叶俊伟

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叶俊伟,博士,教授,博士生导师。2007年6月毕业于吉林大学化学学院/超分子结构与材料国家重点实验室,获得博士学位,同年到大连理工大学化工学院工作;曾在美国加州大学洛杉矶分校、英国邓迪大学、俄罗斯东西伯利亚国立技术与管理大学做访问学者和合作研究。担任辽宁省硼镁特种功能材料制备及应用技术工程实验室主任、中国化工学会无机酸碱盐委员会委员、辽宁省化工学会化工新材料专业委员会副主任委员、石油化工专业委员会委员、辽宁省非金属矿工业协会副会长、《无机盐工业》期刊青年编委会副主任委员,《化学教育》期刊编委等。曾获全国石油和化工教育教学名师、辽宁省普通高等学校本科教学名师、中国化工学会无机酸碱盐专业委员会成立四十周年杰出青年奖、大连市高层次人才等。

目前主要从事资源化工与先进功能材料研究,研究硼镁铝资源高值利用技术、高纯无机材料制备工艺及其工业应用;通过以分子间相互作用为驱动力的有机与无机构筑基元设计,构筑具有有序聚集和可控组装的微纳米结构,研究其在抗菌促愈、电催化分子转化等领域的应用。承担和参与完成国家自然科学基金项目6项、国家“863”计划项目1项、教育部科技计划项目1项、辽宁省产业技术创新平台项目1项以及辽宁省自然科学基金项目、辽宁省教育厅项目、企业委托项目等40余项的研究工作。在国内外学术期刊上发表论文150多篇;授权中国发明专利40多项;参编著作1部。

担任国家一流本科课程1门、国家精品视频公开课1门、辽宁省一流本科课程2门的主讲。获得高等教育国家级教学成果奖一等奖1项和二等奖1项、中国石油和化工教育教学成果一等奖2项、辽宁省教学成果奖一等奖3项和二等奖2项、辽宁省高校教师教学创新大赛一等奖、全国石油和化工教育优秀教学管理人员、大连理工大学教学成果奖一等奖和二等奖、大连理工大学青年教师讲课大赛一等奖、全国高等学校化工类专业优秀课程思政案例特等奖等奖励。

课题组重视学术交流、国际化和对外合作,与英国、加拿大、美国、俄罗斯以及国内十余所高校的研究组有交流合作;指导博、硕士毕业生30余人,多人次获得国家优秀学生奖学金、辽宁省高校优秀毕业生、大连市高校优秀毕业生、大连理工大学优秀研究生和优秀硕士学位论文等奖励;培养的学生现就职于国外大学以及国内的中科院大连化物所、兰州大学、大连理工大学、中国石油、中国石化、万华化学集团有限公司、中海油天津化工研究院、英特尔中国大连分公司等。


每年招收硕士研究生2-4人,博士研究生1-2人,本科生2-4人。欢迎对高纯化学品、抗菌材料、电催化材料、化工分离纯化技术、硼镁资源化工及功能材料感兴趣的同学加入团队,共同进步。


欢迎化工、材料、能源、化学领域博士后、青年才俊(助理教授、副教授、教授)加盟团队,共同成长。整合大连市、大连理工大学和课题组对博士后的支持,博士后的年薪为税前30-50万元。



近期发表的部分文章:

[1]  G.Y. Wang, Z.T Xu, Y. Qi , Y.G. Fang, G.L. Ning, J.W. Ye*, Electrospun nanofibrous membranes with antimicrobial activity for air filtration, Chinese Chemical Letters, 2024, 109503.

[2]  G.Y. Wang, Z.R Feng, L. Sun*, M Wang*, Y.L. Li, L.L. Xiu, Y.G. Fang, J.W. Ye* Multi-functional nanofibrous membrane with antibacterial property for highly effective capture of PM0.3 and hydrogen sulfideJournal of Membrane Science2024, 699, 122649.

[3]  G.Y. Wang, D.W. Xiao, Y.G. Fang, G.L. Ning, J.W. Ye*Polarity-dominated chitosan biguanide hydrochloride-based nanofibrous membrane with antibacterial activity for long-lasting air filtrationInternational Journal of Biological Macromolecules,2024, 254, 127729.

[4]  Z.T Xu, Y. Qi, Y.G. Fang, P. Tian, G.L. Ning, J.W. Ye* Efficient photocatalysis-Fenton for degradation of rhodamine B and inhibition of bacteria by core-shell Fe3O4 @UiO-66-NH2 nanospheresJournal of Alloys and Compounds,2024, 976, 173084.

[5]  S.N Bi, L. Shi, J.W. Ye*, G.L. Ning*Reasonable Design and Controllable Growth of Instant Boric Acid, Cryst. Res. Technol.2023, 58, 2300201.

[6]  G.Y. Wang, L. Sun, B.X. Zhao, Y.G. Fang, Y. Qi, G.L. Ning, J.W. Ye*, Reusable Electrospun Nanofibrous Membranes with Antibacterial Activity for Air Filtration, ACS Appl. Nano Mater. 2023, 6, 10872−10880.

[7]  Y.M. Tian, Y. Qi, Y.G. Fang, Z.T. Xu, L. Sun*, Y.S. Dong, G.L. Ning, J.W. Ye*, Near-Infrared Light-Responsive Multifunctional Photothermal\/Photodynamic Titanium Diboride Nanocomposites for the Treatment of Antibiotic-Resistant Bacterial Infections, ACS Applied Bio Materials, 2023, 6, 2837-2848.

[8]  Y. Qi, S.S. Ren, J.W. Ye,* S.N. Bi, L. Shi, Y.G. Fang, G.Y. Wang, Y. Z. Finfrock, Jun Li, Ying Che,* and Guiling Ning* Copper-Single-Atom Coordinated Nanotherapeutics for Enhanced Sonothermal-Parallel Catalytic Synergistic Cancer Therapy, Adv. Healthcare Mater. 2023, 2300291.

[9]  L. Shi, S.B. Bi, Y. Qi, G.L. Ning, J.W. Ye*, Highly efficient metal-free borocarbonitride catalysts for electrochemical reduction of N2 to NH3, Journal of Colloid and Interface Science 2023, 641, 577–584.

[10] T.T. Gao, P. Tian,* Q.J. Xu, H.C. Pang, J.W. Ye, G.L. Ning* Class of Boehmite/Polyacrylonitrile Membranes with Different Thermal Shutdown Temperatures for High-Performance Lithium-Ion Batteries, ACS Appl. Mater. Interfaces 2023, 15, 2112−2123.

[11] T.T. Gao, P. Tian*, Y.Y. Yang, Q.J. Xu, H.P. Pang, J.W. Ye, G.L. Ning* A Composite Fiber Separator with Reversible Thermal Shutdown for Safety of Lithium-Ion Batteries, Energy Technol. 2022, 10, 2200183 .

[12] Y.Y. Yang, P Tian, T.T. Gao, J.G. Xu, Q.J. Xu, H.P. Pang, J.W. Ye, G.L. Ning*Synthesis of controlled-particle-size boehmite forcoating lithium-ion battery separators, New J. Chem., 2023, 47, 2211–2220

[13] J.L. Lv, Y. Qi, Y.M. Tian, G.Y. Wang, L. Shi, G.L. Ning*, J.W. Ye*, Functionalized boron nanosheets with near-infrared-triggered photothermal and nitric oxide release activities for efficient antibacterial treatment and wound healing promotion, Biomaterials Science, 2022, 10, 3747–3756.

[14] S,N. Bi, P.H. Zhu, P. Tian, J.C. Zhong, J.W. Ye, G.L. Ning*, Construction of coral-like architectures of boroncontaining compounds: coral-like boric acid and its application performances, CrystEngComm, 2022, 24, 2383–2387.

[15] S.Q. Zhang, X. Ma, H.L. Yu, X.Y. Lu, J.H. Liu, L.H. Zhang, G.Y. Wang, J.W. Ye*, G.L. Ning*, Silver(I) metal–organic framework-embedded polylactic acid electrospun fibrous membranes for efficient inhibition of bacteria, Dalton Transactions, 2022, 51, 6673–6681.

[16] L. Shi, S.N. Bi, Y. Qi, R.F. He, K. Ren, L.R. Zheng, J.O Wang, G.L. Ning*, J.W. Ye*, Anchoring Mo single-atom sites on B/N codoped porous carbon nanotubes for electrochemical reduction of N2 to NH3, ACS Catalysis, 2022, 12, 7655–7663.

[17] G.Y. Wang, J.W. Ye*, M. Wang , Y. Qi , S.Q. Zhang, L. Shi, Y.G. Fang , Y.M. Tian , G.L. Ning*, Copper boron–imidazolate framework incorporated chitosan membranes for bacterial-infected wound healing dressing, Carbohydrate Polymers, 2022, 291, 119588.

[18] Y. Qi, S.S. Ren, J.W. Ye*, Y.M. Tian, G.Y. Wang, S.Q. Zhang, L.Y. Du, Y.C. Li, Y. Che*, G.L. Ning*, Infection microenvironment-activated core-shell nanoassemblies for photothermal/chemodynamic synergistic wound therapy and multimodal imaging. Acta Biomaterialia, 2022, 143, 445-458.

[19] S.Q. Zhang, J.W. Ye*, X.L. Liu, G.Y. Wang, Y. Qi, T.L. Wang, Y.Q. Song, Y.C. Li, G.L. Ning*, Dual stimuli-responsive smart fibrous membranes for efficient photothermal/photodynamic/chemo-therapy of drug-resistant bacterial infection, Chemical Engineering Journal, 2022, 432, 134351.

[20] S.Q. Zhang, J.W. Ye*, X. Liu, Y. Wang, C. Li, J.T. Fang, B.N. Chang, Y. Qi, Y.C. Li*, G.L. Ning*, Titanium carbide/zeolite imidazole framework-8/polylactic acid electrospun membrane for near-infrared regulated photothermal/photodynamic therapy of drug-resistant bacterial infections, Journal of Colloid and Interface Science, 2021, 599, 390-403.

[21] G.Y. Wang, T. Zheng, S.Q. Zhang, J.W. Ye*, G.L. Ning*, Fluorescence chemosensor for acetate ion and fluorine ion based on 1,2,4-triazolyl substituted pentaphenylpyridinium, Journal of Molecular Structure, 2021, 1230, 129918.

[22] L. Shi, J.W. Ye*, H. Lu, G.Y. Wang, J.L. Lv, G.L. Ning*, Flexible all-solid-state supercapacitors based on boron and nitrogen-doped carbon network anchored on carbon fiber cloth, Chemical Engineering Journal, 2021, 410, 128365.

[23] Z. Liu, J.W. Ye*, A. Rauf, S.Q. Zhang, G.Y. Wang, S.Q. Shi, G.L. Ning*, A flexible fibrous membrane based on copper(ii) metal-organic framework/poly (lactic acid) composites with superior antibacterial performance, Biomaterials Science, 2021, 9, 3851-3859.

[24] 史苏琦,张守臣*,张迪嘉,宁桂玲,叶俊伟*.钒酸铋晶面调控制备及其降解四环素类抗生素性能研究[J].无机盐工业,2021,53(11),114-121.

[25] S.Q. Zhang, J.W. Ye*, Z. Liu, H. Lu, S.Q. Shi, Y. Qi, G.L. Ning*, Superior antibacterial activity of Fe3O4@copper(II) metal-organic framework core-shell magnetic microspheres, Dalton Transactions, 2020, 49, 13044-13051.

[26] Y. Qi, J.W. Ye*, S.S. Ren, G.Y. Wang, J.L. Lv, S.Q. Zhang, Y. Che*, Y.C. Li, B.J. Chen, G.L. Ning*, Temperature feedback–controlled photothermal/photodynamic/chemodynamic combination cancer therapy based on NaGdF4:Er,Yb@NaGdF4:Nd@Cu–BIF nanoassemblies, Advanced Healthcare Materials, 2020, 9, 2001205.

[27] Y. Qi, S.S. Ren, Y. Che, J.W. Ye*, G.L. Ning*, Research progress of metal-organic frameworks based antibacterial materials, Acta Chimica Sinica  2020, 78, 613-624.

[28] P.H. Zhu, P. Tian, T.T. Gao, H.C. Pang, J.W. Ye*, G.L. Ning*, Droplet-oriented construction of porous metal oxide hollow microspheres and their assembly into superstructures, New Journal of Chemistry, 2020, 44, 12978-12984.

[29] 李春,田朋,庞洪昌,叶俊伟,宁桂玲.钨掺杂的铁镍基层状氢氧化物用于电催化析氧和析氢反应[J].无机化学学报,2020,36(08),1492-1498.

[30] Q.Z. Tian, J.W. Ye*, W.J. Yuan, S.Q. Zhang, L. Shi, J.C. Zhong, G.L. Ning*, Highly effective antibacterial activity of lithium-doped magnesium oxide particles synthesized by the microwave-assisted hydrothermal route, Powder Technology, 2020, 371, 130-141.

[31] M. A. Akram, J.W. Ye*, G.Y. Wang, L. Shi, Z. Liu, H. Lu, S.Q. Zhang, G.L. Ning*, Bifunctional chemosensor based on a dye-encapsulated metal-organic framework for highly selective and sensitive detection of Cr2O72- and Fe3+ ions, Polyhedron, 2020, 185, 114604.

[32] 柴政泽,叶俊伟,田其哲,史磊,宁桂玲.气溶胶辅助法合成球形氧化镁及其吸附性能研究[J].无机盐工业,2020,52(01),39-43.

[33] S.Q. Zhang, J.W. Ye*, Y. Sun, J. Kang, J.H. Liu, Y. Wang, Y.C. Li, L.H. Zhang, G.L. Ning*, Electrospun fibrous mat based on silver (I) metal-organic frameworks-polylactic acid for bacterial killing and antibiotic-free wound dressing, Chemical Engineering Journal, 2020, 390, 124523.

[34] Y. Qi, J.W. Ye*, S.S. Ren, J.L. Lv, S.Q. Zhang, Y. Che*, G.L. Ning*, In-situ synthesis of metal nanoparticles@metalorganic frameworks: Highly effective catalytic performance and synergistic antimicrobial activity, Journal of Hazardous Materials, 2020, 386, 121687.

[35] Z.Z. Chai, Q.Z. Tian, J.W. Ye*, S.Q. Zhang, G,Y. Wang, Y. Qi, Y. Che, G.L. Ning*, Hierarchical magnesium oxide microspheres for removal of heavy ions from water and efficient bacterial inactivation, Journal of Materials Science, 2020, 55, 4408–4419.

[36] A. Rauf, J.W. Ye*, S.Q. Zhang, Y. Qi, G.Y. Wang, Y. Che* and G.L. Ning*, Copper(II)-based coordination polymer nanofibers as a highly effective antibacterial material with a synergistic mechanism, Dalton Transactions, 2019, 48, 17810-17817.

[37] A. Rauf, J.W. Ye*, A. Hao, L.Y. Zhao, Y. Yang, S.Q. Zhang, G.L. Ning*, An antibacterial silver(I) supramolecular network assembled from thiophene-2,5-dicarboxylate and benzimidazole, Journal of Coordination Chemistry, 2019, 71, 3266-3276.

[38] Y. Qi, J.W. Ye*, S.Q. Zhang, Q.Z. Tian, N. Xu, P. Tian, G.L. Ning*, Controllable synthesis of transition metal ion-doped CeO2 micro/nanostructures for improving photocatalytic performance, Journal of Alloys and Compounds, 2019, 782, 780-788.

[39] A. Rauf, J.W. Ye*, S.Q. Zhang, L. Shi, M. A. Akram, G.L. Ning*, Synthesis, structure and antibacterial activity of a copper(II) coordination polymer based on thiophene-2,5-dicarboxylate ligand, Polyhedron, 2019, 166, 130–136.

[40] X. Zhu, J.W. Ye, Y.F. Lu, X.L. Jia, 3D graphene nanostructure composed of porous carbon sheets and interconnected nanocages for high-performance lithium-ion battery anodes and lithiumsulfur batteries, ACS Sustainable Chemistry & Engineering, 2019, 7, 1124111249.

[41] Y.W. Shi, J.W. Ye*, Y. Qi, M. A. Akram, A. Rauf, G.L. Ning*, An anionic layered europium(III) coordination polymer for solvent-dependent selective luminescence sensing of Fe3+ and Cu2+ ions and latent fingerprint detection, Dalton Transactions, 2018, 47, 17479–17485.

[42] P. Tian*, C.X. Sun, P.H. Zhu, H.C. Pang, W.T. Gong*, J.W. Ye, G.L. Ning, Template-engaged synthesis of macroporous tubular hierarchical a-Fe2O3 and its ultrafast transfer performance, Chemical Physics Letters, 2018, 706, 261–265.

[43] C.X. Sun, P. Tian, J.Y. Tian, S.W. Shen, H.C. Pang, J.W. Ye, G.L. Ning*, Magnetic mesoporous γ-Al2O3/ZnFe2O4 micro-bowls realizing enhanced adsorption, separation and recycle performance towards waste water, Microporous and Mesoporous Materials, 2018, 270, 120–126.

[44] 叶俊伟,杨瑶瑶,陈弋心,高梦阳,柴政泽,林源,宁桂玲.纳米氧化镁抗菌材料的研究进展[J].化工进展,2018,37(04),1460-1467.

[45] J.W. Ye*, R.F. Bogale, Y.W. Shi, Y.Z. Chen, X.G. Liu, S.Q. Zhang, Y.Y. Yang, J.Z. Zhao, G.L. Ning*, A water stable dual-channel luminescence sensor for UO22+ ion based on an anionic terbium(III) metal-organic framework, Chemistry - A European Journal, 2017, 23, 7657–7662.

[46] J.W. Ye*, X.M. Huang, Y.W. Li, T. Zheng, G.L. Ning*, J. Liang, Y. Liu*, Y. Wang, AIEE-active blue-emitting molecules derived from methoxyl-decorated triarylcyclopentadienes: Synthesis, crystal structures, photophysical and electroluminescence properties, Dyes and Pigments, 2017, 147, 465-475.

[47] J.W. Ye, H. Cheng, H. Li, Y.Y. Yang, S.Q. Zhang, R. Abdul, Q. Zhao*, G.L. Ning*, Highly synergistic antimicrobial activity of spherical and flower-like hierarchical titanium dioxide/silver composites, Journal of Colloid and Interface Science, 2017, 504, 448–456.

[48] R.F. Bogale, Y.Z. Chen, J.W. Ye*, Y.Y. Yang, A. Rauf, L.Y. Duan, P. Tian, G.L. Ning*, Highly selective and sensitive detection of 4-nitrophenol and Fe3+ ion based on a luminescent layered terbium (III) coordination polymer, Sensors and Actuators B: Chemical, 2017, 245, 171–178.

[49] R.F. Bogale, Y.Z. Chen, J.W. Ye*, S.Q. Zhang, Y.W. Li, X.G. Liu, T. Zheng, A. Rauf, G.L. Ning*, A terbium(III)-based coordination polymer for selective and sensitive sensing of nitroaromatics and ferric ion: synthesis, crystal structure and photoluminescence properties, New Journal of Chemistry, 2017, 41, 12713-12720.

[50] L.Y. Duan, J.W. Ye, W.L. Sun, S.N. Wang, W.T. Gong, Y.S Dong*, G.L. Ning*, A novel PTP1b inhibitor vanadium-flavone complex: Synthesis and pharmacodynamic evaluation in streptozotocin-induced diabetic mice, Medicinal Chemistry Research, 2017, 26, 1863-1870.

[51] H. Mehdi, H.C. Pang, W.T. Gong*, A. Wajahat, K.D. Manivannan, S. Shah, J.W. Ye, G. Ning*, Two new fluorescent Zn2+ sensors exhibiting different sensing mode with subtle structural changes, Supramolecular Chemistry, 2017, 29, 378-386.

[52] J.W. Ye*, Y. Gao, L. He, T. T. Tan, W. Chen, Y. Liu*, Y. Wang, G. L. Ning*, Efficient blue-emitting molecules by incorporating sulfur-containing moieties into triarylcyclopentadiene: Synthesis, crystal structures and photophysical properties, Dyes and Pigments, 2016, 124, 145-155.

[53] J.W. Ye*, X. M. Huang, X.X. Wang, T. Zheng, Y. Gao, W.T. Gong, G.L. Ning*, Research progress on the synthesis and application of cyclopentadiene derivatives, Chinese Journal of Organic Chemistry, 2016, 36, 1299-1307.

[54] R. F. Bogale, J.W. Ye*, Y. Sun, T.X. Sun, S.Q. Zhang, A. Rauf, C. Hang, P. Tian, G.L. Ning*, Highly selective and sensitive detection of metal ions and nitroaromatic compounds by an anionic europium(III) coordination polymer, Dalton Transactions, 2016, 45, 11137–11144.

[55] R. Wang, J.W. Ye*, A. Rauf, X.M. Wu, H.X. Liu, G.L. Ning*, H. Jiang*, Microwave-induced synthesis of pyrophosphate Zr1-xTixP2O7 and TiP2O7 with enhanced sorption capacity for uranium (VI), Journal of Hazardous Materials, 2016, 315, 76–85.

[56] R. Wang, J.W. Ye*, G.L. Ning*, F.H. Sun, H. Jiang*, X.M. Wu, H.X. Liu, Microwave-assisted rapid synthesis of cerium phosphates and their adsorption on uranium(VI), Research on Chemical Intermediates, 2016, 42, 5013–5025.

[57] J.W. Ye, X.M. Huang, X.X. Wang, T. zheng, Y. Gao, W.T. Gong, G.L. Ning, Research progress on the synthesis and application of cyclopentadiene derivatives, Chinese Journal of Organic Chemistry, 2016, 36, 1299-1307.

[58] J.W. Ye, X.M. Huang, Y. Gao, X.X. Wang, T. Zheng, Y. Lin, X. Liu*, G.L. Ning,* Morphology-controlled assembly and enhanced emission of fluorescence in organic nanospheres and microrods based on 1,2-diphenyl-4-(4-dibenzothienyl)phenyl-1,3-cyclopentadiene, CrystEngComm, 2015, 17, 9311–9317.

[59] J.W. Ye*, L.M. Zhao, R. F. Bogale, Y. Gao, X.X. Wang, X.M. Qian, S. Guo, J.Z. Zhao, G.L. Ning*, Highly selective detection of 2,4,6-trinitrophenol and Cu2+ ion based on a fluorescent cadmium-pamoate metal-organic framework, Chemistry - A European Journal, 2015, 21, 2029-2037.

[60] J.W. Ye*, X.X. Wang, L.M. Zhao, R. F. Bogale, J.Z. Zhao, G.L. Ning*, A fluorescent zinc-pamoate coordination polymer for highly selective sensing of 2,4,6-trinitrophenol and Cu2+ ion, Sensors and Actuators B: Chemical, 2015, 210, 566–573.







Educational Experience

2004.9 2007.7

  • 吉林大学
  • 有机化学
  • Doctoral Degree

Work Experience

2007.7 Now
  • 大连理工大学
  • 教师

Social AffiliationsMore>>

2022.6 2027.5

  • 中国化工学会无机酸碱盐专委会委员(化工学院)

2020.12 2025.12

  • 辽宁省新材料产业联盟副理事长(化工学院)

2020.12 2025.12

  • 辽宁省化工学会化工新材料专业委员会副主任委员(化工学院)

Research Focus

  • 电催化材料结构设计及性能

  • 1. 抗菌材料的制备及性能研究 2. 有机光电功能材料与器件研究 3. 金属有机超分子配位聚合物结构和性能 4. 硼镁资源化工与新材料研究