九州体育

师(shi)资队伍

王鑫


个(ge)人履历

九州体育安全科学(xue)与工程博士(2013)

九州体育助理研究员(2012-2013)

西班(ban)牙马德里高等研究院材料研究所博士后(2013-2014)

九州体育特(te)任副研究员(yuan)(2014-2018

九(jiu)州体育(yu)副研究员(2018至(zhi)今(jin))

 

研究方向

无卤阻燃热固性材料的设计(ji)与性能

新型无(wu)卤生(sheng)物与基(ji)阻燃剂及其聚合(he)物复合(he)材(cai)料

高性能阻燃(ran)聚(ju)合物纳米复合材料

木材和纺(fang)织品用多功能涂(tu)层技(ji)术

有机-无机杂化(hua)防灭火凝胶技术

 

个人获(huo)奖

国家(jia)自然(ran)科学(xue)二等(deng)奖(2017

中国科(ke)学院院长优(you)秀(xiu)奖(2013

博士研究生国家(jia)奖学金(jin)(2012

宝钢优秀(xiu)学生奖(2012

学位/职称(cheng)

工学(xue)博(bo)士

九(jiu)州体(ti)育副研究员

硕士生导(dao)师

  

办公室电话

(+86)551 63600269

E-mail: leijiao@fun-genius.com


学(xue)术任职

Journal of Hazardous  Materials,Fire and Materials,Composites Science and  Technology,Composites Part A,Composites Part B,Composites Structures,ACS  Sustainable Chemistry & Engineering,Chemical Engineering Journal,Industrial & Engineering Chemistry Research,Polymer Degradation and Stability,RSC Advances,Journal of Thermal Analysis and  Calorimetry 等(deng)30余(yu)个国(guo)际学术期刊审稿人

 

科研项目

高导热、低介电腰果酚基酚醛阻燃增韧环氧树脂复合材料的制备、性能及机理研究,国家自然科学基金面上项目,主持,执行期: 2021.01-2024.12
棉麻粮食热灾害处置的关键功能材料及技术,国家重点研发计划项目课题,主持,执行期: 2017.07-2020.06
硼掺杂石墨烯/苯并噁嗪-环氧树脂高性能纳米复合材料的构筑和陶瓷化成炭机制的研究, 国家自然科学基金委青年基金,主持,执行期: 2017.01-2019.12
有害液、气复合作用阻隔机理与功能织物成形技术及功效表征和织物抗热冲击缓冲耗热机理与防火防刺割材料制备技术,国家重点研发计划项目子课题,主持,执行期: 2016.07-2019.06

 

代表(biao)性论著

Journal Papers

[1]   Guo, W.W., Wang, X.*, Huang, J.L., Zhou, Y.F., Cai, W., Wang, J.L., Song, L., Hu, Y.*, 2020, Construction of durable flame-retardant and robust superhydrophobic coatings on cotton fabrics for water-oil separation application, Chemical Engineering Journal 398: 125661.

 

[2] Qiu, S., Ma, C., Wang, X.*, Zhou, X., Feng, X.M., Yuen, R. K. K., Hu, Y.*, 2018, Melamine-containing polyphosphazene wrapped ammonium polyphosphate: A novel multifunctional organic-inorganic hybrid flame retardant, Journal of Hazardous Materials 344: 839-848.

 

[3] Guo, W.W., Liu, J.J., Zhang, P., Song, L., Wang, X.*, Hu, Y.*, 2018, Multi-functional hydroxyapatite/polyvinyl alcohol composite aerogels with self-cleaning, superior fire resistance and low thermal conductivity, Composites Science and Technology 158: 128-136.

 

[4] Cai, W., Wang, J.L., Pan, Y., Guo, W.W., Mu, X.W., Feng, X.M., Yuan, B.H., Wang, X.*, Hu, Y.*, 2018, Mussel-inspired functionalization of electrochemically exfoliated graphene: Based on self-polymerization of dopamine and its suppression effect on the fire hazards and smoke toxicity of thermoplastic polyurethane, Journal of Hazardous Materials 352: 57-69.

 

[5] Wang, X., Zhou, S., Guo, W.W., Wang, P.L., Xing, W.Y., Song, L.*, Hu, Y.*, 2017, Renewable cardanol-based phosphate as a flame retardant toughening agent for epoxy resins, ACS Sustainable Chemistry & Engineering 5: 3409-3416.

 

[6] Qiu, S.L., Wang, X.*, Yu, B., Feng, X.M., Mu, X.M., Yuen, R. K. K., Hu, Y.*, 2017, Flame-retardant-wrapped polyphosphazene nanotubes: A novel strategy for enhancing the flame retardancy and smoke toxicity suppression of epoxy resins, Journal of Hazardous Materials 325: 327-339.

 

[7] Feng, X.M.#, Wang, B.B.#, Wang, X.*, Wen, P.Y., Cai, W., Hu, Y.*, Liew, K. M., 2016, Molybdenum disulfide nanosheets as barrier enhancing nanofillers in thermal decomposition of polypropylene composites, Chemical Engineering Journal 295: 278-287.

 

[8] Wang, X., Song, L., Yang, H.Y., Xing, W.Y., Lu, H.D., Hu, Y.*, 2012, Cobalt oxide/graphene composite for highly efficient CO oxidation and its application in reducing the fire hazards of aliphatic polyesters, Journal of Materials Chemistry 22: 3426-3431. http://pubs.rsc.org/en/content/articlelanding/2012/JM/c2jm15637g#!divAbstract

 

[9] Wang, X., Hu, Y.*, Song L., Yang, H.Y., Xing, W.Y., Lu, H.D., 2011, In situ polymerization of graphene nanosheets and polyurethane with enhanced mechanical and thermal properties, Journal of Materials Chemistry 21: 4222-4227. http://pubs.rsc.org/en/content/articlelanding/2011/JM/c0jm03710a#!divAbstract

 

[10] Wang, X., Hu, Y.*, Song, L., Xing, W.Y., Lu, H.D., Lv, P., Jie, G.X., 2010, Flame retardancy and thermal degradation mechanism of epoxy resin composites based on a DOPO substituted organophosphorus oligomer, Polymer 51: 2435-2445.

 

Book chapters:

[1] Wang, X., Wang, D.Y., Chapter 4: Fire-retardant polylactic acid-based materials: preparation, properties, and mechanism. “Novel Fire Retardant Polymers and Composite Materials”, Edited by D.Y. Wang, Elsevier, 2017.

[2] Wang, X., Chapter 4: Polypropylene (PP)/polylactic acid-based biocomposites and bionanocomposites. “Polypropylene-Based Biocomposites and Bionanocomposites”, Edited by P. M. Visakh and P. Matheus, John Wiley & Sons, 2018.

[3] Hu, Y., Wang, X., Song, L., Xing, W.Y., Chapter 11: Graphene-based polymer nanocomposites by in situ polymerization or surface functionalization. “Innovative Graphene Technologies: Evaluation and Applications Volume 2”, Edited by A. Tiwari, Smithers Rapra, 2013.

 

Monograph:

[1] Hu, Y., Wang, X., Flame Retardant Polymeric Materials: A Handbook. CRC Press, 2020.








九州体育