0200222.7

[19] 秦宗益，範青青等，具有高導電率與高彈性及應力傳感性能的複合纖維及其制備方法，ZL 2009 1 0046590.0

[20] 秦宗益，朱美芳等，一種原位合成聚羟基脂肪酸酯嵌段共聚物的方法， ZL 2008 1 0207404.2

[21] 秦宗益，李立等，有核殼結構碳納米管/導電高分子納米雜化電極材料制備，ZL 2008 1 0207241.8

[22] 劉慶生，秦宗益等，一種高熱穩定性聚羟基脂肪酸酯的制備方法，ZL 2007 1 0047278.4

·近幾年承擔的科研項目：

主持承擔了國家自然科學基金“同軸聚吡咯/聚苯胺納米纖維的生長控制及其儲能機理研究”，上海市科委浦江人才計劃“基于導電高分子納米纖維網絡的光伏材料設計及智能服裝柔性能源的研發”，上海市科委“創新行動計劃”項目重大基礎項目子課題“高性PANCF紡絲原液熱力學及流變行為研究”，上海市科委重點基礎項目“自增強型資源可再生生物聚酯纖維的化學設計與梯度結構調控”和教育部高等學校科技創新工程重大項目培育資金“電子信息纖維材料及其智能服裝的工程化研究”等項目。還曾主持過一項國家自然科學基金項目和一項國家博士後研究基金項目，并作為研究骨幹參加過多項國家自然科學基金項目。