朱成峰檢視原始碼討論檢視歷史
朱成峰,男,合肥工業大學化學與化工學院副教授。
人物履歷
2002年9月–2006年7月,安徽師範大學化學與材料科學學院化學系學習,獲理學學士學位;
2006年9月–2009年7月,安徽師範大學化學與材料科學學院無機化學專業學習,獲理學碩士學位;
2009年9月–2013年10月,上海交通大學化學化工學院應用化學專業學習,獲工學博士學位;
2017年12月–2019年1月,美國德州農工大學化學系從事訪學研究,訪問學者;
2013年10月–至今,合肥工業大學化學與化工學院任教。
研究方向
(1)金屬-有機多孔功能材料;(2)手性分離與催化;(3)熒光傳感
研究成果
迄今已在J. Am. Chem. Soc., Chem. Commun., Inorg. Chem., Org. Lett., Dalton Trans., Chem. Soc. Rev.等國際學術期刊上發表論文二十餘篇。
科研項目
1. 三齒希夫鹼類手性金屬-有機框架的設計合成及異相不對稱催化性能,國家自然科學青年科學基金(21401037),主持
2. 基於C3對稱性希夫鹼的手性多孔框架材料的組裝及催化性能研究,安徽省自然科學基金(JZ2015AKZR0047),主持
3. 基於8-羥基喹啉新型多孔框架材料的設計、組裝與性能研究,中央高校基本科研業務費專項資金項目(JZ2014HGBZ0075),主持
4. 葡萄糖酸內酯結塊原因及對策,校企聯合研發項目(JZ2014QTXM0089),主持
獲獎及專利情況
【獲獎】
2015年,合肥工業大學畢業設計(論文)優秀指導教師獎;
2016年,上海市教育委員會,上海市學位委員會授予「上海市研究生優秀成果(學位論文)」獎;
2017年,合肥工業大學國家級大學生創新創業訓練計劃項目優秀指導教師獎。
【指導本科生獲獎】
郝燕,合肥工業大學優秀畢業設計(論文),2015年;
王曉陽等,合肥工業大學國家級大學生創新創業訓練計劃項目,結題優秀,2017年。
李思穎等,合肥工業大學省級大學生創新創業訓練計劃項目,結題優秀,2020年。
【指導研究生獲獎】
李 德:學業一等獎學金(2018);
李昌達:學業二等獎學金(2018);「合肥工業大學研究生學術交流年會優秀論文二等獎」(2018);
湯海同:研究生國家獎學金(2019);學業一等獎學金(2019);安徽省普通高校品學兼優畢業生(2020);合肥工業大學優秀畢業研究生(2020)。
專利
(1)朱成峰,李德,李昌達,湯海同,毛青青,吳祥,李有桂。「一種高效異相氫鍵給體MOF催化劑的製備及其應用」,ZL 201710952145.5
(2)朱成峰,湯海同,胡圓圓,楊可可,李昌達,李德,吳祥,李有桂,羅雲飛。「一種高活性協同MOF催化劑的分級組裝方法及應用」,ZL 201811139067.8
(3)朱成峰,楊可可,王洪朝,張阿美,吳祥,李有桂。「一種仿酶MOF基手性分離材料的製備方法及應用」,ZL202010596435.2
學術成果
著作論文
(1) Guozan Yuan, Chengfeng Zhu, Weimin Xuan, and Yong Cui*, 「Enantioselective recognition and separation by a homochiral porous lamellar solid based on unsymmetrical schiff base metal complexes」, Chem. Eur. J., 2009, 15, 6428-6434.
(2) Gao Li, Chengfeng Zhu, Xiaobing Xi and Yong Cui*, 「Selective binding and removal of organic molecules in a flexible polymeric material with stretchable metallosalen chains」, Chem. Commun., 2009, 2118-2120.
(3) Guanzan Yuan, Chengfeng Zhu, Yan Liu, Weimin Xuan and Yong Cui*, 「Anion-driven conformational polymorphism in homochiral helical coordination polymers」, J. Am. Chem. Soc., 2009, 131, 10452-10460.
(4) Guozan Yuan, Chengfeng Zhu, Yan Liu, Yu Fang and Yong Cui*, 「Water clusters induced assembly of chiral organic microstructures showing reversible phase transformations and luminescence switching」, Chem. Commun., 2010, 46, 2307-2309.
(5) Guozan Yuan, Chengfeng Zhu, Yan Liu and Yong Cui*, 「Nano- and microcrystals of a Mn-based metal-oligomer framework showing size-dependent magnetic resonance behaviors」, Chem. Commun., 2011, 47, 3180-3182.
(6) Weimin Xuan, Chengfeng Zhu, Yan Liu and Yong Cui*, 「Mesoporous metal-organic framework materials」, Chem. Soc. Rev., 2012, 41, 1677-1695.
(7) Chengfeng Zhu, Fengjun Ban, Enhong Sheng*, Saijing Zheng, Baizhan Liu* and Yong Cui*, 「Synthesis, structure and photoluminescence of one zinc-based metal-metallosalen framework」, Chinese. J. Struct. Chem., 2012, 32, 205-210.
(8) Chengfeng Zhu, Weimin Xuan and Yong Cui*, 「Luminescent microporous metal-metallosalen frameworks with the primitive cubic net」, Dalton Trans., 2012, 41, 3928-3932.
(9) Chengfeng Zhu, Xu Chen, Zhiwei Yang, Xia Du, Yan Liu* and Yong Cui*, 「Chiral microporous Ti(salan)-based metal-organic frameworks for asymmetric sulfoxidation」, Chem. Commun., 2013, 49, 7120-7122.
(10) Chengfeng Zhu, Guozan Yuan, Xu Chen, Zhiwei Yang and Yong Cui*, 「Chiral nanoporous metal-metallosalen frameworks for hydrolytic kinetic resolution of epoxides」, J. Am. Chem. Soc., 2012, 134, 8058-8061.
(11) Yougui Li, Lei Han, Gang Ma and Chengfeng Zhu*, 「Synthesis, Structure and Property of One Bis(benzimidazolin-2-ylidene) Arene-mercury(II) Complex」, Chinese. J. Struct. Chem., 2014, 33(11), 1610-1616.
(12) Chengfeng Zhu, Qingchun Xia, Xu Chen, Yan Liu, Xia Du, and Yong Cui*. 「Chiral metal–organic framework as a platform for cooperative catalysis in asymmetric cyanosilylation of aldehydes」. ACS Catalysis, 2016, 6, 7590-7596.
(13) Chengfeng Zhu*, Yunfei Wang, Qingqing Mao, Fang Li, Yougui Li and Changle Chen*. 「Two 8-Hydroxyquinolinate Based Supramolecular Coordination Compounds: Synthesis, Structures and Spectral Properties」, Materials, 2017, 10(3), 313.
(14) Chengfeng Zhu*, Qingqing Mao, De Li, Changda Li, Yiyang Zhou, Xiang Wu, Yunfei Luo, Yougui Li. 「A readily available urea based MOF that act as a highly active heterogeneous catalyst for Friedel-Crafts reaction of indoles and nitrostryenes」. Catal. Commun., 2018, 104, 123-127.
(15) Chengfeng Zhu#, Jichao Luan#, Jun Fang, Xu Zhao, Xiang Wu, Yougui Li, and Yunfei Luo*. A Rhodium-Catalyzed [3 + 2] Annulation of General Aromatic Aldimines/Ketimines and N-Substituted Maleimides. Org. Lett., 2018, 20 (18), 5960-5963.
(16) Changda Li, Haitong Tang, Yu Fang, Zhifeng Xiao, Kunyu Wang, Xiang Wu, Helin Niu, Chengfeng Zhu*, and Hong-cai Zhou*. 「Bottom-Up Assembly of a Highly Efficient Metal?Organic Framework for Cooperative Catalysis」, Inorg. Chem., 2018. 57 (21), 13912-13919.
(17) Chengfeng Zhu*; Haitong Tang; Keke Yang; Xiang Wu; Yunfei Luo; Jin Wang; Yougui Li*, 「A urea-containing metal-organic framework as a multifunctional heterogeneous hydrogen bond-donating catalyst」, Catal. Commun., 2020,135, 105837.
(18) Wensheng Liu; Xiaoyan Qu; Chengfeng Zhu*; Yuanhao Gao; Changjie Mao; Jiming Song; Helin Niu H*. 「A two-dimensional zinc(II)-based metal-organic framework for fluorometric determination of ascorbic acid, chloramphenicol and ceftriaxone」, Microchimica Acta, 2020, 187 (2), 136.
(19) Haitong Tang, Keke Yang, Kun-Yu Wang Qi Meng, Fan Wu, Yu fang, Xiang Wu, Yougui Li, WenCheng Zhang, Yunfei Luo, Chengfeng Zhu* and Hong-Cai Zhou*,」Engineering a homochiral metal–organic framework based on an amino acid for enantioselective separation」, Chem. Commun.,2020, 56(63): 9016-9019.
(20) Hui Wang, Chengfeng Zhu*, Mingzai Wu, Fangcai Zheng, Yuanhao Gao, Helin Niu*. 「Synthesis of a novel double-ligand nickel conductive metal–organic framework material and its electrochemical characterization for supercapacitors」, Mater. Sci., 2021, 56(3), 2517–2527.
(21) Chengfeng Zhu,* Haitong Tang, Keke Yang, Yu Fang,* Kun-Yu Wang, Zhifeng Xiao, Xiang Wu, Yougui Li, Joshua A. Powell, and Hong-Cai Zhou*. Homochiral Dodecanuclear Lanthanide 「Cage in Cage」 for Enantioselective Separation, J. Am. Chem. Soc. 2021, 143(32): 12560-12566.
(Highlighted by Nature Reviews Chemistry, 2021, 5(10): 669-669.)[1]