98858vip威尼斯

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靳 涛---生物质科学与工程教研室

发布者: [发表时间]:2023-06-19 [来源]: [浏览次数]:

靳 涛1972-,汉,曲阜,教授,资源与环境工程集团副院长。

主要工作履历

2023年/07至今 98858vip威尼斯资源与环境工程集团 教授、副院长

2021/03-2023年7月 98858vip威尼斯 教授

2017/03-2018/03 澳大利亚科集团  高级访问学者

2010/12-2012/11 北京化工大学材料科学与工程学科 博士后

2002/06-2021/03 先后在山东科技大学机电、材料集团从事教学科研,副教授

开设课程

2002/09-至今,先后主讲 “物理化学”“材料热力学(研究生课)”“材料物理性能”“材料化学”“聚合物成型机械及模具基础”“资源循环利用”“化工原理”,等必修、选修课共16门课程。

主要研究领域

1氧化石墨烯制备、改性及防腐涂层应用。

2矿物纳米粉体改性及水性防腐涂料开发和相关理论研究

3多孔环保材料的制备和水污染处理

学术兼职

1山东省腐蚀与防护学会理事

2青岛市腐蚀与防护学会理事

3微量元素专业学会

教科研学术情况(截止2023年3月)

主持山东省基金面上项目1项,省科技厅项目1项,参与国家、省部级项目5项。作为指导教师指导省级创新训练项目1项,主持横向项目1项。

主持创新素养专项重点课题1项,参与省级本科教改项目1项(第2位)。

主要代表成果:

第一作者兼通讯作者Journal of Hazardous Materials, Chemosphere , Nanotechnology,Science and Technology of Advanced Materials等期刊发表SCI科研/教学论文19篇 (截止2022年6月)(其它列举7篇)。

[1] Tao Jin*, Fan-Mei Kong, Bao-Yin Yan, Gui-Zhai Zhang, Qing Liu, Qiu-Yue He, Xiao-Yan Zhou, Teaching and Learning Dialectical Relationship between Thermodynamic Equilibrium and Reaction Rate Constant, Educational Sciences: Theory & Practice, 2022 , 22(2) : 29-41 (教学SSCI论文)

[2] Tao Jin*, Chunjie Huang, Fen Zhang, Corrosion Resistance of N-(Hydroxymethyl)acrylamide Cross-Linked Nano-Graphene Oxide/Epoxy Resin Composite Coating on Magnesium Alloy, Journal of Metals (JOM), https://doi.org/10.1007/s11837-022-05569-6.

[3] Tao Jin*, Fan-Mei Kong, Pei-Wen Zhao, Graphene oxide aerogel assembled by dimethylaminopropylamine /Nisopropylethylenediamine for the removal of copper ions, Chemosphere 263 (2021) 128273

[4] Tao Jin* et al. Phenomenology of the Entropy of Mixing of Polymer Solutions, Journal of Materials Education, 2020, 42 (1-2): 119-130 (教学SCI论文

[5] Jin Tao*, Zhang Qiang,Yin Hong, Cole Ivan S.,Zhao Peiwen, Wang Yanmin, Liu Xin, Corrosion resistance mechanism of itaconic acid doped polyaniline /nano-graphene oxide composite coating, Nanotechnology, 31(2020) 285704-285716.

[6] Tao Jin*, Fanmei Kong, Zhaojun Wu and Xiaofeng Zhao,Phenomenology of the entropy of mixing of polymer solutions,Journal of Materials Education. 2020, 42 (1-2): 119-129

[7] Jin T*., Xie Z., Fullston D., Huang C., Zeng R., Bai R.,Corrosion resistance of copolymerization of acrylamide and acrylic acid grafted graphene oxide composite coating on magnesium alloy, Progress in Organic Coatings, 136 (2019) 105222

[8] Jin T*., Yin H., Easton C.D., Seeber A., Hao X., Huang C., Zeng R., New strategy of improving the dispersibility of acrylamide-functionalized graphene oxide in aqueous solution by RAFT copolymerization of acrylamide and acrylic acid, European Polymer Journal, 2019, 117, 148-158.

[9] Jin T*., Easton C.D., Tang Y., Yin H., Hao X., Nitrogen-doped graphene oxide monoliths crosslinked by short chain aliphatic amines, Journal of Hazardous Materials, 2018,357:100-108

[10] Jin T*., Easton C.D., Yin H., deVries M., Hao X., Triethylenetetramine /hydroxyethyl cellulose -functionalized graphene oxide monoliths for the removal of copper and arsenate ions, Science and Technology of Advanced Materials., 2018,19 (1) 381-395

[11] Jin T*., Han Y., Bai R., Corrosion protection properties of nano NH2-reduced graphene oxide /epoxy composite coatings formed by self-curing on magnesium alloy, Journal of Nanoscience and Nanotechnology, 2018,18 (7) 4971-4981

[12] Jin T*., Wang Y., Yin H., Corrosion protection properties and mechanism of epoxy/acetic acid-doped polyaniline coating on magnesium alloy, Journal of Nanoscience and Nanotechnology, 2018,18 (6): 4992-5000  

[13] Jin T*., Kong F., Bai R., Zhang R., Anti-corrosion mechanism of epoxy-resin and different content Fe2O3 coatings on magnesium alloy, Frontiers of Materials Science, 2016, 10(4): 367–374

[14] Jin T*., Kong F., Bai R.. Structure and property Investigations of the lowest energy, poly(amidoamine)-CH2CH3 conformers, Chemistry Letters. 2015, 44(7): 943-945

[15] Jin T*., Kong F., Effect of differently terminal groups of poly (amido-amine) dendrimers on dispersionstability of nano-silica and ab initio calculations, Surface and Interface Analysis, 2015,47: 474-481

[16] Jin T*., Lu H., Ab initio Study of complexation process between poly (amido-amine) and nano-silicon dioxide, Chinese Journal of Chemical Physics, 2013, 26(3):277-286.

[17] Jin T*., Zhang F., Interaction mechanism of ultrafine silica and poly(amido-amine) and dispersibility of the complexes in coatings, Progress in Organic Coatings, 2013, 76(2-3):478-485

[18] Jin T*., Li X., Sun H., Interaction mechanisms between poly (amido-Amine) and nano-silicon dioxide, International Journal of Quantum Chemistry. 2012, 113:1213-1224

[19] Jin T*., Li X., Interaction mechanism of nano-silicon dioxide modified by poly(amidoamine) dendrimers, Chinese Journal of Chemical Physics, 2012, 25(5): 592-604.

[20] Jin T*., Study of modification mechanism of ultrafine silica modified by PAMAM, Applied Mechanics and Materials, 2012, 217:252-255.

[21] Jin T*., Zeng R., Structure and infrared radiation properties of metal oxides-doped cordierites using graded sintering synthesis, Advanced Materials and Processes, 2011, 313:140-143.

[22] Zhang F., Jin T., Zeng R., Cui H., Song L., Cr2O3 nanoparticles modified TiO2 nanotubes for enhancing visible photoelectrochemical performance, Journal of Nanoscience and Nanotechnology, 2014, 14(9):7022–7026

[23] Sun H., Wang X., Jin T., Tris(allylthiourea-[kappa]S) bromidozinc (II) bromide,Acta Crystallographica, Section E,2011, 67(5): 543-550

[24] Yongchao Tang, Yue Wei, Anthony F. Hollenkamp, Mustafa Musameh, Aaron Seeber , Tao Jin, Xin Pan1 , Han Zhang , Yanan Hou , Zongbin Zhao, Xiaojuan Hao, Jieshan Qiu, Chunyi Zhi, Nano-Micro Lett. 2021, 13:178  

[25] 何海峰,寇新秀,吕海亮,白瑞钦,刘 欣, * (通讯作者),聚酰胺胺改性纳米二氧化硅的研究进展,材料导报,2019,33(9):2882-2889

[26] 靳涛,彭若锦,张夏雨,反应速率和反应进度的辩证关系—以甲基丙烯酸甲酯自由基聚合为例,高分子通报,2021(2):97-101. (教学中文核心论文)

授权发明专利5项

(1) 靳涛等ZL201010615592.X(第一位)

(2) 靳涛等ZL201110348076.X(第一位)

(3) 靳涛等. ZL201210164436.5 (第一位)

(4) 靳涛等ZL201610634442.0(第三位)

(5) 靳涛等ZL202110486132.X (第一位)

Email : 1926206768@qq.com