General
Xiaoguang Guo    
Dalian Institute of Chemical Physics, Chinese Academy of Sciences
Email: xguo@dicp.ac.cn
Telephone: +86-411-84379951
Address: 457 Zhongshan Road, Dalian, China
Postcode: 116023

Research Areas

   
Areas
Nano-catalysis, nano-catalyst, C-H bond activation, methane conversion

Publications

   
Papers

  1. Jianpeng ShangXiaoguang Guo, Zuopeng Li, Youquan Deng, CO2 Activation and Fixation: Highly Efficient Syntheses of Hydroxy Carbamates over Au/Fe2O3, Green Chemistry, 2016, 18, 3082-3088. (co-first author)

  2. Changyong Sun, Guangzong Fang, Xiaoguang Guo*, Yuanli Hu, Shuqi Ma, Tianhua Yang, Jie Han, Hao Ma, Dali Tan, Xinhe Bao*, Methane Dehydroaromatization with periodic CH4 – H2 switch: A Promising Process for Aromatics and Hydrogen, Journal of Energy Chemistry, 2015, 24, 257-263.

  3. Xiaoguang Guo, Guangzong FangGang LiHao MaHongjun FanLiang Yu, Chao MaXing WuDehui DengMingming WeiDali Tan, Rui SiShuo Zhang, Jianqi LiLitao Sun, Zichao Tang, Xiulian PanXinhe Bao*Direct, Non-Oxidative Conversion of Methane to Ethylene, Aromatics, and HydrogenScience2014344616-619

  4. Xiaoguang Guo,  Qiang Fu*, Yanxiao Ning, Mingming Wei Mingrun Li Shuo Zhang Zheng Jiang Xinhe Bao*Ferrous Centers Confined on Core-Shell Nanostructures for Low-Temperature CO OxidationJournal of the American Chemical Society201213412350-12353

  5. Xiaoguang Guo Jianpeng Shang Jian Li Liguo WangYubo MaFeng Shi, Youquan Deng*, Atom-economy Synthesis of N-Substituted Carbamate from Urea Derivative and Dimethyl Carbonate Catalyzed by La/SiO2: Characterization and ActivityChinese Journal of Chemistry201028164-170

  6. Xiaoguang Guo Jianpeng Shang Jian Li Liguo Wang Yubo Ma Feng Shi Youquan Deng*Green and Practical Synthesis of Carbamates from Ureas and Organic CarbonatesSynthetic Communications2011411102-1111

  7. Xiaoguang Guo, Jianpeng Shang, Xiangyuan Ma, Jian Li, Hongzhe Zhang, Xinjiang Cui, Feng Shi, Youquan Deng, Synthesis of dialkyl hexamethylene-1,6- dicarbamate from 1,6-hexamediamine and alkyl carbamate over FeCl3 as catalyst. Catalysis Communications, 2009, 10, 1248–1251

  8. Hongzhe Zhang, Xiaoguang Guo, Qinghua Zhang, Yubo Ma, Hancheng Zhou, Jian Li, Liguo Wang, Youquan Deng*, Synthesis of dialkyl hexamethylene- dicarbamate from 1,6-hexamathylenediamine and alkyl carbamate over Y(NO3)3•6H2O catalyst, Journal of Molecular Catalysis A 2008, 296, 36-41.

  9. Shuqi MaXiaoguang Guo Lingxiao Zhao, Susannah Scott, Xinhe Bao*Recent progress in methane dehydroaromatization: From laboratory curiosities to promising technologyJournal of Energy Chemistry2013221-20.

  10. Rentao Mu Qiang Fu* Xiaoguang Guo Xuejun Xu Dali Tan Xinhe Bao*A comparative study in structure and reactivity of "FeOx-on-Pt" and "NiOx-on-Pt" catalystsScience Chian-Chemisitry201558162-168.

  11. Qiang Fu,* Yunxi Yao, Xiaoguang Guo Mingming Wei Yanxiao Ning, Hongyang LiuYang, Fan Zhi Liu Xinhe BaoReversible structural transformation of FeOx nanostructures on Pt under cycling redox conditions and its effect on oxidation catalysisPhysical Chemistry Chemical Physics20131514708-14714.

  12. Xuejun XuQiang Fu*Xiaoguang Guo Xinhe Bao, A Highly Active "NiO-on-Au" Surface Architecture for CO OxidationACS Catalysis201331810-1818.

  13. Hong XuQiang Fu*Xiaoguang Guo Bao Xinhe*Architecture of Pt-Co Bimetallic Catalysts for Catalytic CO Oxidation, ChemCatChem201241645-1652.

  14. Rentao Mu, Xiaoguang GuoQiang Fu*Xinhe BaoOscillation of Surface Structure and Reactivity of PtNi Bimetallic Catalysts with Redox Treatments at Variable TemperaturesJournal of Physical Chemistry C201111520590-20595.

  15. Jianpeng ShangXiaoguang GuoFeng ShiYubo MaFeng ZhouYouquan Deng*N-substituted carbamates syntheses with alkyl carbamates as carbonyl source over Ni-promoted Fe3O4 catalyst, Journal of Catalysis2011279: 328-336.

Research Interests

   
Interests
1) High Temperature Catalytic Materials and Mechanism Novel high-temperature catalytic materials were developed and fabricated at the scale of molecules and atoms, and the reaction and deactivation mechanism of the catalyst at high temperature were studied by means of advanced in-situ analysis and simulation. 2) Catalytic conversion of methane and low-carbon hydrocarbons The study includes: Oxidative or non-oxidative conversion of methane and low-carbon hydrocarbons; Oxidative or non-oxidative co-conversion of methane and low-carbon hydrocarbons; Highly selective C-H bond activation and identify the target C-H bond. The catalytic activation mechanism and C-C chain growth mechanism were studied via in-situ characterization technique.