贵州理工学院机构知识库

成果/Result

Design of highly stable and selective core/yolk-shell nanocatalysts-A review被引量：229收藏 分享

作者：Li, Ziwei Li, Min Bian, Zhoufeng Kathiraser, Yasotha Kawi, Sibudjing

机构：Guizhou Inst Technol;Guizhou Inst Technol;Natl Univ Singapore

来源：APPLIED CATALYSIS B-ENVIRONMENTAL  2016

关键词：Design   Core/yolk shell   Nanocatalysts   Stability   Selectivity  

Recent advances in process and catalyst for CO2 reforming of methane被引量：131收藏 分享

作者：Li, Ziwei Lin, Qian Li, Min Cao, Jianxin Liu, Fei

机构：Guizhou Univ;Sch Civil Engn;Guizhou Univ;Natl Univ Singapore

来源：RENEWABLE & SUSTAINABLE ENERGY REVIEWS  2020

关键词：CO2 reforming of CH4 (DRM)   Plasma   Solar thermocatalysis   Solar photocatalysis   Photothermo catalysis   Catalyst design strategy  

NiCo@NiCo phyllosilicate@CeO2 hollow core shell catalysts for steam reforming of toluene as biomass tar model compound被引量：116收藏 分享

作者：Li, Ziwei Li, Min Ashok, Jangam Sibudjing, Kawi

机构：Guizhou Inst Technol;Guizhou Inst Technol;Natl Univ Singapore

来源：ENERGY CONVERSION AND MANAGEMENT  2019

关键词：Sintering resistant   Core shell   NiCo@NiCo phyllosilicate@CeO2   Biomass   Steam reforming of toluene  

Synthesis strategies of carbon nanotube supported and confined catalysts for thermal catalysis被引量：36收藏 分享

作者：Li, Min Li, Ziwei Lin, Qian Cao, Jianxin Liu, Fei

机构：Guizhou Univ;Guizhou Inst Technol;Natl Univ Singapore

来源：CHEMICAL ENGINEERING JOURNAL  2022

关键词：Carbon nanotube   Confined catalyst   Supported catalyst   Synthesis methods   Thermal catalysis  

Electrocatalyst design strategies for ammonia production via N-2 reduction被引量：20收藏 分享

作者：Li, Ziwei Li, Min Yang, Jiachen Liao, Mingyue Song, Guoqiang

机构：Guizhou Univ;Guizhou Inst Technol;Guizhou Inst Technol;Natl Univ Singapore

来源：CATALYSIS TODAY  2022

关键词：Electrochemical N-2 reduction   Electrocatalyst   Design strategy   Experimental protocol  

Sintering resistant cubic ceria yolk Ni phyllosilicate shell catalyst for methane dry reforming被引量：13收藏 分享

作者：Li, Min Li, Ziwei Lin, Qian Cao, Jianxin Liu, Fei

机构：Guizhou Univ;Guizhou Inst Technol;Natl Univ Singapore

来源：CATALYSIS TODAY  2022

关键词：Methane dry reforming   Cubic CeO2   Yolk shell   Sintering resistance   Carbon resistance  

Efficient electrochemical CO2 reduction via CuAg doped CeO2被引量：10收藏 分享

作者：Luo, Mei Fu, Xiangmin Geng, Shuo Li, Ziwei Li, Min

机构：Guizhou Univ;Guizhou Inst Technol

来源：FUEL  2023

关键词：Electrochemical CO 2 reduction   Cu-Ag bimetallic catalysts   Electronic delocalization effect   Oxygen vacancy   Mechanism understanding  

Boosting electrochemical CO2 reduction via valence state and oxygen vacancy controllable Bi-Sn/CeO2 nanorod被引量：8收藏 分享

作者：Xue, Jing Fu, Xiangmin Geng, Shuo Wang, Keliang Li, Ziwei

机构：Guizhou Univ;Guizhou Inst Technol;Liupanshui Normal Univ

来源：JOURNAL OF ENVIRONMENTAL MANAGEMENT  2023

关键词：CO 2 electroreduction reaction   Formate   Bi and Sn anchored CeO 2 nanorod   In -situ ATR-FTIR measurement   DFT calculation  

Effect of the Alkyl Density of Acrylic Acid Ester on the Viscosity-Reducing Effect of Polycarboxylate Superplasticizer被引量：2收藏 分享

作者：Chen, Yingying Chen, Yujie Liu, Yuan Tao, Jia Liu, Runxia

机构：Guizhou Univ;China Railway Fifth Bur Grp Co Ltd;Guizhou Tianwei Bldg Mat Technol Co Ltd;Guizhou Inst Technol

来源：MOLECULES  2023

关键词：polycarboxylate superplasticizer   acrylic acid ester   viscosity-reducing effect   methyl acrylate   cement pastes   concrete  

The effect of alkyl acrylate ester side chain length of polycarboxylate superplasticizer on the flow behaviour of concrete被引量：1收藏 分享

作者：Chen, Yujie Chen, Yingying Xie, Yuxiang Liu, Yuan Tao, Jia

机构：Guizhou Univ;Guizhou Inst Technol;China Railway Fifth Bur Grp Co Ltd;Guizhou Tianwei Bldg Mat Technol Co Ltd

来源：CONSTRUCTION AND BUILDING MATERIALS  2024

关键词：Polycarboxylate superplasticizer   Conformation   Viscosity reduction   Workability   Concrete  

Unveiling the role of silicon in boosting electrochemical carbon dioxide reduction via carbon nanotubes@bismuth silicates被引量：0收藏 分享

作者：Liu, Fuming Luo, Mei Wang, Keliang Li, Ziwei Liu, Fei

机构：Guizhou Univ;Guizhou Inst Technol;Liupanshui Normal Univ

来源：JOURNAL OF COLLOID AND INTERFACE SCIENCE  2025

关键词：CO2 adsorption   Electrochemical CO2 reduction   CNT@Bi silicates catalyst   Abundant oxygen  

Insights into the role of Mo in boosting CH x * oxidation for CO ₂ methane reforming被引量：0收藏 分享

作者：Lu, Jiali Shi, Yongyong He, Xiong Zhou, Qiao Li, Ziwei

机构：Guizhou Univ;Guizhou Inst Technol

来源：RENEWABLE ENERGY  2024

关键词：CHx* oxidation   Reaction route   Mo/Niphy@SiO2   Core shell   CO2 reforming of methane