多相催化，纳米催化，原子层沉积技术及应用

   

080501-材料物理与化学
070304-物理化学（含：化学物理）
080503-材料加工工程

纳米材料组装、机理及其应用性能研究

2002-09--2004-12 中国海洋大学 工学博士学位
1998-09--2001-07 青岛科技大学 工学硕士学位
1992-09--1996-07 重庆大学 工学学士学位

   

2007-04--今 德国马普学会微结构物理研究所 博士后研究
2004-07--2007-03 德国锡根大学 研究助手（第1年）及博士后研究
2001-07--2004-07 青岛科技大学 助教、讲师
1996-07--1998-08 重庆煤田地质研究所 工程师

   

（1） 国防科学技术奖，二等奖，部委级，2004
（2） 山东省自然科学奖，三等奖，省级，2004
（3） 山东高等学校优秀科研成果奖，一等奖，省级，2003

[1] 张斌, 王哲, 杨新春, 孟繁春, 覃勇. 一种具有稳定双位点的钯催化剂及其制备 方法和应用. 202211080049 .3, 2022-09-05.
[2] 张斌, 祁云涛, 杨新春, 孟繁春, 李卓, 赵世超, 覃勇. 一种含低价态钼物种单金属钼基催化剂及 其制备方法和应用. 202211022349 .6, 2022-08-25.
[3] 张斌, 杨新春, 孟繁春, 王国富, 覃勇. 一种催化剂反应原位测试装置. 202222091399.1, 2022-08-10.
[4] 张斌, 祁云涛, 罗根, 杨新春, 覃勇. 一种MOF薄膜的制备方法. 202210804532 .5, 2022-07-08.
[5] 张斌, 杨新春, 孟繁春, 赵世超, 覃勇. 一种负载型金属催化剂及其制备方法和应用. 2022 1 0722760.8, 2022-06-21.
[6] 张斌, 梁浩杰, 覃勇. 一种钴基催化剂、CO2催化加氢制CO的方法. CN: CN113426472A, 2021-09-24.
[7] 陈朝秋, 张佰艳, 覃勇, 赵吉晓, 杨杰. 一种三明治结构催化剂、空间分离双助剂结构光催化剂及制备方法和应用. CN: CN113181907A, 2021-07-30.
[8] 覃勇, 王眉花, 高哲, 张斌, 孟甜甜. 孔径可调氧化钛纳米管限域的Pt基催化剂的制备方法及其制备的Pt基催化剂的应用. CN: CN110694615B, 2021-06-15.
[9] 覃勇, 邢双凤, 高哲, 熊咪. 一种限域结构双亲性纳米催化剂及其制备方法和应用. CN: CN111359606B, 2021-01-08.
[10] 覃勇, 杨杰, 陈朝秋, 赵世超, 张佰艳, 赵吉晓. 一种亚纳米金属催化剂及其制备方法和应用. CN: CN111790376A, 2020-10-20.
[11] 覃勇, 陈朝秋, 赵吉晓, 杨杰, 张佰艳. 一种加氢催化剂及其制备方法和应用. CN: CN107812530B, 2020-08-18.
[12] 覃勇, 张斌, 武慧斌, 梁浩杰. 一种多夹层复合催化剂及其制备方法和应用. CN: CN110038590A, 2019-07-23.
[13] 覃勇, 熊咪, 高哲, 邢双凤. 一种负载型多相催化剂及其制备方法和应用. CN: CN110026196A, 2019-07-19.
[14] 张斌, 翟黎明, 赵世超, 覃勇. 一种铁基催化剂及其制备方法和应用. CN: 2-2-10735908.2, 2019-06-11.
[15] 覃勇, 张斌, 张淑芳, 梁浩杰, 陈长胜, 武慧斌. 一种封装金属配合物于材料表面的方法. CN: CN109718855A, 2019-05-07.
[16] 覃勇, 张斌, 张淑芳, 梁浩杰, 陈长胜, 武慧斌. 一种制备稳定单分散的纳米催化剂的方法. CN: CN109589973B, 2019-04-09.
[17] 覃勇, 张斌, 张淑芳, 梁浩杰, 谷晓敏, 葛会宾. 一种封装均相催化剂于介孔分子筛孔道中的方法. CN: CN107519936B, 2019-04-09.
[18] 覃勇, 陈朝秋, 赵吉晓, 杨杰, 张佰艳. 一种加氢催化剂及其制备方法和应用. CN: CN108014781A, 2018-05-11.
[19] 覃勇, 杨慧敏, 张佰艳. 一种甲醇电氧化催化剂及其制备方法和应用. CN: CN107858661A, 2018-03-30.
[20] 覃勇, 张斌, 葛会宾, 谷晓敏, 梁浩杰. 一步制氢-加氢耦合反应的双界面催化剂的制法及催化剂应用. CN: CN105903480A, 2016-08-31.
[21] 覃勇, 张斌, 葛会宾, 谷晓敏, 梁浩杰. 一种金属-氧化物双界面催化剂的制备方法. CN: CN105817270A, 2016-08-03.
[22] 覃勇, 王眉花, 高哲, 杨慧敏, 张斌. 一种原子层沉积修饰的限域催化剂的制备方法及其应用. CN: CN105771972A, 2016-07-20.
[23] 覃勇, 张斌, 陈耀, 赵世超. 一种分子层沉积制备金属-氧化物复合纳米催化剂的方法. CN: CN105195238A, 2015-12-30.
[24] 覃勇, 张斌, 陈耀, 赵世超. 一种分子层沉积制备负载型ZnO纳米颗粒的方法. CN: CN105154854A, 2015-12-16.
[25] 覃勇, 张斌, 陈耀, 杨慧敏. 一种铜基加氢催化剂的制备方法. CN: CN105148923A, 2015-12-16.
[26] 覃勇, 杨鹏, 高哲. 一种无酶电化学葡萄糖传感器电极材料的制备方法. CN: CN104849332A, 2015-08-19.
[27] 覃勇, 张斌, 陈朝秋, 赵世超. 面向负载纳米催化剂的旋转反应器原子层沉积设备. CN: CN204298460U, 2015-04-29.
[28] 覃勇, 杨鹏, 王桂振, 高哲. 一种厚度可控的纳米碳膜的制备. CN: CN103938180A, 2014-07-23.
[29] 覃勇, 张红芳, 王桂振, 郭玉晶, 董川. 原子层沉积法制备石墨烯纳米材料电化学传感器的方法. CN: CN103207222A, 2013-07-17.
[30] 覃勇, 陈朝秋, 王桂振, 段菲菲, 陈彩营. 一种制备掺氮二氧化钛多孔膜的方法. CN: CN103194731A, 2013-07-10.
[31] 覃勇, 王桂振, 高哲, 陈朝秋. 一种制备磁性材料包覆的碳纳米螺旋电磁波吸收剂的方法. CN: CN102965640A, 2013-03-13.

   

[1] Shuangfeng Xing, Mi Xiong, Shichao Zhao, Bianqin Zhang, Yong Qin, Zhe Gao. Improving the Efficiency of Hydrogen Spillover by an Organic Molecular Decoration Strategy for Enhanced Catalytic Hydrogenation Performance. Acs Catalysis[J]. 2023, 13(6): 4003-4011, https://pubs.acs.org/doi/full/10.1021/acscatal.2c06074.
[2] Fanchun Meng, Xinchun Yang, Shichao Zhao, Zhuo Li, Guikai Zhang, Yuntao Qi, Shengqi Chu, Guofu Wang, Jing Zhang, Yong Qin, Bin Zhang. Shifting reaction path for levulinic acid aqueous-phase hydrogenation by Pt-TiO2 metal-support interaction. APPLIED CATALYSIS B: ENVIRONMENTAL. 2023, 324: http://dx.doi.org/10.1016/j.apcatb.2022.122236.
[3] Yuxin Luo, Yu Zhang, Tonghe Xing, Annan He, Shichao Zhao, Zhiyu Huang, Zihui Liang, Xin Liu, Yequn Liu, Yuxiu Yu, Yong Qin, Fengxiang Chen, Weilin Xu. Full-Color Tunable and Highly Fire-Retardant Colored Carbon Fibers/Fabrics. Advanced Fiber Materials[J]. 2023, https://link.springer.com/article/10.1007/s42765-023-00294-4#main-content.
[4] Bianqin Zhang, Zhiwei Wu, Shuangfeng, Jianyuan Zhang, Shichao Zhao, Mi Xiong, Jin Luo, Yong Qin, Zhe Gao. Small-Molecule Modifcation Provides Pt Nucleation Sites for Enhanced Propane Dehydrogenation Performance. Journal of Physical Chemistry C[J]. 2023, 127(12): 5754-5762, https://pubs.acs.org/doi/full/10.1021/acs.jpcc.3c00013.
[5] Yang, Zhaojun, Chen, Chaoqiu, Zhao, Yunxuan, Wang, Qing, Zhao, Jiaqi, Waterhouse, Geoffrey I N, Qin, Yong, Shang, Lu, Zhang, Tierui. Pt Single Atoms on CrN Nanoparticles Deliver Outstanding Activity and CO Tolerance in the Hydrogen Oxidation Reaction. ADVANCED MATERIALS[J]. 2023, 35(1): http://dx.doi.org/10.1002/adma.202208799.
[6] Jiankang Zhang, Yukun Pan, Dan Feng, Lin Cui, Shichao Zhao, Jinlong Hu, Sen Wang, Yong Qin. Mechanistic Insight into the Synergy between Platinum Single Atom and Cluster Dual Active Sites Boosting Photocatalytic Hydrogen Evolution. Advanced Materials[J]. 2023, 35(25): https://onlinelibrary.wiley.com/doi/10.1002/adma.202300902.
[7] Yang, Jie, Rena, Xiaofeng, Zhang, Xiaoyu, Wang, Xiaozhe, Zhang, Rong, Bai, Peirong, Du, Baojie, Li, Liping, Zhao, Shichao, Qin, Yong, Zhang, Ruiping. Mechanistic and kinetic insights into size-dependent activity in ultra-small Pt/CNTs nanozymes during antibacterial process. ARABIAN JOURNAL OF CHEMISTRY[J]. 2022, 15(11): http://dx.doi.org/10.1016/j.arabjc.2022.104238.
[8] Wang, Zhe, Zhang, Bin, Yang, Shuai, Yang, Xinchun, Meng, Fanchun, Zhai, Liming, Li, Zhuo, Zhao, Shichao, Zhang, Guojie, Qin, Yong. Dual Pd2+and Pd0 sites on CeO2 for benzyl alcohol selective oxidation. JOURNAL OF CATALYSIS[J]. 2022, 414: 385-393, http://dx.doi.org/10.1016/j.jcat.2022.09.012.
[9] Chen, Yao, Tian, Qing, Wang, Haoyu, Ma, Ruonan, Han, Ruiting, Wang, Yu, Ge, Huibin, Ren, Yujing, Yang, Rong, Yang, Huimin, Chen, Yinjuan, Duan, Xuezhi, Zhang, Lianbing, Gao, Jie, Gao, Lizeng, Yan, Xiyun, Qin, Yong. A Manganese-Based Metal-Organic Framework as a Cold-Adapted Nanozyme. ADVANCED MATERIALS. 2022, [10] Xiong, Mi, Wang, Guofu, Zhao, Shichao, Lv, Zhengxing, Xing, Shuangfeng, Zhang, Jianyuan, Zhang, Bianqin, Qin, Yong, Gao, Zhe. Engineering of platinum-oxygen vacancy interfacial sites in confined catalysts for enhanced hydrogenation selectivity. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2022, 12(8): 2411-2415, http://dx.doi.org/10.1039/d2cy00131d.
[11] Yang, Xinchun, Xing, Caihong, Zhang, Bin, Liu, Xingchen, Liang, Haojie, Luo, Gen, Zhang, Guikai, Li, Zhuo, Zhao, Shichao, Zhang, Jing, Wang, Guofu, Qin, Yong. Direct Bonding of CpCo- Fragments on Pt Nanoparticles and their Electronic Effect for Alkyne Semihydrogenation. ACS CATALYSIS[J]. 2022, 12(17): 10849-10856, http://dx.doi.org/10.1021/acscatal.2c03024.
[12] Zhe Gao, Guofu Wang, Tingyu Lei, Zhengxing Lv, Mi Xiong, Liancheng Wang, Shuangfeng Xing, Jingyuan Ma, Zheng Jiang, Yong Qin. Enhanced hydrogen generation by reverse spillover effects over bicomponent catalysts. NATURE COMMUNICATIONS[J]. 2022, 13(1): 1-9, [13] Sun, Liang, Shi, Zhicheng, Liang, Liang, Dong, Jiufeng, Pan, Zizhao, Wang, Huanlei, Gao, Zhe, Qin, Yong, Fan, Runhua, Wang, Hong. Concurrently Achieving High Discharged Energy Density and Efficiency in Composites by Introducing Ultralow Loadings of Core-Shell Structured Graphene@TiO2 Nanoboxes. ACS APPLIED MATERIALS & INTERFACES[J]. 2022, 14(25): 29292-29301, http://dx.doi.org/10.1021/acsami.2c07229.
[14] Huibin Wu, Xinchun Yang, Shichao Zhao, Liming Zhai, Guofu Wang, Bin Zhang, Yong Qin. Encapsulation of Atomically Dispersed Pt Clusters in Porous TiO2 for Semi-Hydrogenation of Phenylacetylene. Chemical Communications[J]. 2022, https://doi.org/10.1039/D1CC06682J.
[15] Jianyuan ZHANG, Shuangfeng XING, Shichao ZHAO, Mi XIONG, Bianqin ZHANG, Xili TONG, Yong QIN, Zhe GAO. Highly dispersed CoPx nanoparticles supported on carbon cloth for the enhanced catalytic performance of methanol electro-oxidation. JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY. 2022, 50(10): 1270-1277, http://dx.doi.org/10.1016/S1872-5813(22)60040-9.
[16] Xing, Shuangfeng, Gao, Zhe, Lv, Zhengxing, Zhao, Shichao, Xiong, Mi, Zhang, Jianyuan, Wang, Guofu, Qin, Yong. Precise regulation of the wettability of Pt/CNTs by atomic layer deposition-based ozone pulse strategy for enhanced catalytic hydrogenation performance in aqueous phase. CARBON[J]. 2022, 188: 385-392, http://dx.doi.org/10.1016/j.carbon.2021.12.037.
[17] Cheng, Fang, Yang, Shuai, Zhao, Zongtao, Lin, Chao, Zhang, Haojie, Song, Xiaokai, Qin, Yong, Li, Xiaopeng. Electrochemical deposition of electronically rich Pt single atoms and nanocrystals on porous carbon for enhanced electrocatalysis in strong acids. SUSTAINABLE ENERGY & FUELS[J]. 2022, 6(4): 1058-1062, [18] Haojie Liang, Bin Zhang, Peng Gao, Xiaohu Yu, Xingchen Liu, Xinchun Yang, Huibin Wu, Liming Zhai, Shichao Zhao, Guofu Wang, Alexander P. van Bavel, Yong Qin. Strong Co-O-Si bonded ultra-stable single-atom Co/SBA-15 catalyst for selective hydrogenation of CO2 to CO. Chem Catalysis[J]. 2022, https://www.sciencedirect.com/science/article/pii/S2667109322000537#!.
[19] Zhang, Shufang, Zhang, Bin, Li, Zhimin, Yang, Xinchun, Meng, Fanchun, Liang, Haojie, Lei, Yu, Wu, Huibin, Zhang, Jing, Li, Gao, Qin, Yong. Surface isolation of single metal complexes or clusters by a coating sieving layer via atomic layer deposition. CELL REPORTS PHYSICAL SCIENCE[J]. 2022, 3(3): http://dx.doi.org/10.1016/j.xcrp.2022.100787.
[20] Bu, Fanle, Chen, Chaoqiu, Yu, Yu, Hao, Wentao, Zhao, Shichao, Hu, Yongfeng, Qin, Yong. Boosting Benzene Oxidation with a Spin-State-Controlled Nuclearity Effect on Iron Sub-Nanocatalysts. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION. 2022, [21] Ye, Runping, Liu, Qinghua, Wen, Zhihui, Jiang, Lejie, Jin, Chengkai, Gao, Birong, Zhang, Bin, Zhang, Rongbin, Qin, Yong, Feng, Gang. Shape-selective catalysts of Mg2+ion exchange modified SAPO-11 molecular sieves for alkylation of 2-methylnaphthalene. MICROPOROUS AND MESOPOROUS MATERIALS[J]. 2022, 346: http://dx.doi.org/10.1016/j.micromeso.2022.112291.
[22] Xiong, Mi, Gao, Zhe, Qin, Yong. Spillover in Heterogeneous Catalysis: New Insights and Opportunities. ACS CATALYSISnull. 2021, 11(5): 3159-3172, http://dx.doi.org/10.1021/acscatal.0c05567.
[23] Xiuling Chen, Lei Wu, Huimin Yang, Yong Qin, Xiaohua Ma, Nanwen Li. Tailoring the Microporosity of Polymer of Intrinsic Microporosity for Advanced Gas Separation by Atomic Layer Deposition. Angewandte Chemie International Edition[J]. 2021, 60(33): 17875-17880, https://onlinelibrary.wiley.com/doi/10.1002/anie.202016901.
[24] Xiaobao Zhang, Baiyi Shao, Aoping Guo, Zhe Gao, Yong Qin, Ce Zhang, Fangming Cui, Xiaojing Yang. Improved electrochemical performance of CoOx-NiO/Ti3C2Tx MXene nanocomposites by atomic layer deposition towards high capacitance supercapacitors. JOURNAL OF ALLOYS AND COMPOUNDS. 2021, 862: http://dx.doi.org/10.1016/j.jallcom.2020.158546.
[25] Xing, Shuangfeng, Gao, Zhe, Zhao, Shichao, Xiong, Mi, Wang, Pengfei, Zhang, Jianyuan, Wang, Sen, Wang, Guofu, Qin, Yong. Amphiphilic confined Pt-based nanocatalysts produced by atomic layer deposition with enhanced catalytic performance for biphasic reactions. GREEN CHEMISTRY[J]. 2021, 23(20): 8116-8123, http://dx.doi.org/10.1039/d1gc02261j.
[26] 罗根, 张斌, 杨新春, 武慧斌, 孟繁春, 翟黎明, 覃勇. 气相法制备ZIF-8纳米膜包覆Pt/SiO_（2）催化剂及其炔烃半加氢性能. 燃料化学学报[J]. 2021, 49(9): 1316-1325, [27] Li, Chen, Ren, Lipei, Liu, Xin, Zhang, Chunhua, Chen, Dongzhi, Xu, Weilin, Qin, Yong. Superhydrophilic and Underwater Superoleophobic Poly(propylene) Nonwoven Coated with TiO2 by Atomic Layer Deposition. ADVANCED MATERIALS INTERFACES[J]. 2021, 8(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000589529500001.
[28] Yan, Lili, Li, Lanlan, Ru, Xiaoxia, Wen, Danning, Ding, Lei, Zhang, Xueyun, Diao, Haipeng, Qin, Yong. Core-shell, wire-in-tube and nanotube structures: Carbon-based materials by molecular layer deposition for efficient microwave absorption. CARBON[J]. 2021, 173: 145-153, http://dx.doi.org/10.1016/j.carbon.2020.10.095.
[29] Zhai, Liming, Zhang, Bin, Liang, Haojie, Wu, Huibin, Yang, Xinchun, Luo, Gen, Zhao, Shichao, Qin, Yong. The selective deposition of Fe species inside ZSM-5 for the oxidation of cyclohexane to cyclohexanone. SCIENCE CHINA-CHEMISTRY[J]. 2021, 64(7): 1088-1095, https://www.sciengine.com/doi/10.1007/s11426-020-9968-x.
[30] Yang, Jie, Fu, Wenzhao, Chen, Chaoqiu, Chen, Wenyao, Huang, Wugen, Yang, Ruoou, Kong, Qingqiang, Zhang, Baiyan, Zhao, Jixiao, Chen, Chengmeng, Luo, Jun, Yang, Fan, Duan, Xuezhi, Jiang, Zheng, Qin, Yong. Atomic Design and Fine-Tuning of Subnanometric Pt Catalysts to Tame Hydrogen Generation. ACS CATALYSIS[J]. 2021, 11(7): 4146-4156, http://dx.doi.org/10.1021/acscatal.0c04614.
[31] Zhao, Shichao, Yang, Jie, Duan, Feifei, Zhang, Baiyan, Liu, Yequn, Zhang, Bin, Chen, Chaoqiu, Qin, Yong. Rational construction of porous N-doped Fe2O3 films on porous graphene foams by molecular layer deposition for tunable microwave absorption. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2021, 598: 45-55, http://dx.doi.org/10.1016/j.jcis.2021.04.007.
[32] Hou, Xiaoning, Qing, Shaojun, Liu, Yajie, Zhang, Lei, Zhang, Caishun, Feng, Gang, Wang, Xiang, Gao, Zhixian, Qin, Yong. Cu1-xMgxAl3 spinel solid solution as a sustained release catalyst: One-pot green synthesis and catalytic performance in methanol steam reforming. FUEL[J]. 2021, 284: http://dx.doi.org/10.1016/j.fuel.2020.119041.
[33] Chen, Fengxiang, Zhai, Lisha, Yang, Huiyu, Zhao, Shichao, Wang, Zonglei, Gao, Chong, Zhou, Jingyi, Liu, Xin, Yu, Zhenwei, Qin, Yong, Xu, Weilin. Unparalleled Armour for Aramid Fiber with Excellent UV Resistance in Extreme Environment. ADVANCED SCIENCE[J]. 2021, 8(12): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8224419/.
[34] Huibin Wu, Bin Zhang, Haojie Liang, Liming Zhai, Guofu Wang, Yong Qin. Distance Effect of Ni-Pt Dual Sites for Active Hydrogen Transfer in Tandem Reaction. 创新(英文)[J]. 2020, 1(2): 100029-, https://doaj.org/article/9b118c462d434a9293503da3b33ad0a2.
[35] Chen, Hao, Yao, Siyu, Lin, Wenwen, Zhang, Zihao, Hu, Xiaobing, Liu, Xi, Yan, Binhang, Chen, Kequan, Qin, Yong, Zhu, Yimei, Lu, Xiuyang, Ouyang, Pingkai, Fu, Jie, Chen, Jingguang G. Highly efficient conversion of oleic acid to heptadecane without external hydrogen source over atomic layer deposited bimetallic NiPt catalysts. CHEMICAL ENGINEERING JOURNAL[J]. 2020, 390: http://dx.doi.org/10.1016/j.cej.2020.124603.
[36] Zhang, Baiyan, Chen, Chaoqiu, Liu, Jian, Qiao, Wei, Zhao, Jixiao, Yang, Jie, Yu, Yu, Chen, Shuai, Qin, Yong. Simultaneous Ni nanoparticles decoration and Ni doping of CdS nanorods for synergistically promoting photocatalytic H-2 evolution. APPLIED SURFACE SCIENCE[J]. 2020, 508: http://dx.doi.org/10.1016/j.apsusc.2019.144869.
[37] Chen, Yao, Yuchi, Qingxiao, Li, Tao, Yang, Guanghao, Miao, Jiaojiao, Huang, Chenyang, Liu, Jingyi, Li, Aipeng, Qin, Yong, Zhang, Lianbing. Precise engineering of ultra-thin Fe2O3 decorated Pt-based nanozymes via atomic layer deposition to switch off undesired activity for enhanced sensing performance. SENSORS AND ACTUATORS B-CHEMICAL[J]. 2020, 305: http://dx.doi.org/10.1016/j.snb.2019.127436.
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[102] Qin, Yong, Yang, Yang, Scholz, Roland, Pippel, Eckhard, Lu, Xiaoli, Knez, Mato. Unexpected Oxidation Behavior of Cu Nanoparticles Embedded in Porous Alumina Films Produced by Molecular Layer Deposition. NANO LETTERS[J]. 2011, 11(6): 2503-2509, https://www.webofscience.com/wos/woscc/full-record/WOS:000291322600054.
[103] Qin, Yong, Kim, Yunseok, Zhang, Lianbing, Lee, SeungMo, Yang, Ren Bin, Pan, AnLian, Mathwig, Klaus, Alexe, Marin, Goesele, Ulrich, Knez, Mato. Preparation and Elastic Properties of Helical Nanotubes Obtained by Atomic Layer Deposition with Carbon Nanocoils as Templates. SMALL[J]. 2010, 6(8): 910-914, https://www.webofscience.com/wos/woscc/full-record/WOS:000277641700002.
[104] Yang, Yang, Kim, Dong Sik, Qin, Yong, Berger, Andreas, Scholz, Roland, Kim, Hyunbin, Knez, Mato, Goesele, Ulrich. Unexpected Long-Term Instability of ZnO Nanowires "Protected" by a TiO2 Shell. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY[J]. 2009, 131(39): 13920-+, https://www.webofscience.com/wos/woscc/full-record/WOS:000270433900018.
[105] Lee, SeungMo, Pippel, Eckhard, Goesele, Ulrich, Dresbach, Christian, Qin, Yong, Chandran, C Vinod, Braeuniger, Thomas, Hause, Gerd, Knez, Mato. Greatly Increased Toughness of Infiltrated Spider Silk. SCIENCE[J]. 2009, 324(5926): 488-492, [106] Wang, Yong, Qin, Yong, Berger, Andreas, Yau, Eric, He, Changcheng, Zhang, Lianbing, Goesele, Ulrich, Knez, Mato, Steinhart, Martin. Nanoscopic Morphologies in Block Copolymer Nanorods as Templates for Atomic-Layer Deposition of Semiconductors. ADVANCED MATERIALS[J]. 2009, 21(27): 2763-+, https://www.webofscience.com/wos/woscc/full-record/WOS:000268607900003.
[107] Qin, Yong, Lee, SeungMo, Pan, Anlian, Gosele, Ulrich, Knez, Mato. Rayleigh-instability-induced metal nanoparticle chains encapsulated in nanotubes produced by atomic layer deposition. NANO LETTERS[J]. 2008, 8(1): 114-118, http://dx.doi.org/10.1021/nl0721766.
[108] Qin, Yong, Liu, Lifeng, Yang, Renbin, Goesele, Ulrich, Knez, Mato. General Assembly Method for Linear Metal Nanoparticle Chains Embedded in Nanotubes. NANO LETTERS[J]. 2008, 8(10): 3221-3225, https://www.webofscience.com/wos/woscc/full-record/WOS:000259906800027.
[109] Pan, An Lian, Yao, Lide, Qin, Yong, Yang, Yang, Kim, Dong Sik, Yu, Richeng, Zou, Bingsuo, Werner, Peter, Zacharias, Margit, Goesele, Ulrich. Si-CdSSe Core/Shell Nanowires with Continuously Tunable Light Emission. NANO LETTERS[J]. 2008, 8(10): 3413-3417, http://ir.iphy.ac.cn/handle/311004/52535.
[110] 张乾, 覃勇, 崔作林. 碳纳米纤维在纳米催化剂上的不同生长形态. 功能材料[J]. 2004, 2850-2852, http://lib.cqvip.com/Qikan/Article/Detail?id=1000314006.

   

（1） 纳米催化剂的功能化设计：从原理到应用，主持，研究所（学校）级，2011-01--2013-12
（2） 高性能甲醇燃料电池阳极和阴极催化剂研究，主持，部委级，2011-01--2012-12

（1） Linear metal nanoparticle chains embedded in nanotubes produced by atomic layer deposition，2010-06，Yong Qin, Lifeng Liu, Renbin Yang, Seung-Mo Lee, Ulrich Goesele, and Mato Knez
（2） ALD-assisted templates for electrochemical synthesis of metal nanotubes，2009-06，Yong Qin, L. Liu, R. Yang, S.–M. Lee, U. Goesele, M. Knez
（3） Rayleigh-instability-inducted metal nanoparticle chains encapsulated in nanotubes produced by ALD，2008-06，Y. Qin, L. Liu, S.-M. Lee, U. Goesele, M. Knez