姓名：王青

聯系方式：[email protected];[email protected]

QQ:1050648752

研究團隊/平臺：膜材料與膜過程科研團隊、先進膜材料與膜過程重點實驗室

主要研究方向：主要從事面向“碳中和”、節能環保、電池薄膜和綠色化工方向，先進膜材料的開發及其應用研究：（1）碳化硅膜、分子篩膜的制備及微結構調控；（2）膜反應器、氣體分離（H₂分離、CO₂分離及資源化利用、低碳烴分離）；（3）滲透汽化有機溶劑脫水、溶劑分離，離子分離；（4）膜分離器件/組件的開發及放大。

個人主頁：https://www.researchgate.net/profile/Qing-Wang-152

碩士招生要求：專業不限；積極主動、勤而好學。

個人簡介：

化學工程博士，合肥大學海外引進人員，合肥市D類高層次人才、安徽省教育廳優青；2014年9月進入南京工業大學（膜科學技術研究所）攻讀碩士學位（化學工程）；2017年10月獲國家留學基金委全額獎學金公派日本廣島大學Toshinori Tsuru教授課題組（世界著名硅基膜研究室）攻讀博士學位；2020年9月獲工學博士學位（化學工程），此后以全職研究員受聘于廣島大學先進理工系科學研究院。

近5年，主持國家重點研發計劃子課題、國家自然科學基金青年基金、日本學術振興會（JSPS）基盤研究子課題、安徽省自然科學基金青年基金、安徽省高校優秀青年科研項目等10余項。在膜分離領域核心期刊（J. Am. Ceram. Soc.,J. Membr. Sci., Sep. Purif. Technol., AIChE J.等）上發表SCI論文30余篇；申請發明專利10余項。擔任Molecules（中科院2區，Top，IF=4.92）和Membranes（小類3區，IF=4.56）客座編輯，及Journal of Membrane Science、Journal of Environmental Chemical Engineering、International Journal of Energy Research等多個期刊審稿人。

主要科研成果：

一、主持科（教）研項目：

[1]  國家重點研發計劃子課題，烴轉化用催化膜反應動力學研究，二類，在研，主持

[2]  國家自然科學基金，青年基金，22308076，二類，在研，主持

[3]  安徽省高校優秀青年科研項目，優青項目，2024AH030044，三類，在研，主持

[4]  安徽省自然科學基金，青年基金，2308085QB65，三類，在研，主持

[5]  企業委托技術開發項目，二類，在研，主持

[6]  材料化學工程國家重點實驗室，開放課題，KL21-04，三類，結題，主持

[7]  安徽省教育廳高校科學研究（自然科學），重點項目，KJ2021A1015，三類，結題（優秀），主持

[8]  合肥學院，人才項目，20RC33，結題，主持

[9]  合肥學院，校級本科質量工程，2021hfuhhkc03，結題，主持

[10] 日本學術振興會（JSPS），基盤研究，18H03855子課題，1420萬日元，結題，主持

二、發表學術論文：

[11] Qing Wang^#,*, Cheng Qian^#(21級碩士生), Yanan Li^#(20級碩士生), Nong Xu*, Qiao Liu, Bin Wang, Long Fan, and Kunhong Hu. Preparation and application of highly oriented MFI zeolite membranes for efficient pervaporation recovery of organic solvents. Journal of Membrane Science, 2024, 709: 123117. (IF=9.5, TOP,一區)

[12] Qing Wang^#, Cheng Qian^#(21級碩士生), Nong Xu*, Qiao Liu, Bin Wang, Lingyun Zhang, Long Fan, Rongfei Zhou. Synthesis optimization and separation mechanism of ZSM-5 zeolite membranes for pervaporation dehydration of organic solvents. Science of The Total Environment, 2024, 929: 172641. (IF=9.8, TOP,一區)

[13] Qing Wang^#, Yu Guo^#(21級碩士生), Nong Xu*, Qiao Liu, Bin Wang, Long Fan, Lingyun Zhang, and Rongfei Zhou. FAU zeolite membranes synthesized using nanoseeds—Separation mechanism and optimization for the pervaporation dehydration of various organic solvents. Journal of Membrane Science, 2024, 696:122522. (IF=9.5, TOP,一區)

[14] Qing Wang^#,*, Cheng Qian^#(21級碩士生), Changxu Guo(20級碩士生), Nong Xu*, Qiao Liu, Bin Wang, Long Fan, and Kunhong Hu. Pervaporation Dehydration Mechanism and Performance of High-Aluminum ZSM-5 Zeolite Membranes for Organic Solvents. International Journal of Molecular Sciences, 2024, 25(14):7723. (IF=4.9,二區)

[15] Qing Wang*, Huiyuan Chen（23級碩士生), Feiyang He（22級碩士生）, Qiao Liu, Nong Xu, Long Fan, Lingyun Zhang, Rongfei Zhou*. High-Performance FAU Zeolite Membranes Derived from Nano-Seeds for Gas Separation. Membranes,2023, 13(11): 858. (Invitation, IF=4.2,小類三區，Editor’s Choice Article)

[16] Qing Wang, Nong Xu, Qiao Liu, Qiang Dong, Hiroki Nagasawa, Masakoto Kanezashi, Rongfei Zhou, Toshinori Tsuru*. Low-temperature cross-linking fabrication of sub-nanoporous SiC-based membranes for application to the pervaporation removal of methanol. Journal of Membrane Science, 2022, 662:121008. (IF=10.53, TOP,一區, Editor’s Choice Article)

[17] Qing Wang, Rongfei Zhou, Toshinori Tsuru*. Recent Progress in Silicon Carbide-Based Membranes for Gas Separation. Membranes, 2022, 12(12):1255. (IF=4.56,小類三區)

[18] Qing Wang, Yuta Kawano, Liang Yu, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. Development of high-performance sub-nanoporous SiC-based membranes derived from polytitanocarbosilane. Journal of Membrane Science, 2020, 598:117688. (IF=10.53, TOP,一區)

[19] Qing Wang, Makato Yokoji, Hiroki Nagasawa, Liang Yu, Masakoto Kanezashi, Toshinori Tsuru*. Microstructure evolution and enhanced permeation of SiC membranes derived from allylhydridopolycarbosilane. Journal of Membrane Science, 2020, 612:118392. (IF=10.53, TOP,一區)

[20] Qing Wang, Liang Yu, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. Tuning the microstructure of polycarbosilane-derived SiC(O) separation membranes via thermal-oxidative cross-linking. Separation and Purification Technology, 2020, 248:117067. (IF=9.136, TOP,一區)

[21] Qing Wang, Liang Yu, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. High-performance molecular-separation ceramic membranes derived from oxidative cross-linked polytitanocarbosilane. Journal of the American Ceramic Society, 2020, 103:4473-4488. (IF=4.186, TOP,一區)

[22] Qing Wang, Amei Wu, Shenglai Zhong, Bin Wang, Rongfei Zhou*. Highly (h0h)-oriented silicalite-1 membranes for butane isomer separation. Journal of Membrane Science, 2017, 540:50-59. (IF=10.53, TOP,一區)

[23] Qing Wang*, Huiyuan Chen（23級碩士生), Hanyu Wu, Qiao Liu, Nong Xu, Long Fan, Xinpu Niu, and Kunhong Hu. Progress in preparation and pervaporation of FAU zeolite membranes. China Powder Science and Technology, 2024, 30(5):21?34. (Invitation, CSCD擴展)

[24] Qing Wang*, Xiaoyu Yang（24級碩士生), Bin Wang. Zeolite Membranes for Gas and Liquid Separation: Synthesis and Applications. Membranes, 2025, 15(1): 24. (Invitation, IF=3.3,小類三區)

[25] Xin Yu, Qing Wang, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. SiC mesoporous membranes for sulfuric acid decomposition at high temperatures in the iodine-sulfur process. RSC Advances, 2020, 10:41883-41890. (IF=4.036,三區)

[26] Qiao Liu, Nong Xu*, Kaiming Li, Qing Wang, Long Fan, Peng Zang, and Yinhua Wan*. Enhanced anti-biochemical fouling properties of the polyacrylonitrile membranes assisted by the d-amino acid surface-modified halloysite nanotubes. Chemical Engineering Journal,2024,496: 154258. (IF=13.3, TOP,一區)

[27] Qiao Liu, Peng Huang, Nong Xu*, Qing Wang, Long Fan*. Decoupling synthesis and crystallization of covalent organic frameworks (COFs) for more crystalline layer targeting high efficiency dye separation. Separation and Purification Technology, 2024, 341: 126881. (IF=8.1, TOP,一區)

[28] Nong Xu^#, Kaixuan Liu^#, Qiao Liu*, Qing Wang, Anzheng Zhu, Long Fan*. Peroxymonosulfate enhanced photocatalytic degradation of organic dye by metal-free TpTt-COF under visible light irradiation. Scientific Reports, 2024, 14(1): 8183. (IF=4.6,二區)

[29] Nana Wang, Ni Liu, Junjing Zhou, Qing Wang, Na Hu, and Rongfei Zhou. Large-area, high-permeance and acid-resistant zeolite SSZ-13 membranes for efficient pervaporative separation of water/acetic acid mixtures. Journal of Membrane Science, 2024, 691: 122251. (IF=9.5, TOP,一區)

[30] Nong Xu, Weihao Wang, Qiao Liu, Qing Wang, and Long Fan. Enhanced Pervaporation of the Poly (dimethylsiloxane)(PDMS) Mixed Matrix Membrane Based on the Self-Assembly of Multidimensional Carbon Nanomaterials. Industrial & Engineering Chemistry Research, 2023 63(1): 525-538. (IF=4.2,三區)

[31] Weijie Huang, Zibo He, Bo Liu, Qing Wang, Shenglai Zhong*, Rongfei Zhou*, Weihong Xing. Large surface-to-volume-ratio and ultrahigh selectivity SSZ-13 membranes on 61-channel monoliths for efficient separation of CO₂/CH₄ mixture. Separation and Purification Technology, 2023, 311:123285 (IF=9.136, TOP,一區)

[32] Nana Wang, Guiliu Dang, Zhenwei Bai, Qing Wang, Bo Liu*, Rongfei Zhou*, Weihong Xing. In Situ Synthesis of Cation-Free Zirconia-Supported Zeolite CHA Membranes for Efficient CO₂/CH₄ Separation. ACS Applied Materials & Interfaces, 2023, 15(13): 16853-16864. (IF=10.383, TOP,二區)

[33] Qiao Liu, Xiaojun Pan, Nong Xu*, Qing Wang, Shenzhen Qu, Weihao Wang, Long Fan, Qiang Dong. Hypergravity field induced self-assembly of 2D MXene in polyvinyl alcohol (PVA) membrane matrix and its improvement of alcohol/water pervaporation.Journal of Applied Polymer Science, 2023, 140(16): e53740. (IF=3.06,三區)

[34] Norihiro Moriyama, Yuta Kawano, Qing Wang, Ryota Inoue, Meng Guo, Makoto Yokoji, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. Pervaporation via silicon-based membranes: Correlation and prediction of performance in pervaporation and gas permeation. AIChE Journal, 2021, 67: e17223 (IF=4.167, TOP,二區)

[35] Guanying Dong, Hiroki Nagasawa, Liang Yu, Qing Wang, Kazuki Yamamoto, Joji Ohshita, Masakoto Kanezashi, Toshinori Tsuru*. Pervaporation removal of methanol from methanol/organic azeotropes using organosilica membranes: experimental and modeling. Journal of Membrane Science, 2020, 610:118284. (IF=10.53, TOP,一區)

[36] Bo Liu, Rongfei Zhou*, Na Bu, Qing Wang, Shenglai Zhong, Bin Wang, Kita Hidetoshi. Room-temperature ionic liquids modified zeolite SSZ-13 membranes for CO₂/CH₄ separation. Journal of Membrane Science, 2017, 524:12-19. (IF=10.53, TOP,一區)

[37] Narendra Basel, Qiao Liu, Long Fan, Qing Wang, Nong Xu*, Yinhua Wan*, Qiang Dong, Zhifeng Huang, Tao Guo. Surface charge enhanced synthesis of TpEB-based covalent organic framework (COF) membrane for dye separation with three typical charge properties. Separation and Purification Technology, 2022, 303:122243. (IF=9.136, TOP,一區)

[38] Qiao Liu, Basel Narendra, Li Lin, Nong Xu*, Qiang Dong, Long Fan*, Qing Wang, Aiqin Ding, Tonghua Wang. Interfacial polymerization of a covalent organic framework layer on titanium dioxide@graphene oxide/polyacrylonitrile mixed-matrix membranes for high-performance dye separation. Journal of Membrane Science, 2022, 647: 120296. (IF=10.53, TOP,一區)

[39] Wei Zhou, Qiao Liu*, Nong Xu, Qing Wang, Long Fan, Qiang Dong. In Situ Incorporation of TiO₂@Graphene Oxide (GO) Nanosheets in Polyacrylonitrile (PAN)-Based Membranes Matrix for Ultrafast Protein Separation. Membranes, 2023, 13(4): 377. (IF=4.56,小類三區)

[40] Huijuan Tong, Qiao Liu*, Nong Xu*, Qing Wang, Long Fan, Qiang Dong, Aiqin Ding. Efficient Pervaporation for Ethanol Dehydration: Ultrasonic Spraying Preparation of Polyvinyl Alcohol (PVA)/Ti₃C₂Tx Nanosheet Mixed Matrix Membranes. Membranes, 2023, 13(4): 430. (IF=4.56,小類三區)

[41] Nong Xu^#, Chen Pan^#, Shenzhen Qu, Qiao Liu, Qing Wang, Qiang Dong*, Long Fan*. Thermal self-crosslink after etching for regulated preparation of Ti₃C₂ type MXene membrane and its preliminary gas separation. Heliyon, 2024, 10(10):e31155. (IF=4,三區)

[42] Yilong Luo, Hong Xiao, Zuoding Ning, Wenhan Wang, Qing Wang, Bin Wang*, Rongfei Zhou*, Weihong Xing. Synthesis of discrete SSZ-39 zeolite nanosheets by solvent-free seed-assisted route for efficient CO₂ capture. Separation and Purification Technology (2024): 130637. (IF=8.2, TOP,一區)

[43] Qiao Liu, Xiaotian Xia, Nong Xu*, Qing Wang, Long Fan, and Yinhua Wan*. Glycerol-assisted uniform dispersion of TpHz nanoparticles in the poly (vinyl alcohol) membrane matrix to construct water permeation channels. Journal of Membrane Science 716 (2025): 123515. (IF=8.4, TOP,一區)

三、部分發明專利及學術報告

[44] 王青, 董強, 周榮飛, 徐農, 劉嶠, 郭長旭, 錢成. 一種具有分子篩分功能的碳化硅膜的制備方法及應用, CN202211000900.7, 2022-08, 發明專利.

[45] 王青, 徐農, 董強, 周榮飛, 劉嶠, 李夢迪, 何飛揚, 張曉雪.一種金屬摻雜碳化硅膜的制備方法及應用, CN202210991235.6, 2022-08, 發明專利.

[46] 王青, 陳靜怡, 董強, 徐農, 周榮飛, 劉嶠, 李亞男, 郭宇, 張國輝. 一種具有亞納米孔徑的碳化硅膜的制備方法及應用, CN202211010978.7, 2022-08, 發明專利.

[47] 周榮飛, 戴繼東, 王青, 吳阿妹, 王斌, 仲盛來, 徐南平. 一種h0h取向的MFI型分子篩膜的制備方法, ZL201710312259.3, 2020-11, 發明專利.

[48] 周榮飛, 徐南平, 仲盛來, 王青. 一種SAPO-18分子篩膜的制備方法, ZL201410422814.4, 2016-07, 發明專利.

[49] Qing Wang. Optimization of NaX Zeolite Membrane Prepared from Nanoseeds and Its Pervaporation Mechanism and Separation Performance Prediction. The 14th Conference of Aseanian Membrane Society, AMS14, Nanjing, China, July 23-26, 2024. (Oral presentation)

[50] 王青. 新型無機膜材料的制備及其在化工分離中的應用，安徽省化工學會2024年年會暨產教融合科創融匯研討會，中國六安，2024年4月26-28日（口頭報告，邀請報告）

[51] Qing Wang. Preparation of FAU Zeolite membrane using nano-seeds and prediction of pervaporation performance. International Conference on Future Membranes (ICFM 2024), Suzhou, China, April 19-22, 2024. (Oral presentation)

[52] 王青. 具有分子篩分功能的碳化硅膜構筑及其氣體分離屬性研究，第四屆全國無機膜學術會議，中國南京，2023年8月11-14日（口頭報告，優秀報告獎）

[53] 王青. 聚碳硅烷衍生的碳化硅膜孔徑調控及其氣體分離和滲透汽化性能研究，膜科學與技術在‘雙碳’戰略中的應用研討會，中國大連，2023年5月12-14日（口頭報告）

[54] 王青. 高性能碳化硅膜的開發及其氣體分離和滲透汽化應用研究，第三屆全國無機膜學術會議，中國黃山，2021年10月22-25日（口頭報告）

[55] Qing Wang, Hiroki Nagasawa, Masakoto Kanezashi, Toshinori Tsuru*. Preparation and gas permeation properties of a novel SiC-based membrane. The 2018 Membrane Symposium of the Membrane Society of Japan, Kobe, Japan, November 13-14, 2018. (Poster, best presentation award)

[56] Qing Wang, Hagg Kristofer. Mirai short course for PhD-Sustainability: “Membranes for a sustainable water cycle”. Hiroshima/Kyoto/Tokyo, Japan, October 14-18, 2018, (Oral presentation, best presentation award)

四、主要獲獎情況：

[57] 2023年安徽省教學成果二等獎（2023jxcgjY135-R12）

[58] 2023年合肥大學年度考核，優秀

[59] 2023年第六屆全國大學生化工實驗大賽華東區賽，獲得二等獎，第一指導老師

[60] 2023年合肥學院第十三屆青年教師教學基本功大賽二等獎，排名第三

[61] 2022年合肥學院年度考核，優秀

[62] 2022年第五屆全國大學生化工實驗大賽華東區賽，獲得優秀獎，第一指導老師

[63] 2022年合肥學院第九屆“挑戰杯”大學生創業計劃競賽銀獎，授予優秀指導老師

[64] 2021年第四屆全國大學生化工實驗大賽華東區賽，獲得仿真單項獎，第一指導老師

[65] 2021年指導學生獲得2021屆校級優秀畢業設計（論文）二等獎，授予教學質量優秀獎