盛友杰，1988年，安徽阜阳人，中共党员，副教授，项目博导，中国科学技术大学博士，美国宾夕法尼亚大学访问学者，国家注册二级建造师，《Journal of Safety and Sustainability》、《消防科学与技术》、《西安科技大学学报》等期刊青年编委，《Gels》（Q1）、《Fire》（Q2）客座主编，《当代化工研究》编委，中国化工学会会员。主持国家自然科学基金项目面上/青年项目、中国博士后基金面上项目、中国科学技术大学火灾科学国家重点实验室开放课题、陕西省自然科学基础研究计划、国家电网科技项目及西安科技大学优秀青年科学基金和引进人才基金等项目10余项，参与国家和省部级科研项目10余项。以第一作者在Journal of Colloid and Interface Science、Powder Technology、Chemical Engineering Science、Journal of Molecular Liquids、Fire Technology等期刊发表SCI收录论文30余篇，申请国家发明专利11项、授权4项。获省部级科技进步奖3项，获美国消防协会和消防工程师协会会刊《Fire Technology》2021年度最佳论文奖，获第13届亚澳火灾科学技术大会最佳报告奖。担任Chemical Engineering Journal、Powder Technology、Chemical Engineering Science、Journal of Molecular Liquids、Langmuir、Colloids and Surfaces A、Fire Technology等20余个SCI期刊审稿人，《材料导报》（EI）特邀审稿专家。

教育经历

2013.09-2018.06：中国科学技术大学火灾科学国家重点实验室，博士

2016.11-2017.12：美国宾夕法尼亚大学，访问学者

2009.09-2013.06：安徽理工大学，弹药工程与爆炸技术专业，学士

研究方向

消防科学与技术

火灾防治关键技术

多功能环保防灭火新材料

科研项目

[1]国家自然科学基金面上项目：无机纳米颗粒弥散强化的高稳定无氟泡沫灭火机制及性能调控，52374229，2024.01-2027.12，主持，在研

[2]西安科技大学优秀青年科学基金项目，2025.01-2027.12，主持，在研

[3]国网安徽省电力有限公司电力科学研究院科技项目：压缩空气泡沫灭火系统在不同环境条件下的灭火性能测试(压缩空气泡沫灭火系统在多重环境因素影响下的灭火效能提升研究)，2024.05-2025.12，主持，在研

[4]安徽中科安和科技有限公司科技项目：特高压变压器典型撕裂场景压缩空气泡沫喷淋覆盖效果研究，2024.06-2024.12，主持，结题

[5]国安达股份有限公司科技项目：变电站缆式线型感温火灾探测器评估技术服务，2024.08-2024.12，主持，结题

[6]国网安徽省电力有限公司电力科学研究院科技项目：特高压变电站压缩空气泡沫技术方案研究（特高压变电站压缩空气泡沫灭火关键技术研究），2023.07-2023.12，主持，结题

[7]国家自然科学基金青年科学基金项目：无机纳米颗粒对无氟泡沫灭火剂稳定性影响机制研究，51904230，2020.01-2022.12.主持，结题

[8]中国博士后科学基金：无机纳米颗粒对多组分泡沫灭火剂稳定性影响及机理研究，2019M653700，2019.05-2020.12，主持，结题

[9]中国科学技术大学火灾科学国家重点实验室开放课题：SiO₂纳米颗粒稳定的环境友好型泡沫灭火剂研制及其特性研究，HZ2019-KF03，2019.02-2021.01，主持，结题

[10]陕西省自然科学基础研究计划，环保型NP-泡沫灭火剂热稳定机理研究，2020JQ-755，2020.01-2021.12，主持，结题

[11]西安科技大学青年博士启动基金，环保型无氟泡沫灭火剂制备及其特性研究，6310118032，2018.09-2020.08，主持，结题

招生专业

招收安全工程、消防工程、应用化学、有机合成等相关专业博士、硕士研究生。

截至2025年，课题组毕业硕士研究生8人，7人获得硕士研究生国家奖学金。

代表性论文

[1] Youjie S, Shanwen Z, Wenzhi M, et al. Tuning stability, rheology, and fire-extinguishing performance of advanced firefighting foam material by inorganic nanoparticle flame retardants[J]. Journal of Colloid and Interface Science, 2024, 667.

[2] Youjie S, Die H, Yang L, et al. Tuning thermal stability of fluorine-free foam by nano-MDH inorganic flame retardant[J]. Journal of Molecular Liquids, 2024, 415.

[3] Youjie S, Die H, Wenzhi M, et al. Oil resistivity of fluorine-free foams stabilized by silica nanoparticles and mixture of silicone and hydrocarbon surfactants [J]. Journal of Sol-Gel Science and Technology, 2024,112.

[4] Shanwen Z, Youjie S^*, Xiao L, et al. Rheological properties of fluorine-free foams stabilized by aluminum hydroxide nanoparticles and mixture of siloxane and hydrocarbon surfactants [J]. Journal of Molecular Liquids, 2024, 401.

[5] Youjie S, Die H, Zhenping W, et al. Interaction mechanism of MDH nanoparticles and binary surfactants in foams [J]. Journal of Molecular Liquids, 2024, 398.

[6] Zhenping W, Hanling Z, Youjie S^*,et al. Enhancement effect of β-Alumina nanoparticle concentration on foam thermal stability of the mixture of fluorocarbon/hydrocarbon surfactants[J]. Journal of Molecular Liquids, 2024, 393.

[7] Jiaqing Z, Fengju S, Youjie S^*,et al. Research on key parameters and fire extinguishing effectiveness of compressed air foam system used for UHV substation[J]. Fire Technology, 2024.

[8] Jiaqing Z, Fengju S, Youjie S^*,et al. Influence of typical liquid fuels on foam properties of critical components of environmentally friendly aqueous film-forming foams [J]. Journal of Molecular Liquids, 2024, 401.

[9] Youjie S, Hanling Z, Canbin Y, et al. Enhancement effect of alumina nanoparticles with distinct crystal structures on foam stability of multiple surfactants [J]. Journal of Sol-Gel Science and Technology, 2023: 1-11.

[10] Youjie S, Hanling Z, Ying G, et al. Stability and rheological properties of foams co-stabilized by hydrophilic silica nanoparticles and amino acid/alkyl glycoside surfactants [J]. Journal of Molecular Liquids, 2023, 382.

[11] Youjie S, Yang L, Li M, et al. Thermal stability of highly stable foams stabilized by nanoparticles and surfactants [J]. Thermal Science and Engineering Progress, 2023, 43.

[12] Youjie S, Hanling Z, Li M, et al. Rheological properties of gel foam co-stabilized with nanoparticles, xanthan gum, and multiple surfactants [J]. Gels (Basel, Switzerland), 2023, 9(7).

[13] Youjie S, Shanwen Z, Die H, et al. Investigation on thermal stability of highly stable fluorine-free foam co-stabilized by silica nanoparticles and multi-component surfactants [J]. Journal of Molecular Liquids, 2023, 382.

[14] Youjie S, Yang L, Yunchuan P, et al. Effect of hydrophilic silica nanoparticles on foam properties of mixtures of silicone and hydrocarbon surfactants [J]. Chemical Engineering Science, 2023, 276.

[15] Youjie S, Shanwen Z, Yang L, et al. Foam stabilized by the mixture of silicone and hydrocarbon surfactants in the presence of nanoparticles with different specific surface area [J]. Journal of Sol-Gel Science and Technology, 2023, 106(2).

[16] Youjie S, Hanling Z, Song X, et al. Comparative study on foaming and foam stability of multiple mixed systems of fluorocarbon, hydrocarbon, and amino acid surfactants [J]. Journal of Surfactants and Detergents, 2023.

[17] Youjie S, Canbin Y, Yang L, et al. Thermal stability of gel foams co-stabilized by nano-aluminum hydroxide and surfactants [J]. Journal of Sol-Gel Science and Technology, 2022, 105(1).

[18] Youjie S, Yunchuan P, Shanwen Z, et al. Thermal stability of foams stabilized by fluorocarbon and hydrocarbon surfactants in presence of nanoparticles with different specific surface areas [J]. Journal of Molecular Liquids, 2022, 365.

[19] Youjie S, Yang L, Wenzhi M, et al. Spreading behavior of firefighting foam solutions on typical liquid fuel surfaces [J]. Journal of Surfactants and Detergents, 2022, 25(6).

[20] Youjie S, Yang L, Canbin Y, et al. Influence of nanoparticles on the foam thermal stability of mixtures of short-chain fluorocarbon and hydrocarbon surfactants [J]. Powder Technology, 2022, 403.

[21] Youjie S,Canbin Y,Yunchuan P, et al. Influence of nano-aluminum hydroxide on foam properties of the mixtures of hydrocarbon and fluorocarbon surfactants[J]. Journal of Molecular Liquids,2022,357.

[22] Youjie S, Yunchuan P, Shanwen Z, et al. Study on thermal stability of gel foam co-stabilized by hydrophilic silica nanoparticles and surfactants [J]. Gels, 2022, 8(2).

[23] Youjie S, Yunchuan P, Canbin Y, et al. Influence of nanoparticles on rheological properties and foam properties of mixed solutions of fluorocarbon and hydrocarbon surfactants [J]. Powder Technology, 2022, 398.

[24] Youjie S, Canbin Y, Yang L, et al. Thermal stability of gel foams stabilized by xanthan gum, silica nanoparticles and surfactants [J]. Gels (Basel, Switzerland), 2021, 7(4).

[25] Youjie S, Menghua X, Shanwen Z, et al. Effect of xanthan gum and silica nanoparticles on improving foam properties of mixed solutions of short-chain fluorocarbon and hydrocarbon surfactants [J]. Chemical Engineering Science, 2021, 245.

[26] Youjie S, Menghua X, Ma L, et al. Environmentally friendly firefighting foams used to fight flammable liquid fire[J]. Fire Technology, 2021, 57(5).

[27] Youjie S, Menghua X, Yubo W, et al. Aggregation behavior and foam properties of the mixture of hydrocarbon and fluorocarbon surfactants with addition of nanoparticles[J]. Journal of Molecular Liquids,2021,323.

[28] Youjie S, Menghua X, Shanwen Z, et al. Role of nanoparticles in the performance of foam stabilized by a mixture of hydrocarbon and fluorocarbon surfactants [J]. Chemical Engineering Science,2020,228.

[29] Youjie S, Ning J, Shouxiang L, et al. Molecular interaction and foaming property of the mixtures of hydrocarbon, fluorocarbon and silicone surfactants[J]. Journal of Molecular Liquids,2019,296.

[30] Youjie S, Ning J, Shouxiang L, et al. Study of environmental-friendly firefighting foam based on the mixture of hydrocarbon and silicone surfactants [J]. Fire Technology, 2019, 56(3).

[31] 张佳庆,尚峰举,盛友杰^*等.变压器油对氟碳与碳氢表面活性剂体系泡沫性能影响[J].中国安全科学学报,2024,34(10):95-104.

[32] 张佳庆,尚峰举,盛友杰^*等.典型水成膜泡沫灭火剂流变性研究[J/OL].材料导报,1-13[2025-02-24].

[33] 盛友杰,彭云川,张含灵等.SiO₂纳米颗粒对环保型泡沫灭火剂稳定性的影响[J].材料导报, 2023, 37(18): 263-268.

[34] 盛友杰,李杨,阎灿彬等.高分子稳泡剂和SiO₂纳米颗粒对二元表面活性剂复配体系泡沫性能影响[J].高分子材料科学与工程, 2023, 39(04): 33-39+49.