姓名
胡彦杰
性别
男
出生年月
1979.1

职称
研究员
所属
教研室
超细材料
办公室
地点
实验十五楼
507室

Email
huyanjie@ecust.edu.cn
联系电话


招生专业
材料科学与工程（纳米材料制备、应用与工程）；材料工程



主要经历：

2019.6 至今 华东理工大学材料科学与工程学院 副院长
2012.6-2019.6 华东理工大学 材料科学与工程学院 院长助理
2015.9 - 至今，华东理工大学，材料科学与工程学院，研究员
2015.8- 2017.8 美国 Washington University in St. Louis, 能源、环境与化学工程系, 访问****
2009.9 - 2015.8，华东理工大学，材料科学与工程学院，副研究员
2007.9 - 2009.8，华东理工大学，材料科学与工程学院，讲师




主要学术成果：
胡彦杰，研究员，博士生导师。上海市高校****（****）、上海青年科技启明星、上海市浦江人才、华东理工大学青年英才校长奖。主要研究方向为燃烧合成功能纳米材料及其过程放大。主持国家自然科学基金面上项目、国家自然科学基金介尺度重大计划培育项目、上海市基础研究重点、上海市纳米专项等多项国家和省部级项目，作为子课题负责人参与了国家自然科学基金重点项目、国家国际科技合作专项等项目。曾获得2009年度上海市科学技术进步一等奖，2011年度中国石油和化学工业联合会科技进步二等奖。在AIChE J.、Ind. Eng. Chem. Res.、J. Mater. Chem. A 等期刊发表SCI收录论文70余篇；有5篇论文被选为期刊封面和内封面。论文SCI他引超过3300次，H因子32。申请PCT国际专利2项，中国发明专利39项，其中30项获得授权。国际会议邀请报告5次，国内会议邀请报告2次。



主要社会兼职：
中国颗粒学会 青年理事。上海市硅酸盐学会 监事。






主要研究方向：


功能纳米粉体的的制备及应用。包括：新能源材料、催化材料、复合材料等。

代表性论文


[1] Lu, L.,Hu, Y., Jiang, H., Zhu, C., Chen, J., Li, C. Z. Revealing the Electrochemical Mechanism of Cationic/Anionic Redox on Li-Rich Layered Oxides via Controlling the Distribution of Primary Particle Size [J].Acs Applied Materials & Interfaces, 2019, 11(29): 25796-25803.https://pubs.acs.org/doi/10.1021/acsami.9b03905




[2] Zhao, X.;Hu, Y.;Jiang, H.;Yu, J. R.;Jiang, R. X.;Li, C. Z. Engineering TiO₂supported Pt sub-nanoclusters via introducing variable valence Co ion in high-temperature flame for CO oxidation.Nanoscale2018,10(28): 13384-13392.https://pubs.rsc.org/en/Content/ArticleLanding/2018/NR/C7NR08717A#!divAbstract



[3] Bi, W.;Hu, Y.;Li, W. G.;Jiang, H.;Li, C. Z. Construction of Nanoreactors Combining Two-Dimensional Hexagonal Boron Nitride (h-BN) Coating with Pt/Al₂O₃Catalyst toward Efficient Catalysis for CO Oxidation.Industrial & Engineering Chemistry Research2018,57(40): 13353-13361.https://pubs.acs.org.ccindex.cn/doi/10.1021/acs.iecr.8b02547



[4] Li, W. G.;Hu, Y.;Jiang, H.;Jiang, N.;Bi, W.;Li, C. Z.Litchi-peel-like hierarchical hollow copper-ceria microspheres: aerosol-assisted synthesis and high activity and stability for catalytic CO oxidation.Nanoscale2018, 10(48):22775-22786.https://pubs.rsc.org/en/Content/ArticleLanding/2018/NR/C8NR04642E#!divAbstract

[5]Hu, Y.; Jiang, H.; Li, Y.; Wang, B.; Zhang, L.; Li, C.; Wang, Y.; Cohen, T.; Jiang, Y.; Biswas, P., Engineering the outermost layers of TiO₂nanoparticles using in situ Mg doping in a flame aerosol reactor. Aiche Journal 2017,63(3), 870-880.http://onlinelibrary.wiley.com/doi/10.1002/aic.15451/abstract




[6] Li, Y.; Hu, Y.; Jiang, H.; Li, C., Double-faced gamma-Fe₂O₃parallel to SiO₂nanohybrids: flame synthesis, in situ selective modification and highly interfacial activity. Nanoscale 2013,5(12), 5360-5367.http://pubs.rsc.org/en/Content/ArticleLanding/2013/NR/c3nr01087b#!divAbstract



课题组在读研究生：






沈博磊，博士研究生
研究方向：锂硫电池正极材料




Bismark Sarkodie，博士研究生
研究方向：Assessment of the CO oxidation property of doped ferric oxide catalyst prepared by spray pyrolysis.





姜男，博士研究生
研究方向：钠离子电池负极材料的结构设计及电化学性能研究




毕炜，博士研究生
研究方向：TiO2基催化材料的高温气相合成及其在光催化还原CO2上的应用



蒋洁超，博士研究生
研究方向：低浓度voc催化燃烧催化剂的制备与应用



Andrea Angulo Mavo，博士研究生
研究方向：光催化剂的制备及其性能研究



朱承贤，博士研究生
研究方向：锂离子电池正极材料的设计及电化学性能







郝彩霞，硕士研究生
研究方向：以低维碳材料为介导的水力发电技术






李玉冰，硕士研究生
研究方向：TiO2/CdS光催化材料的研究





陈功，硕士研究生
研究方向：甲苯催化氧化的应用基础研究






赵振呈，硕士研究生
研究方向：气相燃烧制备二氧化硅以及在硅橡胶中的应用





王一涛，硕士研究生
研究方向：储锂/钠负极材料设计及机理探究




潘德豪，硕士研究生
研究方向：富锂锰基正极材料的制备及电化学性能





鞠杰，硕士研究生
研究方向：多相流的数值模拟





季兵，硕士研究生
研究方向：光催化降解VOC





罗玲莉，硕士研究生
研究方向：喷雾燃烧在高熵合金制备中的应用




彭秋梅，硕士研究生
研究方向：二氧化硅高温火焰改性及其补强硅橡胶



课题组本科毕业生：
2019届：潘德豪，朱承贤，陆海梅，祁若轩，吕明辉，戴一铭
2018届：蒋瑞昕，蒋洁超，孙志光
2017届：姜男，杨朔，陈应爽，贾宁


大学生创新创业训练项目：



王成允，彭致远，廖恩达，刘童言，TiO2基催化材料的形貌结构设计及其光催化CO2还原应用（2019 校级）
陈志航、张颖、汪虎，双过渡金属取代的氧化铈基高效CO氧化催化剂的设计和快速制备（2018校级）
孙志光、朱承贤、吕明辉、高书晨，快速充放电层状镍钴锰三元/石墨烯复合正极材料的设计和制备（2017市级）
何子璇、张昊、于俊茹、蒋洁超，贵金属纳米团簇和Ti3+离子共掺杂TiO2基高效CO低温氧化催化剂设计与制备（2016 国家级）
冯楚莹、吴蓉、吴蕾，TiO₂基异质结结构光催化剂的燃烧合成及光电性能研究（2014 校级）



课题组毕业研究生：







发表论文列表



[86]. Zhou, M., Jiang, H., Hu, Y., Lu, Z., Jiang, H., Li, C. Z. Evaluation of mixing performance for the industrial-scale radial multiple jets-in-crossflow mixing structure [J]. Chemical Engineering and Processing-Process Intensification, 2019, 141.
[85]. Zhang, H., Jiang, H., Xu, Q., Hu, Y., Li, C. Z. Rapid low-temperature synthesis of hollow CuS0.55 nanoparticles for efficient electrocatalytic water oxidation [J]. Chemical Engineering Science, 2019, 195:665-670.
[84]. Zhang, H., Jiang, H., Hu, Y., Li, Y., Xu, Q., Saha, P., Li, C. Z. Tailorable surface sulfur chemistry of mesoporous Ni3S2 particles for efficient oxygen evolution [J]. Journal of Materials Chemistry A, 2019, 7(13): 7548-7552.
[83]. Yu, H., Li, Y.,Hu, Y., Jiang, H., Li, C. Z. 110th Anniversary: Concurrently Coating and Doping High-Valence Vanadium in Nickel-Rich Lithiated Oxides for High-Rate and Stable Lithium-Ion Batteries [J]. Industrial & Engineering Chemistry Research, 2019, 58(10): 4108-4115.
[82]. Xu, Q., Jiang, H., Zhang, H., Hu, Y., Li, C. Z. Heterogeneous interface engineered atomic configuration on ultrathin Ni(OH)(2)/Ni3S2 nanoforests for efficient water splitting [J]. Applied Catalysis B-Environmental, 2019, 242:60-66.
[81]. Xu, Q., Jiang, H., Li, Y., Liang, D., Hu, Y., Li, C. Z. In-situ enriching active sites on co-doped Fe-Co4N@N-C nanosheet array as air cathode for flexible rechargeable Zn-air batteries [J]. Applied Catalysis B-Environmental, 2019, 256.
[80]. Shan, Y., Xu, L., Hu, Y., Jiang, H., Li, C. Z. Internal-diffusion controlled synthesis of V2O5 hollow microspheres for superior lithium-ion full batteries [J]. Chemical Engineering Science, 2019, 200:38-45.
[79]. Lu, L., Hu, Y., Jiang, H., Zhu, C., Chen, J., Li, C. Z. Revealing the Electrochemical Mechanism of Cationic/Anionic Redox on Li-Rich Layered Oxides via Controlling the Distribution of Primary Particle Size [J]. Acs Applied Materials & Interfaces, 2019, 11(29): 25796-25803.
[78]. Li, W.G., Hu, Y., Jiang, H., Li, C.Z. Aerosol Spray Pyrolysis Synthesis of Porous Anatase TiO2 Microspheres with Tailored Photocatalytic Activity [J]. Acta Metallurgica Sinica-English Letters, 2019, 32(3): 286-296.
[77].Li, W., Hu, Y., Jiang, H., Yang, S., Li, C. Z. Facile synthesis of multi-shelled hollow Cu-CeO2 microspheres with promoted catalytic performance for preferential oxidation of CO [J]. Materials Chemistry and Physics, 2019, 226:158-168.
[76].Hua, Y., Xu, Q., Hu, Y., Jiang, H., Li, C. Z. Interface-strengthened CoP nanosheet array with Co2P nanoparticles as efficient electrocatalysts for overall water splitting [J]. Journal of Energy Chemistry, 2019, 37:1-6.
[75].Bi, W., Hu, Y., Jiang, H., Yu, H., Li, W., Li, C. Z. In-situ synthesized surface N-doped Pt/TiO2 via flame spray pyrolysis with enhanced thermal stability for CO catalytic oxidation. Applied Surface Science, 2019, 481:360-368.
[74] Li, W. G.;Hu, Y.;Jiang, H.;Jiang, N.;Bi, W.;Li, C. Z.Litchi-peel-like hierarchical hollow copper-ceria microspheres: aerosol-assisted synthesis and high activity and stability for catalytic CO oxidation.Nanoscale2018, 10(48):22775-22786.
[73] Li, Y. G.;Yu, H. F.;Hu, Y.;Jiang, H.;Li, C. Z. Surface-engineering of layered LiNi_0.815Co_0.15Al_0.035O₂cathode material for high-energy and stable Li-ion batteries.Journal of Energy Chemistry2018,27(2): 559-564.
[72] Lu, L.;Hu, Y.;Jiang, H.;Wang, Y.;Jiang, Y.;Huang, S.;Niu, X. F.;Biswas, P.;Li, C. Z. Multi-shelled LiMn_1.95Co_0.05O₄cages with a tunable Mn oxidation state for ultra-high lithium storage.New Journal of Chemistry2018,42(5): 3953-3960.
[71] Deng, Z. N.;Jiang, H.;Hu, Y.;Li, C. Z.;Liu, Y.;Liu, H. L. Nanospace-confined synthesis of coconut-like SnS/C nanospheres for high-rate and stable lithium-ion batteries.Aiche Journal2018,64(6): 1965-1974.
[70] Dong, Y. R.;Jiang, H.;Deng, Z. N.;Hu, Y.;Li, C. Z. Synthesis and assembly of three-dimensional MoS₂/rGO nanovesicles for high-performance lithium storage.Chemical Engineering Journal2018,350: 1066-1072.
[69] Zhao, X.;Hu, Y.;Jiang, H.;Yu, J. R.;Jiang, R. X.;Li, C. Z. Engineering TiO₂supported Pt sub-nanoclusters via introducing variable valence Co ion in high-temperature flame for CO oxidation.Nanoscale2018,10(28): 13384-13392.
[68] Wang, H. Y.;Jiang, H.;Hu, Y.;Deng, Z. N.;Li, C. Z. Interface engineering of few-layered MoS₂nanosheets with ultrafine TiO₂nanoparticles for ultrastable Li-ion batteries.Chemical Engineering Journal2018,345: 320-326.
[67] Chen, L.;Jiang, H.;Hu, Y.;Wang, H. Y.;Li, C. Z. In-situ growth of ultrathin MoS₂nanosheets on sponge-like carbon nanospheres for lithium-ion batteries.Science China-Materials2018,61(8): 1049-1056.
[66] Bi, W.;Hu, Y.;Li, W. G.;Jiang, H.;Li, C. Z. Construction of Nanoreactors Combining Two-Dimensional Hexagonal Boron Nitride (h-BN) Coating with Pt/Al₂O₃Catalyst toward Efficient Catalysis for CO Oxidation.Industrial & Engineering Chemistry Research2018,57(40): 13353-13361.
[65] Ma, K.;Jiang, H.;Hu, Y.;Li, C. Z. 2D Nanospace Confined Synthesis of Pseudocapacitance-Dominated MoS₂-in-Ti₃C₂Superstructure for Ultrafast and Stable Li/Na-Ion Batteries.Advanced Functional Materials2018,28(40): 9.
[64] Ye, J. N.;Cheng, J. X.;Xiao, W. Q.;Xi, L.;Xie, F.;Hu, Y.Constructing Li₃VO₄nanoparticles anchored on crumpled reduced graphene oxide for high-power lithium-ion batteries.New Journal of Chemistry2018,42(16): 13241-13248.
[63] Dong, Y. R.;Jiang, H.;Deng, Z. N.;Hu, Y.;Li, C. Z.Synthesis and assembly of three-dimensional MoS₂/rGO nanovesicles for high-performance lithium storage.Chemical Engineering Journal2018,350: 1066-1072.
[62]Cheng, N.;Zhang, L.;Mi, S. Y.;Jiang, H.;Hu, Y.;Jiang, H. B.; Li, C. Z.L1(2) Atomic Ordered Substrate Enhanced Pt-Skin Cu₃Pt Catalyst for Efficient Oxygen Reduction Reaction.Acs Applied Materials & Interfaces2018,10(44): 38015-38023.
[61] Hu, Y.; Jiang, H.; Li, Y.; Wang, B.; Zhang, L.; Li, C.; Wang, Y.; Cohen, T.; Jiang, Y.; Biswas, P., Engineering the outermost layers of TiO₂nanoparticles using in situ Mg doping in a flame aerosol reactor.Aiche Journal2017,63(3), 870-880
[60] Niu, X.; Li, Y.;Hu, Y.;Jiang,H.; Hou, X.; Li, W.; Qiu, S.; Li, C., Aerosol construction of multi-shelled LiMn2O4 hollow microspheres as a cathode in lithium ion batteries.New Journal of Chemistry2016,40(2), 1839-1844.
[59] Chen, L.; Jiang, H.; Jiang, H.; Zhang, H.; Guo, S.;Hu, Y.;Li, C., Mo-Based Ultrasmall Nanoparticles on Hierarchical Carbon Nanosheets for Superior Lithium Ion Storage and Hydrogen Generation Catalysis.Advanced Energy Materials2017,7(15).
[58] Jiang, H.; Zhang, H.; Fu, Y.; Guo, S.;Hu, Y.; Zhang, L.; Liu, Y.; Liu, H.; Li, C., Self-Volatilization Approach to Mesoporous Carbon Nanotube/Silver Nanoparticle Hybrids: The Role of Silver in Boosting Li Ion Storage.Acs Nano2016,10(1), 1648-1654.
[57] Zhu, Z.; Jiang, H.; Guo, S.; Cheng, Q.;Hu, Y.; Li, C., Dual Tuning of Biomass-Derived Hierarchical Carbon Nanostructures for Supercapacitors: the Role of Balanced Meso/Microporosity and Graphene.Scientific Reports2015,5.
[56] Wang, Y.; Zhang, L.;Hu, Y.; Li, C., In situ Surface Functionalization of Hydrophilic Silica Nanoparticles via Flame Spray Process.Journal of Materials Science & Technology2015,31(9), 901-906.
[55] Liu, P.; Li, Y.;Hu, Y.; Hou, X.; Li, C., Macro-mesoporous TiO₂Microspheres for Highly Efficient Dye-Sensitized Solar Cells.Industrial & Engineering Chemistry Research2015,54(26), 6692-6697.
[54] Li, Y.; Shen, J.;Hu, Y.; Qiu, S.; Min, G.; Song, Z.; Sun, Z.; Li, C., General Flame Approach to Chainlike MFe₂O₄Spinel (M = Cu, Ni, Co, Zn) Nanoaggregates for Reduction of Nitroaromatic Compounds.Industrial & Engineering Chemistry Research2015,54(40), 9750-9757.
[53] Li, Y.;Hu, Y.; Shen, J.; Jiang, H.; Min, G.; Qiu, S.; Song, Z.; Sun, Z.; Li, C., Rapid flame synthesis of internal Mo6+ doped TiO₂nanocrystals in situ decorated with highly dispersed MoO3 clusters for lithium ion storage.Nanoscale2015,7(44), 18603-18611.
[52] Jing, S.; Jiang, H.;Hu, Y.; Shen, J.; Li, C., Face-to-Face Contact and Open-Void Coinvolved Si/C Nanohybrids Lithium-Ion Battery Anodes with Extremely Long Cycle Life.Advanced Functional Materials2015,25(33), 5395-5401.
[51] Jiang, H.; Ren, D.; Wang, H.;Hu, Y.; Guo, S.; Yuan, H.; Hu, P.; Zhang, L.; Li, C., 2D Monolayer MoS₂-Carbon Interoverlapped Superstructure: Engineering Ideal Atomic Interface for Lithium Ion Storage.Advanced Materials2015,27(24), 3687-3695.
[50] Jiang, H.; Jia, G.;Hu, Y.; Cheng, Q.; Fu, Y.; Li, C., Ultrafine V₂O₃Nanowire Embedded in Carbon Hybrids with Enhanced Lithium Storage Capability.Industrial & Engineering Chemistry Research2015,54(11), 2960-2965.
[49] Hou, X.;Hu, Y.; Jiang, H.; Li, Y.; Niu, X.; Li, C., Sn@Ni₃Sn₄embedded nanocable-like carbon hybrids for stable lithium-ion batteries.Chemical Communications2015,51(91), 16373-16376.
[48] Hou, X.;Hu, Y.; Jiang, H.; Li, Y.; Li, W.; Li, C., One-step synthesis of SnO_xnanocrystalline aggregates encapsulated by amorphous TiO₂as an anode in Li-ion battery.Journal of Materials Chemistry A2015,3(18), 9982-9988.
[47] Fu, Y.; Jiang, H.;Hu, Y.; Dai, Y.; Zhang, L.; Li, C., Synergistic Enhancement Effect of Al Doping and Highly Active Facets of LiMn₂O₄Cathode Materials for Lithium-Ion Batteries.Industrial & Engineering Chemistry Research2015,54(15), 3800-3805.
[46] Ding, H.; Jiang, H.; Zhu, Z.;Hu, Y.; Gu, F.; Li, C., Ternary SnO₂@PANI/rGO nanohybrids as excellent anode materials for lithium-ion batteries.Electrochimica Acta2015,157, 205-210.
[45] Deng, Z.;Hu, Y.; Ren, D.; Lin, S.; Jiang, H.; Li, C., Reciprocal hybridization of MoO₂nanoparticles and few-layer MoS₂for stable lithium-ion batteries.Chemical Communications2015,51(72), 13838-13841.
[44] Zhu, Z.;Hu, Y.; Jiang, H.; Li, C., A three-dimensional ordered mesoporous carbon/carbon nanotubes nanocomposites for supercapacitors.Journal of Power Sources2014,246, 402-408.
[43] Yue, Q.; Jiang, H.;Hu, Y.; Jia, G.; Li, C., Mesoporous single-crystalline V₂O₅nanorods assembled into hollow microspheres as cathode materials for high-rate and long-life lithium-ion batteries.Chemical Communications2014,50(87), 13362-13365.
[42] Ren, D.; Jiang, H.;Hu, Y.; Zhang, L.; Li, C., Self-assembling few-layer MoS₂nanosheets on a CNT backbone for high-rate and long-life lithium-ion batteries.Rsc Advances2014,4(76), 40368-40372.
[41] Jing, S.; Jiang, H.;Hu, Y.; Li, C., Graphene supported mesoporous single crystal silicon on Cu foam as a stable lithium-ion battery anode.Journal of Materials Chemistry A2014,2(39), 16360-16364.
[40] Jing, S.; Jiang, H.;Hu, Y.; Li, C., Directly grown Si nanowire arrays on Cu foam with a coral-like surface for lithium-ion batteries.Nanoscale2014,6(23), 14441-14445.
[39] Jiang, H.;Hu, Y.; Guo, S.; Yan, C.; Lee, P. S.; Li, C., Rational Design of MnO/Carbon Nanopeapods with Internal Void Space for High-Rate and Long-Life Li-Ion Batteries.Acs Nano2014,8(6), 6038-6046.
[38] Jiang, H.; Fu, Y.;Hu, Y.; Yan, C.; Zhang, L.; Lee, P. S.; Li, C., Hollow LiMn₂O₄Nanocones as Superior Cathode Materials for Lithium- Ion Batteries with Enhanced Power and Cycle Performances.Small2014,10(6), 1096-1100.
[37] Jiang, H.; Dai, Y.;Hu, Y.; Chen, W.; Li, C., Nanostructured Ternary Nanocomposite of rGO/CNTs/MnO2 for High-Rate Supercapacitors.Acs Sustainable Chemistry & Engineering2014,2(1), 70-74.
[36] Huo, J.;Hu, Y.; Jiang, H.; Li, C., In situ surface hydrogenation synthesis of Ti³⁺self-doped TiO₂with enhanced visible light photoactivity.Nanoscale2014,6(15), 9078-9084.
[35] Huo, J.;Hu, Y.; Jiang, H.; Huang, W.; Li, C., SnO₂nanorod@TiO₂hybrid material for dye-sensitized solar cells.Journal of Materials Chemistry A2014,2(22), 8266-8272.
[34] Huo, J.;Hu, Y.; Jiang, H.; Hou, X.; Li, C., Continuous flame synthesis of near surface nitrogen doped TiO₂for dye-sensitized solar cells.Chemical Engineering Journal2014,258, 163-170.
[33] Hu, Y.; Xu, K.; Kong, L.; Jiang, H.; Zhang, L.; Li, C., Flame synthesis of single crystalline SnO nanoplatelets for lithium-ion batteries.Chemical Engineering Journal2014,242, 220-225.
[32] Hu, Y.; Jiang, H.; Liu, J.; Li, Y.; Hou, X.; Li, C., Highly compressible magnetic liquid marbles assembled from hydrophobic magnetic chain-like nanoparticles.Rsc Advances2014,4(7), 3162-3164.
[31] Hu, Y.; Huo, J.; Li, C., In situ surface hydrogenation synthesis of Ti³⁺self-doped TiO₂with enhanced visible light photoactivity.Abstracts of Papers of the American Chemical Society2014,248.
[30] Gu, F.; Huang, W.; Wang, S.; Cheng, X.;Hu, Y.; Li, C., Improved photoelectric conversion efficiency from titanium oxide-coupled tin oxide nanoparticles formed in flame.Journal of Power Sources2014,268, 922-927.
[29] Fu, Y.; Jiang, H.;Hu, Y.; Zhang, L.; Li, C., Hierarchical porous Li₄Mn₅O₁₂nano/micro structure as superior cathode materials for Li-ion batteries.Journal of Power Sources2014,261, 306-310.
[28] Dai, Y.; Jiang, H.;Hu, Y.; Fu, Y.; Li, C., Controlled Synthesis of Ultrathin Hollow Mesoporous Carbon Nanospheres for Supercapacitor Applications.Industrial & Engineering Chemistry Research2014,53(8), 3125-3130.
[27] Chen, W.; Jiang, H.;Hu, Y.; Dai, Y.; Li, C., Mesoporous single crystals Li₄Ti₅O₁₂grown on rGO as high-rate anode materials for lithium-ion batteries.Chemical Communications2014,50(64), 8856-8859.
[26] Qian, Q.;Hu, Y.-j.; Li, C.-z., PREPARATION OF Ni@ C/HDPE CONDUCTIVE COMPOSITES AND THEIR POSITIVE TEMPERATURE COEFFICIENT PERFORMANCE.Acta Polymerica Sinica2013,(9), 1159-1164.
[25] Li, Y.;Hu, Y.; Jiang, H.; Li, C., Double-faced gamma-Fe₂O₃parallel to SiO₂nanohybrids: flame synthesis, in situ selective modification and highly interfacial activity.Nanoscale2013,5(12), 5360-5367.
[24] Li, Y.;Hu, Y.; Jiang, H.; Hou, X.; Li, C., Phase-segregation induced growth of core-shell alpha-Fe2O3/SnO2 heterostructures for lithium-ion battery.Crystengcomm2013,15(34), 6715-6721.
[23] Li, Y.;Hu, Y.; Jiang, H.; Hou, X.; Li, C., Construction of core-shell Fe₂O₃@SnO₂nanohybrids for gas sensors by a simple flame-assisted spray process.Rsc Advances2013,3(44), 22373-22379.
[22] Li, Y.;Hu, Y.; Huang, G.; Li, C., Metallic iron nanoparticles: Flame synthesis, characterization and magnetic properties.Particuology2013,11(4), 460-467.
[21] Huo, J.;Hu, Y.; Jiang, H.; Huang, W.; Li, Y.; Shao, W.; Li, C., Mixed Solvents Assisted Flame Spray Pyrolysis Synthesis of TiO₂Hierarchically Porous Hollow Spheres for Dye-Sensitized Solar Cells.Industrial & Engineering Chemistry Research2013,52(32), 11029-11035.
[20] Hu, Y.; Shi, Y.; Jiang, H.; Huang, G.; Li, C., Scalable Preparation of Ultrathin Silica-Coated Ag Nanoparticles for SERS Application.Acs Applied Materials & Interfaces2013,5(21), 10643-10649.
[19] Hou, X.; Jiang, H.;Hu, Y.; Li, Y.; Huo, J.; Li, C., In Situ Deposition of Hierarchical Architecture Assembly from Sn-Filled CNTs for Lithium-Ion Batteries.Acs Applied Materials & Interfaces2013,5(14), 6672-6677.
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[14] Liu, J.;Hu, Y.; Gu, F.; Li, C., Large-scale synthesis of hollow titania spheres via flame combustion.Particuology2011,9(6), 632-636.
[13] Hu, Y.; Ding, H.; Li, C., Preparation of hollow alumina nanospheres via surfactant-assisted flame spray pyrolysis.Particuology2011,9(5), 528-532.
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[93]赵醒，胡彦杰，蒋洁超，李春忠. 过渡金属原位掺杂Pt/TiO2的喷雾燃烧制备及其CO氧化性能[J].华东理工大学学报(自然科学版),2018,44(06):823-830.
[92]陈灵，江浩，胡彦杰，王海燕，李春忠.在多孔碳纳米球上原位生长超薄MoS2纳米片构筑锂离子电池负极材料及其性能研究（英文）[J].Science China Materials,2018,61(08):1049-1056.
[91]徐南，李云峰，于俊茹，江浩，胡彦杰 ，李春忠.喷雾燃烧法制备Pt/TixCe(1-x)O2纳米颗粒及其CO催化氧化性能[J].华东理工大学学报(自然科学版),2018,44(01):47-54.
[90]谢飞，胡彦杰，李云峰，江浩，李春忠.Li3VO4/RGO纳米复合负极材料的制备及其电化学性能[J].华东理工大学学报(自然科学版),2018,44(01):55-61.
[89] 钱綮，胡彦杰，李春忠.Ni@C/HDPE复合材料的制备及其正温度系数性能研究[J].高分子学报,2013(09):1159-1164.
[88]孔令艳，胡彦杰，侯晓宇，张玲，李春忠. 喷雾燃烧原位催化制备SnO2纳米线及其生长机理[J].中国粉体技术, 2013,19(04):1-4.
[87] 宁靖卫，胡彦杰，李春忠，多重射流气相燃烧反应器内三维流场的数值模拟，华东理工大学学报：自然科学版，2012, 38(5): 546-552
[86] 胡彦杰，李春忠，气相燃烧法制备纳米材料的研究进展，中国材料进展，2012, 31(3): 44-55
[85] 吴志文，胡彦杰，李春忠，喷雾燃烧制备SnO₂纳米棒及其气敏性能，过程工程学报，2012, 12(2): 330-334
[84] 丁宏秋，胡彦杰，李春忠，氢氧焰燃烧制备纳米Al2O3颗粒及其分散性能，过程工程学报，2011,11(1): 137-142
[83] 王慧婷，胡彦杰，李春忠，氢氧焰燃烧合成纳米二氧化钛颗粒及其分散行为，中国粉体技术，2010, 16(4): 43-46
[82] 罗美芳，胡彦杰，赵映红，李春忠，纳米二氧化硅的流态化行为及卧式流化床多釜串联模型，过程工程学报，2010，10(2): 17-21
[81] 田宝柱, 李春忠*，顾锋，姜海波，胡彦杰，喷雾燃烧热分解制备Cr掺杂TiO₂纳米粒子的可见光催化性能，无机材料学报，2009，24(4): 661-665（IF=0.441）
[80] 姜海波，胡彦杰，李春忠*，脉冲电压沉积制备金属Ni纳米线阵列及磁性能，功能材料，2008，39(9):1528-1531
[79] 姜海波，李春忠*，赵尹，胡彦杰，阳极氧化电压对多孔氧化铝膜生长过程的影响，过程工程学报，2007，7(2): 409-413
[78] 胡彦杰，李春忠*，丛德滋，姜海波，赵尹，氢氧焰燃烧合成核壳结构纳米TiO₂/SiO₂复合颗粒及机理分析，无机材料学报，2007，22(2): 205-208（IF=0.441）
[77] 胡彦杰，李春忠*，顾锋，姜海波，赵尹，多重射流燃烧反应制备TiO₂/SiO₂纳米复合颗粒的形态和结构，无机化学学报，2006，22(12): 2253-2257（IF=0.532）
[76] 何颖，李春忠*，胡彦杰，气相法纳米二氧化硅补强硅橡胶界面－结合橡胶，华东理工大学学报，2006，32(1): 51-54
[75] 何颖，李春忠*，程起林，胡彦杰，气相二氧化硅聚集体的网络结构对硅橡胶性能的影响，功能材料，2005, 36(12): 1915-1918
[74] 何颖，李春忠*，胡彦杰，纳米二氧化硅补强硅橡胶的结构及性能，华东理工大学学报，2005，31(4): 456-459


授权专利

[1]胡彦杰，刘杰，李春忠，一种制备纳米颗粒的气相燃烧反应器及其工业应用，2010-06-02，中国，ZL1.1
[2] 胡彦杰，刘杰，李春忠，一种核壳结构二氧化钛的制备方法，2010-06-23，中国，ZL3.X
[3]胡彦杰，刘杰，李春忠，姜海波，一种二氧化锡纳米线的制备方法，2010-12-29，中国，ZL8.9
[4]胡彦杰，刘杰，李春忠，姜海波，一种二氧化锡纳米棒的制备方法，2011-02-09，中国，ZL7.4
[5]胡彦杰，李春忠，李云峰，霍军朝，一种碳包覆核壳结构纳米颗粒的连续化制备方法，2013-04-24，中国，ZL9.X
[6]胡彦杰，李春忠，霍军朝，黄文娟，一种具有高可见光吸收性的二氧化钛的连续化制备方法，2014-04-09，中国，ZL7.6
[7]胡彦杰，李春忠，李云峰，一种基于相分离的功能性杂化纳米颗粒的制备方法，2015-04-08，中国，ZL4.8
[8]胡彦杰，李春忠，侯晓宇，徐可心，一种贵金属金颗粒催化生长氧化锡纳米线的制备方法，2014-05-21，中国，ZL5.X
[9]胡彦杰，李春忠，刘鹏飞，王斌淇，江浩，一种具有多级孔结构的二氧化钛微球及其制备方法和应用，2016-04-13，中国，ZL4.2
[10]胡彦杰，李春忠，李云峰，牛晓凤，一种三氧化钼包覆钼掺杂二氧化钛纳米复合颗粒及其制备方法与应用，2017-10-24，中国，ZL5.0
[11]李春忠，胡彦杰，蔡平雄，丛德滋，干路平，粒径均匀的气相纳米二氧化钛的制备方法，2007-03-07，中国，ZL2
[12]李春忠，张祖钧，丛德滋，岳群，干路平，胡彦杰，辅助燃烧反应器及其在气相法制备纳米二氧化硅中应用，2007-05-09，中国，ZL**.5
[13]李春忠，胡彦杰，丛德滋，气相法制备的纳米二氧化硅的连续化流化床及工业应用，2007-12-12，中国，ZL7.0
[14]李春忠，胡彦杰，顾锋，姜海波，一种二氧化锡纳米棒的制备方法，2007-12-12，中国，ZL8.6
[15]李春忠，胡彦杰，姜海波，顾锋，一种粒径均匀的二氧化锡纳米颗粒的制备方法，2008-03-26，中国，ZL7.1
[16]李春忠，王兰娟，胡彦杰，顾锋, 制备螺旋纳米碳纤维的方法，2008-12-3，中国，ZL6.9
[17]李春忠，刘杰，胡彦杰，一种空心球结构二氧化钛的制备方法，2010-06-16，中国，ZL2.5
[18] 李春忠，胡彦杰，姜海波，顾峰，制备锑掺杂二氧化锡纳米导电粉体的方法，2010-12-22，中国，ZL3.9
[19] 李春忠，周秋玲，胡彦杰，顾峰，一种氧化铁纳米线的制备方法，2010-12-22，中国，ZL0.7
[20] 李春忠，胡彦杰，顾峰，姜海波，一种纳米氧化铝空心球结构的制备方法，2011-02-09，中国，ZL2.4
[21]李春忠，周秋玲，顾峰，胡彦杰，一种花形氧化镍的制备方法，2011-02-09，中国，ZL9.4
[22] 李春忠，胡彦杰，丛德滋，一种核壳式TiO2SiO2纳米复合颗粒的制备方法和设备，2011-02-28，中国，ZL6.4
[23] 李春忠，王淑芬，曹宏明，顾锋，胡彦杰，一种纳米γ-Fe2O3空心磁性微球的制备方法，2011-04-06，中国，ZL1.5
[24] 李春忠，陈吉涛，顾锋，胡彦杰，一种具有高初始荧光强度的长余辉发光材料的制备方法，2011-06-08，中国，ZL7.2
[25] 李春忠，丁宏秋，胡彦杰，一种多孔纳米氧化铝空心球的制备方法，2012-11-07，中国，ZL4.8
[26] 李春忠，胡彦杰，刘杰，王云，一种气相粉体合成过程中原位包覆和表面改性的方法，2013-01-30，中国，ZL6.3