成果及论文 - 浙江工业大学李瑛课题组

科研项目：

2022年：1）工业有机废气吸附失效活性炭再生关键技术和装备研发，浙江省科研计划重点研发项目，315万；

2019年：1）超稳低汞聚氯乙烯合成催化剂工业试验与应用一氯乙烯单体合成用超稳低汞催化剂的研发，内蒙古重大专项，232万；

2）面向工业催化领域创新成果产业化公共服务平台建设子项目-煤化工催化子平台，国家科技项目，400万；

2016年：1）钌-固体酸双功能炭基催化剂的构建及在一步催化转化乙酰丙酸制γ-戊内酯反应中的应用，浙江省自然科学基金探索项目，8万；

2010年：1）高比表面石墨化碳素材料硬模板法制备及其负载贵金属催化剂研究，浙江省自然科学基金，8万；

2）新型高比表面氟氯交换反应固体酸催化剂的研发，浙江省科技计划项目，10万；

2009年：1）载体的孔结构对负载型贵金属纳米粒子的限域作用研究，国家自然基金面上项目，18万；

2）介孔材料SBA-15的调控合成机理研发，浙江省教育厅科研项目，1万；

发表论文：

2024年

1. Noble-Metal-Based Catalysts on a Scale from Nanoparticles to Subnanoclusters and Single Atoms for Formaldehyde Oxidation at Room Temperature: A Review; Xiucheng Sun, Yuehan Wang, Jiaqi Cui, Ying Li, and Jian Lin*, ACS Appl. Nano. Mater., 2024, 7, 3546−3563, DOI: 10.1021/acsanm.3c05155

2. Enabling Ultrafine Ru Nanoparticles with Tunable Electronic Structures via a Double-Shell Hollow Interlayer Confinement Strategy toward Enhanced Hydrogen Evolution Reaction Performance; Xiaoyan Liu; Lihua Gong; Liwei Wang; Chaoqun Chang; Panpan Su, Yuhai Dou, Shi Xue Dou, Ying Li, Feilong Gong, Jian Liu. Nano Lett., 2024-1-17, DOI: 10.1021/acs.nanolett.3c03514

2023年

1. 电石法氯乙烯单体生产用无汞金属催化剂的研究进展,刘跃森,王小龙,蓝国钧,陈翊,张国杰,杨振东,何秀梅,李瑛.聚氯乙烯，2023, 51(12) 1-9, 2023年12月

2. Modulating the surface structure of nanodiamonds to enhance the electronic metal–support interaction of efficient ruthenium catalysts for levulinic acid hydrogenation,Guojun Lan; Zhenqing Li; Xiaojia Han; Liping Zhang; Yiyang Qiu; Xiucheng Sun; Zaizhe Cheng; Ying Li,New J. Chem., 2023, 47,6258-6265, DOI: 10.1039/D2NJ06229A

3. Role of intrinsic defects on carbon adsorbent for enhanced removal of Hg2+ in aqueous solution, Liu He, Yiyang Qiu, Chu Yao, Guojun Lan, Na Li, Huacong Zhou, Quansheng Liu, Xiucheng Sun, Zaizhe Cheng, Ying Li, Chin. J. Chem. Eng., 2023, 61, 129-139, DOI：10.1016/j.cjche.2023.03.021

4. Dual active sites over Cu-ZnO-ZrO2 catalysts for carbon dioxide hydrogenation to methanol, Xiucheng Sun; Yifei Jin; Zaizhe Cheng; Guojun Lan; Xiaolong Wang; Yiyang Qiu; Yanjiang Wang; Huazhang Liu; Ying Li,J. Environ. SCI., 2023,131,162-172, DOI: 10.1016/j.jes.2022.10.002

5. Bismuth nanoplatelets: universal synthetic strategy and emerging, pplication for PEC-type photodetectors, Y. Zhao, A.V. Kuklin, H. Huang, Q. Zhang, S. Wei, H. Zhang, C. Yu; Y. Li, H. Ågren, L. Gao,Mater Today Nano , 23 (2023) 100349, DOI: 10.1016/j.mtnano.2023.100349

2022年

1. Emerging applications of MXenes for photodetection: Recent advances and future challenges, Lingfeng Gao, Yiming Zhao, Xiaohua Chang, Jian Zhang, Ying Li, Swelm Wageh, Omar A. Al-Hartomy, Abdullah G. Al-Sehemi, Han Zhang, Hans Ågren, Materials Today, 2022.61.169-190, https://doi.org/10.1016/j.mattod.2022.10.022

2. Insights into the Inducing Effect of Aluminum on Cu−ZnO Synergy for Methanol Steam Reforming, Zaizhe Cheng, Chuan Jiang, Xiucheng Sun, Guojun Lan; Xiaolong Wang, Lingjie He, Yunzhi Li, Ind. Eng. Chem. Res.,2022, 61, 11699−11707, https://doi.org/10.1021/acs.iecr.2c01790

3. Sustainable Nanoporous Carbon Catalysts Derived from Melamine Assisted Cross-Linking of Poly(vinyl chloride) Waste for Acetylene Hydrochlorination, Shuhao Wei; Yiyang Qiu, Xiucheng Sun, Xiaolong Wang, Haitao Li, Guojun Lan, Jian Liu, Ying Li, ACS Sustainable Chem. Eng. 2022, 10, 10476−10485, DOI: 10.1021/acssuschemeng.2c01183

4. The Reaction mechanism of acetylene hydrochlorination on defective carbon supported ruthenium catalysts by DFT calculations and experimental approaches, Xiaolong Wang, Dong Fan, Guojun Lan, Zaizhe Cheng, Xiucheng Sun, Yiyang Qiu, Wenfeng Han, Haodong Tang, Huazhang Liu, Yihan Zhu, Xiaojun Hu, Ying Li, Inorg. Chem. Front., 2022, 9, 458，DOI: 10.1039/d1qi01164b

5. 甲醇蒸汽重整制氢催化剂的研究进展(下)，周文强，程载哲，蓝国钧，李瑛，石油化工，2022,051(002) - 199～205，DOI: 10.3969/j.issn.1000-8144.2022.02.012

6. 甲醇蒸汽重整制氢催化剂的研究进展(上)，周文强，程载哲，蓝国钧，李瑛，石油化工，2022,051(001) - 73～82，DOI: 10.3969/j.issn.1000-8144.2022.01.012

2021年

1. Aqueous-phase hydrogenation of levulinic acid over carbon layer protected silica-supported cobalt-ruthenium catalysts; Lihua Qian, Guojun Lan, Xiaoyan Liu, Zhenqing Li, Ying Li; Chinese Journal of Chemical Engineering 38 (2021) 114-122, https://doi.org/10.1016/j.cjche.2021.07.004

2. High-performance CuZnOAl2O3 catalysts for methanol steam reforming with enhanced Cu-ZnO synergy effect via magnesium assisted strategy; Zaizhe Cheng, Wenqiang Zhou, Guojun Lan, Xiucheng Sun, Xiaolong Wang, Chuan Jiang, Ying Li *;Journal of Energy Chemistry 2021, 63, 550-557, https://doi.org/10.1016/j.jechem.2021.08.025

3. Atomic Pyridinic Nitrogen Sites Promoting Levulinic Acid Hydrogenations over Double‐Shelled Hollow RuC Nanoreactors; Xiaoyan Liu, Sheng Ye, Guojun Lan, Panpan Su, Xiaoli Zhang, Cameron Alexander Hurd Price, Ying Li, and Jian Liu; Small 2021, 17, 2101271, https://doi.org/10.1002/smll.202101271

4. Sustainable Carbon Materials toward Emerging Applications; Guojun Lan, Jing Yang, Run-Ping Ye, Yash Boyjoo, Ji Liang, Xiaoyan Liu, Ying Li,* Jian Liu,* and Kun Qian; Small Methods 2021, 2001250, DOI: 10.1002/smtd.202001250

5. Stabilization of Heterogeneous Hydrogenation Catalysts for the Aqueous‐Phase Reactions of Renewable Feedstocks; Xiaoyan Liu, Guojun Lan, Zhenqing Li, Lihua Qian, Jian Liu, Ying Li; Chinese Journal of Catalysis 42 (2021) 694–709, DOI: 10.1016/S1872‐2067(20)63699‐3

6. Metal-organic framework material supported Pt nanoclusters as a bifunctional catalyst for complete elimination of HCHO at ambient conditions; Xiucheng Sun, Yuehan Wang, Geqian Fang, Jian Zhang, Chaojie Wang, Yang Chen, Yiming Gu, Lin Li, Ying Li, Jian Lin; Applied Surface Science 572(2022), DOI: 10.1016/j.apsusc.2021.151360

7. Highly stable Ru nanoparticles incorporated in mesoporous carbon catalysts for production of γ-valerolactone; Liu Xiaoyan, Lan Guojun, Su Panpan, Qian Lihua, Ramirez Reina Tomas, Wang Liang, Li Ying, Liu Jian; Catalysis Today 351 (2020) 75–82, DOI: 10.1016/j.cattod.2018.12.039

2020年

1. Carbon-supported ruthenium catalysts prepared by a coordination strategy for acetylene hydrochlorination; Xiaolong Wang, Guojun Lan, Zaizhe Cheng, Wenfeng Han, Haodong Tang, Huazhang Liu, Ying Li; Chinese Journal of Catalysis 41 (2020) 1683–1691, https://doi.org/10.1016/S1872-2067(20)63616-6

2. Generalized reactivity descriptor of defective carbon catalysts for acetylene hydrochlorination: the ratio of sp2 :sp3 hybridization; Qiu Yiyang, Fan Dong, Lan Guojun, Wei Shuhao, Hu Xiaojun, Li Ying; Chemical Communications 2020, 56, 14877-14880, DOI: 10.1039/D0CC06177H

3. Role of surface defects of carbon nanotubes on catalytic performance of barium promoted ruthenium catalyst for ammonia synthesis; Yongcheng Ma, Guojun Lan, Wenzhao Fu, Ying Lai, Wenfeng Han, Haodong Tang, Huazhang Liu, Ying Li; Journal of Energy Chemistry 41 (2020)79–86, https://doi.org/10.1016/j.jechem.2019.04.016

4. Single-Site Au/Carbon Catalysts with Single-Atom and Au Nanoparticles for Acetylene Hydrochlorination; Guojun Lan, Qingfeng Ye, Yihan Zhu, Haodong Tang,* Wenfeng Han, and Ying Li*; ACS Applied Nano Materials 2020, 3, 3004−3010, DOI: 10.1021/acsanm.0c00295

5. 小麦粉基镶嵌式钌炭催化剂的制备及苯甲酸水相加氢性能; 陈金辉，李振清，钱丽华，刘晓艳，蓝国钧, 李瑛; 化学反应工程与工艺 2020, 36 , 2 , 147-154, DOI: 10.11730/j.issn.1001-7631.2020.02.0147.08

6. Improved Catalytic Performance in Dimethyl Ether Carbonylation over Hierarchical Mordenite by Enhancing Mass Transfer; Shuaipeng Liu, Zaizhe Cheng, Ying Li, Junhao Sun, Kai Cai, Shouying Huang,* Jing Lv, Shengping Wang, Xinbin Ma.; Industrial & Engineering Chemistry Research 2020, 59(31) : 13861-13869, https://doi.org/10.1021/acs.iecr.0c01156

2019年

1. Defective graphene@diamond hybrid nanocarbon material as an effective and stable metal-free catalyst for acetylene hydrochlorination; Guojun Lan, Yiyang Qiu, Jiangtao Fan, Xiaolong Wang, Haodong Tang, Wenfeng Han, Huazhang Liu, Hongyang Liu, Shuang Song, Ying Li*; Chem. Commun.,; 2019, 55(10) ：1430-1433. DOI: 10.1039/C8CC09361J

2. Defect-rich activated carbons as active and stable metal-free catalyst for acetylene hydrochlorination; Yiyang Qiu, Sajjad Ali, Guojun Lan, Huiqi Tong, Jiangtao Fan, Hongyang Liu, Bo Li, Wenfeng Han, Haodong Tang, Huazhang Liu, Ying Li*.; Carbon 2019, 146: 406-412. https://doi.org/10.1016/j.carbon.2019.01.102

3. Screening of active center and reactivity descriptor in acetylene hydrochlorination on metal-free doped carbon catalysts from first principle calculations; Sajjad Ali, YiYang Qiu, Zan Lian, Samson Olanrele, Guo Jun Lan, Ying Li*, Dang Sheng Sua,, Bo Li.; Applied Surface Science 2019, 478: 574-580. https://doi.org/10.1016/j.apsusc.2019.02.007

4. The origin of the extraordinary stability of mercury catalysts on the carbon support: the synergy effects between oxygen groups and defects revealed from a combined experimental and DFT study; Jian Li, Jiangtao Fan, Sajjad Ali, Guojun Lan, Haodong Tang, Wenfeng Han, Huazhang Liu, Bo Li, Ying Li; Chinese Journal of Catalysis 2019, 40 141-146, DOI: 10.1016/S1872-2067(19)63271-7

5. Effect of nitrogen co-doping with ruthenium on the catalytic performance of Ba/Ru–N-MC catalysts for ammonia synthesis†;Yongcheng Ma, Guojun Lan, Xiaolong Wang, Geshan Zhang, Wenfeng Han, Haodong Tang, Huazhang Liu and Ying Li *; RSC Advances 2019, 9, 22045–22052, DOI: 10.1039/C9RA03097B

6. A highly stable and active mesoporous ruthenium catalyst for ammonia synthesis prepared by a RuCl3/SiO2‐templated approach;Yaping Zhou, Yongcheng Ma, Guojun Lan, Haodong Tang, Wenfeng Han, Huazhang Liu, Ying Li,Chinese Journal of Catalysis 40 (2019) 114–123, DOI: 10.1016/S1872-2067(18)63192-4

7. N-doped carbon spheres impregnated with highly monodispersed ruthenium nanoparticles as a hydrogenation catalyst; Xiaoyan Liu, Guojun Lan, Yash Boyjoo, Lihua Qian, Sai Gu, Cameron Alexander Hurd Price, Liang Wangd, Ying Li, Jian Liu, Chemical Engineering Journal 374 (2019) 895–903, DOI: 10.1016/j.cej.2019.05.213

2018年

1. Wheat flour-derived N-doped mesoporous carbon extrudate as superior metal-free catalysts for acetylene hydrochlorination; Lan Guojun, Wang Yan, Qiu Yiyang, Wang Xiaolong, Liang Ji, Han Wenfeng, Tang Haodong, Liu Huazhang, Liu Jian*, Li Ying*; Chemical Communications 2018, 54(6) : 623~626, DOI: 10.1039/C7CC09370E

2. Formation mechanism of highly dispersed semi-embedded ruthenium nanoparticles in porous carbon matrix determined by in situ temperature-programmed infrared spectroscopy; Lan Guojun, Zhou Yaping, Shen Hangjia, Tang Haodong, Li Ying*; Chinese Journal of Catalysis 2018, 39(1) : 146~156, DOI: 10.1016/S1872-2067(17)62958-9

3. Direct synthesis of mesoporous nitrogen doped Ru-carbon catalysts with semi-embedded Ru nanoparticles for acetylene hydrochlorination; Lan Guojun, Yang Yong, Wang Xiaolong, Han Wenfeng, Tang Haodong, Liu Huazhang, Li Ying*; Microporous and Mesoporous Materials 2018, 264, 248- 253, DOI: 10.1016/j.micromeso.2018.01.024

4. Wheat flour-derived N-doped mesoporous carbon extrudes as an efficient support for Au catalyst in acetylene hydrochlorination; Liu Jie, Lan Guojun, Qiu Yiyang, Wang Xiaolong, Li Ying; Chinese Journal of Catalysis 2018, 39 (10) , 1664-1671, https://doi.org/10.1016/S1872-2067(18)63109-2

5. Effect of acidity and ruthenium species on catalytic performance of ruthenium catalysts for acetylene hydrochlorination; Wang Xiaolong, Lan Guojun, Liu Huazhang, Zhu Yihan, Li Ying; Catalysis Science & Technology 2018, https://doi.org/10.1039/C8CY01677A

6. A highly stable and active mesoporous ruthenium catalyst for ammonia synthesis prepared by a RuCl3/SiO2-templated approach; Zhou Yaping, Ma Yongcheng, Lan Guojun, Tang Haodong, Han Wenfeng, Liu Huazhang, Li Ying; Chinese Journal of Catalysis 2019, 40(1) : 114-123, DOI: 10.1016/S1872-2067(18)63192-4

7. The origin of the extraordinary stability of mercury catalysts on the carbon support: the synergy effects between oxygen groups and defects revealed from a combined experimental and DFT study; LI Jian, Fan Jiangtao, ALI Sajjad, LAN Guojun, TANG Haodong, HAN Wenfeng, LIU Huazhang, LI Bo, LI Ying; Chinese Journal Of Catalysts 2019,40:141-146, https://doi.org/10.1016/S1872-2067(19)63271-7

8. Highly stable Ru nanoparticles incorporated in mesoporous carbon catalysts for production of γ-valerolactone; Xiaoyan Liu, Guojun Lan, Panpan Su, Lihua Qian, Tomas Ramirez Reina, Liang Wang, Ying Li, Jian Liu; Catalysis Today 2020,351,75-82, DOI: 10.1016/j.cattod.2018.12.039

9. Defective graphene@diamond hybrid nanocarbon material as effective and stable metal-free catalyst for acetylene hydrochlorination; GuoJun Lan, Yiyang Qiu, Jiangtao Fan, Xiaolong Wang, Haodong Tang, Wenfeng Han, Huazhang Liu, Hongyang Liu, Shuang SONG and Ying Li; Chemical Communications 2019,55,1430-1433, DOI: 10.1039/C8CC09361J

2017年

1. 煤质柱状活性炭的尿素改性及其乙炔氢氯化性能; 王言, 邱一洋, 李自航, 李健, 王小龙, 蓝国钧等; 化学反应工程与工艺 2017, 33, 298-304, DOI: 10.11730/j.issn.1001-7631.2017.04.0298.07

2. 乙炔氢氯化反应低固汞催化剂热稳定性研究及寿命评估[J]; 李健, 蓝国钧, 支林轩, 刘化章, 李瑛; 工业催化 2017, 25(5) : 64-67, doi: 10.3969／j.issn.1008-1143.2017.05.01

2016年

1. Solid state synthesis of Ru-MC with highly dispersed semi-embedded ruthenium nanoparticles in porous carbon framework for benzoic acid hydrogenation; Zhengliang Jiang, Guojun Lan, Xiaoyan Liu, Haodong Tang, Ying Li; Catalysis Science & Technology 2016,6,7259-7266, https://doi.org/10.1039/C6CY01049K

2. Direct synthesis of nitrogen doped mesoporous carbon N-OMC for acetylene hydrochlorination; Yong Yang, Guojun Lan, Xiaolong Wang, Ying Li*; Chinese Journal of Catalysis 2016, 37(8) , 1242–1248, https://doi.org/10.1016/S1872-2067(16)62459-2

3. 氮掺杂多孔炭材料的制备及在多相催化中的应用; 杨勇, 王言, 蓝国钧, 李健, 李瑛; 化学通报 2016,79(10) :905-913,

4. 钌炭催化剂的制备及其在芳环加氢反应中的应用; 蒋正良，刘晓艳，蓝国钧，李瑛; 工业催化 2016, 24 (10) : 8-15

5. 炭负载金催化剂在乙炔氢氯化反应中的研究进展; 杨雪超，蓝国钧，李健，王言，李瑛; 中国氯碱 2016, (4) ，14-20

2015年

1. Improved catalytic performance of encapsulated Ru nanowires for aqueous-phase Fischer–Tropsch synthesis; Guojun Lan, Yi Yao, Xiaoming Zhang, Miao Guo, Haodong Tang, Ying Li*, Qihua Yang*; Catalysis Science & Technology 2016, 6, 2181–2187, DOI: 10.1039/c5cy01027f

2. Yolk–shell nanospheres with soluble aminopolystyrene as a reservoir for Pd NPs; Guojun Lan, Xiaoming Zhang, Xiaomin Zhang, Mingrun Li, Ying Li* Qihua Yang*; RSC ADVANCES 2015, 5, 35730-35736, DOI: 10.1039/c5ra04923g

3. 乙炔氢氯化反应制备氯乙烯低固汞催化剂失活机理[J].;支林轩, 李瑛, 唐浩东,等; 化学反应工程与工艺 2015, 31(4) :343-351

4. 多元配方乙炔氢氯化反应催化剂研究进展[J]; 王鹏程, 杨雪超, 李瑛; 聚氯乙烯 2015, 43(4) :1-17

5. 活性炭的孔结构及粒度对水溶液中汞离子吸附的影响[J].; 李自航, 王亮梅, 李瑛; 水处理技术 2015, 41(11) :54-58

6. 乙炔氢氯化反应低固汞催化剂的稳定性评估方法及寿命研究; 李瑛*，李健，蓝国钧，支林轩，刘化章; 中国氯碱

2014年

1. Directly synthesis of ruthenium containing ordered mesoporous carbon with tunable embedding degrees by a boric acid assisted approach; Guojun Lan, Haodong Tang, Yaping Zhou, Wenfeng Han, Huazhang Liu, Xiaonian Liu, Ying Li.; ChemCatChem 2014, 6(1) : 353-360, DOI:10.1002/cctc.201300693

2. Activation of a Carbon Support Through a Two-Step Wet Oxidation and Highly Active Ruthenium–Activated Carbon Catalysts for the Hydrogenation of Benzene; Ying Li, Guojun Lan, Guoquan Feng, Wei Jiang, Wenfeng Han, Haodong Tang, Huazhang Liu; ChemCatChem 2014, 6(2) : 572-579, DOI: 10.1002/cctc.201300873

3. Effect of Sulfuric Acid on Textural Properties and Catalytic Performance of Ruthenium-Containing Ordered Mesoporous Carbon Prepared via a Direct RuCl3/SBA-15 Hard Templated Method; Journal of Nanoscience and Nanotechnology 2014, 14(9) : 7131-7138, DOI: 10.1166/jnn.2014.8959

4. Effect of the graphitic degree of carbon support on the catalytic performance of ammonia synthesis over Ba-Ru-K/HSGC catalyst; Wei Jiang, Ying Li, Wenfeng Han, Yaping Zhou, Haodong Tang, Huazhang Liu; Journal of Energy Chemistry 2014, 23: 443-452

5. Geometric effect of Ru/HSAG@mSiO2: a catalyst for selective hydrogenation of cinnamaldehyde; Hangjia Shen, Haodong Tang, Haiyu Yan, Wenfeng Han, Ying Li and Jun Ni; RSC Adv 2014,4:30180-30185, DOI: 10.1039/C4RA04811C

6. 碳基固体酸催化剂的制备与应用; 汪祝胜，胡卫雅，李瑛，裴文; 浙江化工 2014, 45(12) : 47-51

7. ZrO2-Al2O3复合氧化物对负载 Ni 基催化剂合成甲烷的性能影响; 詹国武，李鑫，李瑛，唐浩东，刘化章; 浙江化工 2014，45(12) : 33-37

8. 四氟丙烯的制备路线及催化剂研究进展(待续）;李小娟，朱虹，唐浩东，李瑛，刘化章，韩文锋; 氟化工 2014, 21(4) : 4-14

9. 拟薄水铝石结构对-氧化铝水热稳定性的影响; 李翠，刘化章，陈珍珍，李瑛;工业催化 2014，22(10) : 751-755

2013年

1. Effect of pore structure of mesoporous carbon on its supported Ru catalysts for ammonia synthesis; Yaping Zhou, Guojun Lan, Bin Zhou, Wei Jiang, Wenfeng Han, Huazhang Liu, Ying Li; Chinese Journal of Catalysis 2013, 34(7) : 1395-1401, https://doi.org/10.1016/S1872-2067(12)60596-8

2. Enzyme confined in silica-based nanocages for biocatalysis in a Pickering emulsion; Jia Liu, Guojun Lan, Juan Peng, Ying Li, Can Li, Qihua Yang; Chemical Communications 2013, 49: 9558- 9560, https://doi.org/10.1039/C3CC45476B

3. Homogeneously dispersed gold nanoparticles stabilized on the walls of ordered mesoporous carbon via a simple and repeatable method with enhanced hydrogenation properties for nitro-group; Huizi Gu, Xiangsheng Xu, Ying Li. Ao-ang Chen, Ping Ao, Xinhuan Yan; MICROPOROUS AND MESOPOROUS MATERIALS 2013, 173: 189-196, https://doi.org/10.1016/j.micromeso.2013.02.018

4. Cr 掺杂对中孔MgF2酸性及孔结构的影响; 牛怀成, 李利春, 李瑛, 郭荔, 唐浩东, 韩文锋, 刘化章; 催化学报 2013, 34(2) : 373-378

5. 焙烧温度对Al2O3载体的性质及其负载的煤制代用天然气镍基催化剂性能的影响; 陈珍珍，董昭，王其刚，李翠，李瑛，刘化章; 工业催化 2013, 21(9) : 46-52

6. 水蒸气浓度对合成气制甲烷Ni/γ-Al2O3催化剂稳定性影响; 刘化章，董昭，陈珍珍，詹国武，李瑛; 天然气化工 2013, 38(5) : 55-58

7. SiO2-template synthesis of mesoporous MgF2 highly effective for Cl/F exchange reaction; Miao Chen, Jiamin Jin, Shenda Lin, Ying Li, Wucan Liu, Li Guo, Ling Li, Xiaonian Li;Journal of Fluorine Chemistry 2013, 150: 46-52, https://doi.org/10.1016/j.jfluchem.2013.03.003

8. 活性炭表面改性对水溶液中汞离子吸附行为的影响;王亮梅，姜维，朱淑飞，李瑛;水处理技术 2013, 39(9) : 41-48

2012年

1. Easy synthesis of iron doped ordered mesoporous carbon with tunable pore sizes; Haodong Tang,Guojun Lan, Jian Zhong, Huazhang Liu, Ying Li; Journal of Natural Gas Chemistry 2012, 21(3) : 275-281

2. Dual-functional click-triazole: a metal chelator and immobilization linker for the construction of a heterogeneous palladium catalyst and its application for the aerobic oxidation of alcohols; Guofu Zhang, Yong Wang, Xin Wen, Chengrong Ding, Ying Li; Chemical Communications 2012, 48(24) : 2979-2981, https://doi.org/10.1039/C2CC18023E

3. Controlled synthesis of highly dispersed semi-embedded ruthenium nanoparticles in porous carbon framework with more exposed active sites; Ying Li, Guojun Lan, Haiyan Wang, Haodong Tang, Xinhuan Yan, Huazhang Liu; Catalysis Communication 2012, 20: 29-35, https://doi.org/10.1016/j.catcom.2011.12.037

5. Catalytic Performance of Bi-functional WC/HZSM-5 Catalysts for n-Hexane Aromatization; Meiqin Shi, Ningning Chen, Chun'an Ma, Ying Li, Aiping Wei; 催化学报 2012, 33(3) : 570-575, DOI: 10.3724/SP.J.1088.2012.10965

6. 硝酸水热处理活性炭对其负载的 Ba-Ru-K 氨合成催化剂性能的影响; 冯国全, 蓝国钧, 李瑛, 韩文锋, 刘化章;催化学报 2012, 33(7) : 1191-1197

7. 差示扫描量热法对Fe1-xO 歧化反应的研究;蒋文，李瑛，刘化章;工业催化 2012, 20(3) : 28-33

8. 高比表面积氟化镁的合成及其在催化汇总的应用研究进展;牛怀成，李利春，李瑛，韩文峰，唐浩东，刘化章;化工进展 2012, 31(7) : 1484-1492

9. Treatment of the potent greenhouse gas, CHF3-An overview; Wenfeng Han, Ying Li, Haodong Tang, Huazhang Liu; Journal of Fluorine Chemistry 2012, 140: 7-16, https://doi.org/10.1016/j.jfluchem.2012.04.012

10. An efficient route for the preparation of activated carbon supported ruthenium catalysts with high performance for ammonia synthesis; Ying Li, Chonggen Pan, Wenfeng Han, Haifang Chai, Huazhang Liu; Catalysis Today 2011, 174: 97-105, https://doi.org/10.1016/j.cattod.2011.01.053

2011年

1. 介孔碳材料及其负载金属催化剂的合成及应用研究进展; 王海艳，严新焕，李瑛; 工业催化 2011, 19(4) : 1-6

2. 一步直接水热法合成高铁含量新型磁性有序介孔纳米复合材料; 刘会君，蓝国钧，颜宇，唐浩东，刘化章，李瑛; 工业催化 2011, 19(8) :11-15

3. Simple synthesis of semi-graphitized ordered mesoporous carbons with tunable pore sizes; Ying Li, Jian Zhong, Xiazhen Yang, Guojun Lan, Haodong Tang, Huazhang Liu; New Carbon Materials 2011, 26(2) : 123-129, https://doi.org/10.1016/S1872-5805(11)60071-1

4. 铁掺杂SBA-15基中孔材料的合成，表征及催化应用研究进展; 蓝国均，刘会君，唐浩东，李瑛*;化学通报 2011,74(1) : 32-40

5. Effects of Reaction Conditions on Performance of Ru Catalyst and Iron Catalyst for Ammonia Synthesis; Chonggen Pan, Ying Li, Wen Jiang, Huazhang Liu; Chinese Journal of Chemical Engineering 2011, 19(2) : 273-277, https://doi.org/10.1016/S1004-9541(11)60165-1

2010年

1. Catalytic pyrolysis of CHF3 over activated carbon and activated carbon supported potassium catalyst; Wenfeng Han, Eric M. Kennedy, Huazhang Liu, Ying Li, Adesoji A. Adesina, John C. Mackie and Bogdan Z. Dlugogorski; Journal Fluorine Chemistry 131(6) , 2010, 698-703, DOI: 10.1016/j.jfluchem.2010.03.002

2. 载体活性炭的预处理以及Ru/AC氨合成催化剂的性能; 潘崇根, 冯国全, 李瑛, 刘化章; 化学反应工程与工艺 2010, 26(6) : 532-538

3. 活性炭表面基团的调变对Ru/AC氨合成催化剂的影响; 欧阳亮, 李瑛, 潘崇根, 刘化章; 化学通报 2010, (8) : 693-698

4. 氮化硼载体对 Ru-Ba/BN 氨合成催化剂性能的影响; 徐春凤, 欧阳亮, 张佳, 周斌, 李瑛*, 刘化章; 催化学报 2010, 31(6) : 677-682

2009年

1. Direct Hydrothermal Synthesis of Iron-Containing Mesoporous Silica SBA-15: Potential as a Support for Gold Nanoparticles; Ying Li, Yejun Guan, Rutger A. van Santen, Patricia J. Kooyman, Iulian Dugulan, Can Li and Emiel J. M. Hensen.; Journal of Physical Chemistry C 2009, 113 (52) : 21831–21839, https://doi.org/10.1021/jp908059y

2. 从原子到纳米尺度铁物种的构筑合成,表征及催化应用; 李瑛; 第七届全国催化剂制备科学与技术研讨会论文

2008年

1. Iron-functionalized Al-SBA-15 for benzene hydroxylation; Ying Li, Haian Xia, Fengtao Fan, Zhaochi Feng, Rutger A. van Santen, Emiel J. M. Hensen and Can Li; Chemical Communications 2008, (6) : 774-776,

2. Surface functionalization of SBA-15 ordered mesoporous silicas: oxidation of benzene to phenol by nitrous oxide; Ying Li, Zhaochi Feng, R. A. van Santen, E. J. M. Hensen, and Can Li; Journal of Catalysis 2008, 255(2) : 190-196, https://doi.org/10.1016/j.jcat.2008.02.001

3. High-temperatureFeS-FeS2 solid-state transitions: Reactions of solid mackinawite with gaseous H2S;Ying Li, R.A. van Santen, Th. Weber; Journal of Solid State Chemistry 2008, 181(6) : 3151-3162，https://doi.org/10.1039/B717079C

4. 低温高活性熔铁催化剂上的超临界相费托合成反应;唐浩东, 刘化章,杨霞珍, 李瑛;催化学报 2008, 29(2) : 174-178

5. 活性炭负载钌催化剂上氨合成反应动力学研究;张宽, 唐浩东, 霍超, 李瑛, 潘崇根, 刘化章;工业催化 2008, 16(12) : 60-64

2007年

1. Controlling reaction pathways for alcohol dehydration and dehydrogenation over FeSBA-15 catalysts; Yejun Guan, Ying Li, E.J. M. Hensen, R.A. van Santen, and Can Li; Cataylysis Letters 2007, 117(1-2) : 18-24，https://doi.org/10.1007/s10562-007-9151-4

2. Effect of Aluminum on the Nature of the Iron Species in Fe-SBA-15; Ying Li, Zhaochi Feng, Hongchuan Xin, Fengtao Fan, P. C. M. M. Magusin, E.J. M. Hensen, R.A. van Santen, Qihua Yang, Can Li.; The Journal of Physical Chemistry B 2006,110(51) : 26114-26121，https://doi.org/10.1021/jp0657641

3. Mesoporous Aluminosilicates Synthesized with Single Molecular Precursor (Sec-Buo) 2AlOSi(OEt) 3 as Aluminum Source; Ying Li, Qihua Yang, Jie Yang, Can Li; Microporous and Mesoporous Materials 2006, 91(1-3) : 85-91，https://doi.org/10.1016/j.micromeso.2005.11.021

2006年

1. Synthesis of Mesoporous Aluminosilicates with Low Si/Al Ratios Using a Single-Source Molecular Precursor under Acidic Conditions; Ying Li, Qihua Yang, Jie Yang and Can Li; Journal of Porous Material 2006, 13(3-4) : 187-193，https://doi.org/10.1007/s10934-006-8003-8

2. Pore Size Design of Ordered Mesoporous Silicas by Controlling Micellar Properties of Triblock Copolymer EO20PO70EO20; Wenhua Zhang, Lei Zhang, Jinghai Xiu, Zhiqi Shen, Ying Li, Pinliang Ying, Can Li; Microporous and Mesoporous Materials 2006, 89(1-3) : 179-185，https://doi.org/10.1016/j.micromeso.2005.09.031

3. Synthesis of Bifunctionalized Mesoporous Organosilica Spheres for High-Performance Liquid Chromatography; Guiru Zhu, Qihua Yang, Dongmei Jiang, Jie Yang, Lei Zhang, Ying Li, Can Li; Journal Chromatogram A 2006, 1103(2) : 257-264，https://doi.org/10.1016/j.chroma.2005.11.026

4. Preparation and Characterization Of Ordered Mesoporous Carbons on SBA-15 Template; Zhonglai Li, Jing Zhang, Ying Li, Yejun Guan, Zhaochi Feng, Can Li; Journal Material Chemistry 2006, 16(14) : 1350-1354, https://doi.org/10.1039/B512697E

2005年

1. Direct Synthesis of Highly Ordered Fe-SBA-15 Mesoporous Materials under Weak Acidic Conditions; Ying Li, Zhaochi Feng, Yuxiang Lian, Keqiang Sun, Guoqing, Jia Qihua Yang, Can Li.; Microporous and Mesoporous Materials 2005, 84(1-3) : 41-49，https://doi.org/10.1016/j.micromeso.2005.05.021

2. Aluminium-containing Mesoporous Benzene-Silicas with Crystal-Like Pore Wall Structure; Qihua Yang, Jie Yang, Zhaochi Feng and Ying Li; Journal of Materials Chemistry 2005, 15(39) : 4268-4274，https://doi.org/10.1039/B507437A

3. Synthesis and Characterization of Phosphonic Acid Functionalized Organosilicas with Bimodal Nanostructure; Qihua Yang, Jie Yang, Jian Liu, Ying Li, and Can Li; Chemistry of Materials 2005, 17(11) : 3019-30244. Hydrothermally Stable Thioether-Bridged Mesoporous Materials with Void Defects in the Pore Walls; Jian Liu, Jie Yang, Qihua Yang, Gang Wang, Ying Li; Advanced Functional Materials 2005, 15(8) : 1297-1302, https://doi.org/10.1021/cm050198s

5. Highly Ordered Periodic Mesoporous Ethanesilica Synthesized under Neutral Conditions; Lei Zhang, Qihua Yang, Wenhua Zhang, Ying Li, Dongmei Jiang, Guiru Zhu, Can Li; Journal of Materials Chemistry 2005, 15(26) :2562-2569,

https://doi.org/10.1039/B504030B

6. Zhaochi Feng, and Can Li. Dibenzodioxin Adsorption on Inorganic Materials; Yejun Guan, Yan Liu, Weicheng Wu, Keqiang Sun, Ying Li, Pinliang Ying; Langmuir 2005, 21(9) : 3877-3880, https://doi.org/10.1021/la0468545

7. Al-SBA-15和Fe-SBA-15介孔材料的合成、表征及催化性能研究;李瑛;中国科学院研究生院

8. 用含Al-O-Si的分子前驱体(sec-BuO) 2AlOSi(OEt) 3合成高铝含量的介孔硅铝材料;李瑛，杨启华，李灿;第十届全国青年催化会议

2004年

1. Direct Synthesis of Al-SBA-15 Mesoporous Materials via Hydrolysis-Controlled Approach; Ying Li, Wenhua Zhang, Lei Zhang, Qihua Yang, Zhaobin Wei, Zhaochi Feng, Can Li.; The Journal of Physical Chemistry B 2004, 108(28) : 9739-9744，https://doi.org/10.1021/jp049824j

2. Hydrothermal Stability and Catalytic Activity of Aluminum-Containing Mesoporous Ethane-Silicas; Qihua Yang, Ying Li, Lei Zhang, Jie Yang, Jian Liu, and Can Li; The Journal of Physical Chemistry B 2004, 108(23) : 7934-7938，https://doi.org/10.1021/jp040124o

3. Aluminum-substituted Mesoporous Molecular Sieve SBA-15 Synthesized with a Hydrolysis-controlled Approach; Ying Li, Wenhua Zhang, Lei Zhang, Qihua Yang, Can Li;

4. Enhancement of a-oxygen Formation and N2O Decomposition on Fe/ZSM-5 Catalysts by Extraframework Al; Keqiang Sun, Haidong Zhang, Haian Xia, Yuxiang Lian, Ying Li, Zhaochi Feng, Pinliang Ying, Can Li; Chemical Communications 2004, 10(21) : 2480-2481, DOI:10.1039/B408854A

5. Fe掺杂高度有序SBA-15介孔材料的制备及紫外拉曼光谱表征; 李瑛，冯兆池，杨启华，李灿;

6. 酸性条件下高度有序金属搀杂SBA-15介孔材料的合成,; 李瑛，张文华，杨启华，李灿;中科院大连化物所第七界青年学术论坛论文集 2004，P5-8

7. Al-SBA-15 介孔材料的合成及其催化性能研究;李瑛, 杨启华, 杨杰, 李灿*;石油化工 2004 (33) 增刊 18-19

8. 以氧化镁为载体的钌基氨合成催化剂研究;霍超，李瑛，刘化章;浙江工业大学报 2002, 30(5) : 467-469

9. 以氧化物为载体的钌基氨合成催化剂研究;李瑛;2000年

10. 钌基氨合成催化剂促进剂及合成氨反应的动力学研究进展;李瑛, 霍超, 刘化章; 化学通报网络版，2000, C00132

11. 钌基氨合成催化剂中载体的作用机理; 李瑛，刘化章; 工业催化 2000, 8(3) :17-24

获权发明专利：

1）一种环保型低汞触媒连续生产装置，CN203862252U，2014-10-08

2）一种环保型低汞触媒连续生产工艺及其装置，CN103816944B，2015-09-09

3）一种中孔炭材料负载低汞催化剂及其应用，CN104324738B，2016-09-21