尹宏峰 研究员
新能源技术研究所（工业催化团队负责人）
中国科学院宁波宁波材料技术与工程研究所
地址：浙江省宁波市镇海区中官西路1219号，315201
手机：** 电话：（0574）**
传真：（0574）** 电子邮箱： yinhf@nimte.ac.cn

尹宏峰，研究员，1999年毕业于南京大学化学化工学院化学系，获学士学位；2006年获美国俄亥俄州立大学化学专业博士学位，师从Malcolm H. Chisholm教授；2007年-2010年在美国能源部橡树岭国家实验室从事博士后研究。2010年9月以“团队行动”人才计划引进，加入中科院宁波材料所燃料电池事业部，任研究员，从事SOFC燃料电池燃料气体前处理及尾气后处理，电极材料的合成及电极表面电化学反应机理研究。2014年7月转入中科院宁波材料所新能源技术研究所工业催化团队，2015年8月担任团队负责人，从事纳米材料的合成及其在催化反应中的应用与机理研究、镍基催化剂在燃料电池原料气重整反应中的催化性能、抗积碳性能和反应机理研究，同时还主持开发煤焦油加氢制清洁燃料油技术、合成气制化工产品工业化技术等。已在国际一流杂志PNAS, ACS Catalysis, Chem. Comm., JPCC., J.Mater.Chem.A，Langmuir等学术期刊上发表学术论文40余篇，申请或授权发明专利15项，授权2项。曾在国家973计划青年科学家专题“高效金属-氧化物复合催化剂的理性设计与性能调控”中担任方向负责人。目前承担国家自然科学基金项目和浙江省自然科学基金项目，宁波市重大专项等。

主持或参与项目：
1. “高效金属-氧化物复合催化剂的理性设计与性能调控”，科技部973计划青年科学家专项，方向负责人；
2. “高活性纳米复合物(Au-MO_x)@m-SiO₂介孔核壳结构的合成及其在高温氧化中的催化和抗烧结性研究” ，国家自然科学基金面上项目，主持；
３. 浙江省自然科学基金，主持
４.“合成气制乙二醇工艺技术开发” ，企业横向项目，主持　
5. “甘油制1，3-丙二醇催化工艺技术开发”，企业横向项目，主持　
6. “烯烃高值转化的高效催化工艺开发”，宁波市“科技创新2025”重大专项，主持。

发表文章：
[1] Q. Li, H.B. Yu, K.J. Li, H.F. Yin^*, S.H. Zhou*, “Controlled Synthesis and Enhanced Catalytic Activity of Well-defined Close-contact Pd-ZnO Nanostructures”, Langmuir, accepted.
[2]M.M. Liu, W.Q. Tang, Y.S. Xu, H.B. Yu, H.F. Yin*, S.L. Zhao *, S.H. Zhou *, “Pd-SnO2/Al2O3 heteroaggregate nanocatalysts for selective hydrogenations of p-nitroacetophenone and p-nitrobenzaldehyde”. Appl. Catal. A-General. 549(2018), 273-279.
[3]K.J. Li, J.X. Wei, H.B. Yu, P.Y. Xu, J.H. Wang, H.F. Yin, Martien A. C. Stuart, J.Y. Wang,* and S.H. Zhou*, “A Generic Method for Preparing Hollow Mesoporous Silica Catalytic Nanoreactors with Metal Oxide Nanoparticles inside Their Cavities”, Angewa. Chemie. Intl. Ed. 57(2018), 50, 16458-16463.
[4]X.Y. Liang, C.Z. Wu, X.L.Yu, W.X. Huang, H.F. Yin*,“Pd Doped La0.1Sr0.9TiO3 as High-Temperature Water-Gas Shift Catalysts: In-Situ Formation of Active Pd Phase”, Catal. Letters, 148(2018), 9, 2830-2838.
[5]M. Liu, W. Tang,Z. Xie,H. Yu, H. Yin,Y. Xu,* S. Zhao*, S. Zhou*, “Design of Highly Efficient Pt-SnO2 Hydrogenation Nanocatalysts using Pt@Sn Core−Shell Nanoparticles”，ACS Catal.7(2017), 3, 1583–1591.
[6] X.L. Yu, H.B. Yu, Z. Lim, G.M. Yang, Z.H. Xie, S.H. Zhou, H.F. Yin* “Size-controlled synthesis of thermal stable single-cored Ru@H-SiO₂ core-shell nanoparticles”，Chemical Physics Letters，654 (2016)， 103-106.
[7] Z. Lim, C.Z. Wu, W.G. Wang, K. Choy*, H.F. Yin* “Porosity effect on ZrO₂ hollow shells and hydrothermal stability for catalytic steam reforming of methane” J. Mater. Chem. A, 4(2016), 153–159
[8] Z. Lim, C.Z. Wu, W.G. Wang, K. Choy*, H.F. Yin* “A novel and anti-agglomerating Ni@yolk–ZrO₂ structure with sub-10 nm Ni core for high performance steam reforming of methane” RSC Advances, 5(2015), 61925–61932.
[9] L.J. Hu; C. Zhou; C.Z. Wu; H.F. Yin*; S.H. Zhou and W.G. Wang, “Fe, Pd co-incorporated LaCoO₃ perovskites: modification of thermal stability and catalytic activity for gasoline vehicle exhausts purification.” Eur. J. Inorg. Chem. 13(2015), 2317–2322.
[10]C. Zhou; Y.X. Zhang; L.J. Hu; H.F. Yin*; W.G. Wang, “Synthesis, characterization and catalytic activity of La_0.8Sr_0.2Co_1-xMn_xO₃ (x=0.0, 0.1, 0.3, 0.5) perovskite oxides for three way catalysis.” Chem. Eng. Tech., 38(2015), 291-296.
[11]C. Zhou; Z.J. Feng; Y.X. Zhang; L.J. Hu; R. Chen; B. Shan*; H.F. Yin*; W. Wang; A. Huang, “Enhanced catalytic activity for NO oxidation over Ba doped LaCoO₃ catalyst.” RSC Advances, 5(2015), 28054-28059.
[12]C. Zhou, X. Liu, C.Z. Wu, Y.W. Wen, Y.J. Xue, R. Chen, Z.L. Zhang, B. Shan,* H.F. Yin* ,W.G. Wang, “NO oxidation catalysis on copper doped hexagonal phase LaCoO₃: a combined experimental and theoretical study”Phys.Chem.Chem.Phys.,16(2014) 5106-5112.
[13] C.Z. Wu, Z.Y Lim, C. Zhou, W.G. Wang, S.H. Zhou, H.F. Yin* , Y.J. Zhu，“A Soft-templated method to synthesize Sinteringresistant Au-mesoporous-silica Core-Shell nanocatalysts with Sub-5 nm Single-core， Chem. Comm. 49(2013), 31, 3215-3217.
[14] Y.B. Hu, K. Tao, C.Z. Wu, C. Zhou, H.F. Yin*, S.H. Zhou*, Size-Controlled Synthesis of Highly Stable and Active Pd@SiO₂ Core-Shell Nanocatalysts for Hydrogenation of Nitrobenzene” J. Phys. Chem. C, 117(2013),17, 8974-8982.
[15] Z.B. Peng, H. Miao, H.F. Yin, C. Xu, W.G. Wang “PEG-assisted Solid State Synthesis and Characterization of Carbon-Coated Li₂MnSiO₄ Cathode Materials for Lithium Ion Battery” Intl. J. Electronchem. Sci., 8(2013) 903-913.
[16] 彭振博，苗鹤，尹宏峰，赵文光，王蔚国， 喷雾干燥-高温固相法合成锂离子电池正极材料-Li₂MnSiO₄的研究，材料导报，2012，26(24) 46-49.
[17] H.F. Yin, Z. Ma, M.F. Chi, S. Dai, Heterostructured catalysts prepared by dispersing Au@Fe₂O₃ core-shell structures on supports and their performance in CO oxidation, Catalysis Today 160 (2011) 87-95.
[18] H.F. Yin, Z. Ma, H.G. Zhu, M.F. Chi, S. Dai, Evidence for and mitigation of the encapsulation of gold nanoparticles within SiO₂ matrix upon calcining Au/SiO₂ catalysts at high temperatures: implication to catalyst deactivation, Applied Catalysis A: General 386 (2010) 147-156.
[19] Z. Ma, H.F. Yin, S. Dai, Influence of preparation methods on the performance of metal phosphate-supported gold catalysts in CO oxidation, Catalysis Letters 138 (2010) 40-45.
[20] H.F. Yin, Z. Ma, M.F. Chi, S. Dai, Activation of dodecanethiol-capped gold catalysts for CO oxidation by treatment with KMnO₄ or K₂MnO₄, Catalysis Letters 136 (2010) 209-221.
[21] E.W. Hagaman, J. Jiao, B.H. Chen, Z. Ma, H.F. Yin, S. Dai, Surface alumina species on modified titanium oxide: a solid-state ²⁷Al MAS and 3QMAS NMR investigation of catalyst supports, Solid State Nuclear Magnetic Resonance 37 (2010) 82-90.
[22] Z. Ma, H.F. Yin, S. Dai, Performance of Au/M_xO_y/TiO₂ catalysts in water-gas shift reaction, Catalysis Letters 136 (2010) 83-91.
[23] W. Dmowski , H.F. Yin, S. Dai, S.H. Overbury , T. Egami, Atomic Structure of Au Nanoparticles on a Silica Support by an X-ray PDF Study” Journal of Physical Chemistry C, 114(2010), 6983-6988.
[24] J.N. Zhang, Z. Ma, J. Jiao, H.F. Yin, W.F. Yan, E.W. Hagaman, J.H. Yu, S. Dai Surface functionalization of mesoporous silica SBA-15 by liquid-phase grafting of zirconium phosphate. Microporous Mesoporous Materials 129(2010), 200-209.
[25] C. Wang, H.F. Yin, S. Dai, S.H. Sun, A General Approach to Noble Metal-Metal Oxide Dumbbell Nanoparticles and Their Catalytic Application for CO Oxidation”, Chemistry of Materials, 22(2010), 3277-3282.
[26] C. Bouvy, G.A. Baker, H.F. Yin, S. Dai. Growth of Gold Nanosheets and Nanopolyhedra in Pyrrolidinium-Based Ionic Liquids: Investigation of the Cation Effect on the Resulting Morphologies. Crystal Growth & Design 10(2010), 1319-1322.
[27] J.N. Zhang, Z. Ma, J. Jiao, H.F. Yin, W.F. Yan, E.W. Hagaman, J.H. Yu, S. Dai, Layer-by-layer grafting of titanium phosphate onto mesoporous silica SBA-15 surfaces: synthesis, characterization, and applications,Langmuir 25 (2009) 12541-12549.
[28] S.H. Zhou, Z. Ma, H.F. Yin, Z.L. Wu, B. Eichhorn, S.H. Overbury, S. Dai, Low-temperature solution-phase synthesis of NiAu alloy nanoparticles via butyllithium reduction: influences of synthesis details and application as the precursor to active Au-NiO/SiO₂ catalysts through proper pretreatment, Journal of Physical Chemistry C 113 (2009) 5758-5765.
[29] C. Wang, H.F. Yin, R. Chan, S. Peng, S. Dai, S.H. Sun, One-Pot Synthesis of Oleylamine Coated AuAg Alloy NPs and Their Catalysis for CO Oxidation, Chemistry of Materials, 21(2009), 433-435.
[30] S. Peng, Y.M. Lee, C. Wang, H.F. Yin, S. Dai, S.H. Sun, A Facile Synthesis of Monodisperse Au Nanoparticles and Their Catalysis of CO Oxidation, Nano Research, 1(2008), 229-234.
[31] Z. Ma, H.F. Yin, S.H. Overbury, S. Dai, Metal phosphates as a new class of supports for gold nanocatalysts, Catalysis Letters 126 (2008) 20-30.
[32] S.H. Zhou, H.F. Yin, V. Schwartz, Z.L. Wu, D. Mullins, B. Eichhorn, S.H. Overbury, S. Dai. In Situ Phase Separation of NiAu Alloy Nanoparticles for Preparing Highly Active Au/NiO CO Oxidation Catalysts. ChemPhysChem 9(2008), 2475-2479.
[33] H.F. Yin, Z. Ma, S.H. Overbury, S. Dai, Promotion of Au(en)₂Cl₃-derived Au/fumed SiO₂ by treatment with KMnO₄,Journal of Physical Chemistry C 112 (2008) 8349-8358.
[34] H.F. Yin, C. Wang, H.G. Zhu, S.H. Overbury, S.H, Sun, S. Dai, Colloidal deposition synthesis of supported gold nanocatalysts based on Au-Fe3O4 dumbbell nanoparticles, Chemical Communications, 36(2008), 4357-4359
[35] M.H. Chisholm, J.C. Gallucci, H.F. Yin. 18-Membered cyclic esters derived from glycolide and lactide: preparations, structures and coordination to sodium ions, Dalton Transactions, 2007, 4811-4821.
[36] M.H. Chisholm, J.C. Gallucci, H.F. Yin. Cyclic-Esters and Cyclodepsipeptides Derived from Lactide and 2,5-Morpholinediones. Proceedings of National Academy of Science. U. S. A. (103)2006, 103, 15315-15320.
[37] M.H. Chisholm, J.C. Gallucci, H.F. Yin, H.S. Zhen, Hongshi. Arylzinc Alkoxides: [ArZnOCHPrⁱ₂]₂ and Ar₂Zn₃(OCHPrⁱ₂)₄ When Ar = C₆H₅, p-CF₃C₆H₄, 2,4,6-Me₃C₆H₂, and C₆F₅. Inorganic Chemistry 44(2005), 4777-4785.
[38] G. Li, F.F Zhang, H. Chen, H.F. Yin, H.L. Chen, S.Y. Zhang. Determination of Co-C bond dissociation energies for organocobalt complexes related to coenzyme B12 using photoacoustic calorimetry. J. Chem. Soc, Dalton Transactions 2002, 105-110.
[39] F.F Zhang, G. Li, H.F. Yin, S.Y. Zhang, H.L. Chen. Photoacoustic studies on radical kinetics and enthalpy change for photolysis of methylcobalamin. Progress in Natural Science (11)2001, S330-S333.
[40] G. Li, F.F Zhang, H. Chen, H.F. Yin, H.L. Chen, S.Y. Zhang. Using time-resolved photoacoustic calorimetry to study triplet energy and lifetime for benzophenone-KI system. Chinese. Science Bulletin 45(2000), 45, 335-338.
[41] F.F Zhang, G. Li, H.F. Yin, H.L. Chen, S.Y. Zhang. Determination of Co-C bond dissociation energy for n-C₄H₉Co(Salen)H₂O using photoacoustic calorimetry. Chinese Journal of Inorganic Chemistry 16(2000), 144-146.
申请专利：
[1]余小龙，尹宏峰，于洪波。用于加氢合成对氯苯胺反应的催化剂、其制备方法及应用。申请号：CN2.X。公告号：CNA，已授权。
[2]薛业建，王蔚国，尹宏峰，周陈。一种高性能低成本三元催化剂的制备方法。专利号：4.7，已授权。
[3]许杰、尹宏峰。一种工业萘生产的精萘方法。申请号：1.4
[4]尹宏峰、许杰。工业萘选择性加氢催化剂及其制备方法。申请号：6.X。
[5]许杰、尹宏峰。一种精萘的生产方法。申请号：0.X。
[6]许杰、尹宏峰。工业萘选择性加氢催化剂、其制备方法与应用。申请号：9.1。
[7]尹宏峰、许杰。工业萘选择性加氢催化剂载体及其制备方法。申请号：1.2。
[8]梁萧雅，尹宏峰，余小龙。M_y/La_xSr_1-xTi_1-yO₃催化剂、其制法及应用。申请号：3.4。
[9]席盼盼; 尹宏峰。一种可控的双金属核壳纳米结构、催化剂、其制法与应用。申请号：6.6。
[10]尹宏峰，许杰。 一种加氢裂化催化剂及其制备方法与应用。申请号：2.0。
[11]许杰、尹宏峰。 劣质油料的加氢处理催化剂及其制备方法与应用。申请号： 7.7。
[12]尹宏峰、许杰。 一种加氢裂化催化剂及其制备方法与应用。申请号： 2.0。
[13]尹宏峰、许杰。 处理劣质油料的加氢精制催化剂及其制备方法与应用。申请号： 6.2。
[14]尹宏峰、许杰。一种加氢精制催化剂及其制备方法与应用。申请号：9.2。
[15]许杰,尹宏峰。劣质油料生产柴油的方法及系统。申请号：4.8。
国际会议论文：
H.F. Yin*, C.Z Wu, S.H. Zhou, W.G. Wang, Several Approaches to Prepare Stable and Active Gold Nanocatalysts, 2^nd Annual World Congress of Advanced Materials, 2013, Suzhou, China
尹宏峰，负载型Au@Fe₂O₃核壳纳米催化剂的合成及其在一氧化碳氧化催化中的性能，第十六届全国催化会议，2012，沈阳
Yin, Hongfeng; Overbury, Steve H.; Dai, Sheng “Oxidative removal of organic surfactant and promotion of Au/support (support=SiO₂, TiO₂, carbon) by treatment with K₂MnO₄ and KMnO₄.” 238^th ACS Fall Meeting, 2009, Washington, D.C. (Oral presentation)
Chisholm, Malcolm H.; Gallucci, Judith C.; Yin, Hongfeng; Zhen, Hongshi, “Arylzinc Alkoxides: [ArZnOCHPrⁱ₂]₂ and Ar₂Zn₃(OCHPrⁱ₂)₄ When Ar = C₆H₅, p-CF₃C₆H₄, 2,4,6-Me₃C₆H₂, and C₆F₅.” Abstr. Pap. Am. Chem. Soc. 2003, 225, U126-U126.
Yin, Hongfeng; Yan, Wenfu; Dai, Sheng “Rapid Modification of TiO₂ Surface with Highly Conformal Multi-Layer Silicon Oxide via Surface Sol-Gel Process” MRS 2007 Fall Meeting, 2007, Boston.
Yin, Hongfeng, Xu Wei, Zhou Shenghu “Synthesis and characterization of doped mesoporous W-FDU-12 with large pores: An enhanced catalyst for metathesis of ethene and 1-butene to propene”，252th ACS Fall Meeting, Philadelphia, PA, U.S.A, Aug., 2016(Oral presentation).
Yin, Hongfeng, Yu Xiaolong”Size-controlled synthesis of thermal stable Ru@H-SiO₂ core-shell nanoparticles and their catalytic applications”252th ACS Fall Meeting, Philadelphia, PA, U.S.A, Aug., 2016(Oral presentation)