近五年授权专利:
1.一种淀粉基氮掺杂中孔成型炭及其制备方法与应用,2020-04-24,授权,李瑛,蓝国钧,王言,唐浩东,王小龙,韩文锋,刘化章
2.一种以氰胺废渣为模板制备煤质多级孔活性炭材料的方法,2020-05-29,授权,李瑛;邱一洋;蓝国钧;唐浩东;韩文锋
3.一种利用氰胺化钙制备的掺氮中孔炭及其制备方法和应用,2020-06-26,授权,李瑛;童慧琦;邱一洋;蓝国钧;唐浩东;韩文锋
4.一种单原子汞催化剂及其制备方法和应用,2021-12-7,授权,李瑛;范江涛;蓝国
5.一种高稳定性的超低汞催化剂及其制备方法和应用,2021-12-7,授权,李瑛;范江涛;蓝国钧
6.一种炭负载钌基氨合成催化剂及其制备方法,2022-08-05,授权,李瑛;马永承;韩文锋;刘化章;唐浩东
7.一种用于合成生物柴油的催化剂及其制备方法,2022-05-17,授权,李瑛;蓝国钧;邱一洋;唐浩东;韩文锋;
8.一种阻燃活性炭及其制备方法,2022-10-14,授权,李瑛;邱一洋;蓝国钧;唐浩东;韩文锋;
9.一种高比表面积石墨及其制备方法,2022-08-30,授权,李瑛;蓝国钧;邱一洋;梁霄;
10.一种杂原子掺杂淀粉炭及其制备法,2022-10-10,授权,李瑛;邱一洋;蓝国钧;魏抒豪;
11.一种电石法氯乙烯单体生产用的金催化剂及其制备方法,2022-12-11,授权,李瑛;蓝国钧;叶清枫;
12.利用氰胺废渣制备的石墨炭在含酚废水处理中的应用,2022-11-15,授权,李瑛;梁霄;何锋;蓝国钧;邱一洋;唐浩东;韩文锋;
13.一 种废塑料衍生纳米多孔碳材料及其制备方法和应用,2023-09-08,授权,李瑛;魏抒豪;邱一洋;蓝国钧;韩文锋;唐浩东
近五年发表论文:
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;
(2)基于超稳低汞触媒的万吨级氯乙烯单体无汞排放生产工艺;
邱一洋1,蓝国钧1,张国杰2,吕峰2,何秀梅2,杨巴特尔2,史丽杰2,乔丽霞2,陈翊3,李瑛1*;
聚氯乙烯第45届年会征文;
(3)Modulatig 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 and Ying Li *;
New J. Chem. 2023, 47, 6258–6265;
(4)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;
(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;
Journal of Environmental Sciences. 2023,131,162-172;
(5)Bismuth nanoplatelets: universal synthetic strategy and emerging application for PEC-type photodetectors;
Zhao, Y (Zhao, Y.) [1] , [2] ; Kuklin, AV (Kuklin, A. V.) [3] ; Huang, H (Huang, H.) ; Zhang, Q (Zhang, Q.) [2] ; Wei, S (Wei, S.) [4] Zhang, H (Zhang, H.) [4] ; Yu, C (Yu, C.) [5] ; Li, Y (Li, Y.) [1] ; Agren, H (Agren, H.) [6] ; Gao, L (Gao, L.) [1] , [2];
Materials Today Nano. 2023,23,100349;
(6) Enabling ultrafine Ru nanoparticles with tunable electronic structures via double-shel hollow interlayer confinementstrategy toward enhanced HER performance;
Xiaoyan Liu, Lihua Gong, Liwei Wang, Chaoqun Chang, Panpan Su, Yuhai Dou, Shi Xue Dou, Ying Li, Feilong Gong, Jian Liu;
Nano Letters. 2023;
2022年
(1)Emerging applications of MXenes for photodetection: Recent advances and future challenges;
Gao, LF (Gao, Lingfeng) [1] ; Zhao, YM (Zhao, Yiming) [2] ; Chang, XH (Chang, Xiaohua) [1] ; Zhang, J (Zhang, Jian) [3] ; Li, Y (Li, Ying) [2] ; Wageh, S (Wageh, Swelm) [4] ; Al-Hartomy, OA (Al-Hartomy, Omar A.) [4] ; Al-Sehemi, AG (Al-Sehemi, Abdullah G.) [5] ; Zhang, H (Zhang, Han) [3] ; Ågren, H (Agren, Hans) ;
materials Today. 2022.61.169-190;
(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,Haodong Tang, and Ying Li*;
(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, and Ying Li;
ACS Sustainable Chemistry & Engineering.ACS Sustainable Chem. Eng. 2022, 10, 10476−10485;
(4)The Reaction mechanism of acetylene hydrochlorination on defective carbon supported ruthenium catalysts by DFT calculations and experimental approaches;
Xiaolong Wang,a Dong Fan,b Guojun Lan,a Zaizhe Cheng,a Xiucheng Sun,a Yiyang Qiu,a Wenfeng Han,a Haodong Tang, a Huazhang Liu,a Yihan Zhu, a Xiaojun Hu *b and Ying Li *a;
(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;
(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;
(7)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,YingLi,Jian Lin;
Applied Surface Science.572 (2022) 151360;
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;
(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,in press;
(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;
(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;
(5) Stabilization of Heterogeneous Hydrogenation Catalysts for the Aqueous‐Phase Reactions of Renewable Feedstocks;
Xiaoyan Liu a,b, Guojun Lan a,*, Zhenqing Li a, Lihua Qian a, Jian Liu b,c, Ying Li a,#;
Chinese Journal of Catalysis 42 (2021) 694–709;
(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);
(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;
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;
(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;
(3) Role of surface defects of carbon nanotubes on catalytic performance of barium promoted ruthenium catalyst for ammonia synthesis;
Yongcheng Ma a , Guojun Lan a , Wenzhao Fu b , Ying Lai a , Wenfeng Han a , Haodong Tang a ,Huazhang Liu a , Ying Li a , ∗;
Journal of Energy Chemistry 41 (2020) 79–86;
(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
(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;
(6) Improved Catalytic Performance in Dimethyl Ether Carbonylation over Hierarchical Mordenite by Enhancing Mass Transfer[J].;
Shuaipeng Liu, Zaizhe Cheng, Ying Li, Junhao Sun, Kai Cai, Shouying Huang,* Jing Lv, Shengping Wang, and Xinbin Ma.;
Industrial & Engineering Chemistry Research 2020, 59(31) : 13861-13869;
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*;
CHEMICAL COMMUNICATIONS 2019, 55(10) : 1430-1433;
(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;
(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;
(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;
(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;
(6) A highly stable and active mesoporous ruthenium catalyst for ammonia synthesis prepared by a RuCl3/SiO2‐templated approach;
Yaping Zhou a,b, Yongcheng Ma a, Guojun Lan a, Haodong Tang a, Wenfeng Han a, Huazhang Liu a, Ying Li a,*;
Chinese Journal of Catalysis 40 (2019) 114–123;
(7) N-doped carbon spheres impregnated with highly monodispersed ruthenium nanoparticles as a hydrogenation catalyst;
Xiaoyan Liua,b, Guojun Lana, Yash Boyjoob, Lihua Qiana, Sai Guc, Cameron Alexander Hurd Priceb,c, Liang Wangd, Ying Lia,⁎, Jian Liub,c,⁎;
Chemical Engineering Journal 374 (2019) 895–903;