This study presents an overview of the current status of hydrogen production in relation to the global requirement for energy and resources.Subsequently,it symmetrically outlines the advantages and disadvantages of va...This study presents an overview of the current status of hydrogen production in relation to the global requirement for energy and resources.Subsequently,it symmetrically outlines the advantages and disadvantages of various production routes including fossil fuel/biomass conversion,water electrolysis,microbial fermentation,and photocatalysis(PC),in terms of their technologies,economy,energy consumption,and costs.Considering the characteristics of hydrogen energy and the current infrastructure issues,it highlights that onsite production is indispensable and convenient for some special occasions.Finally,it briefly summarizes the current industrialization situation and presents future development and research directions,such as theoretical research strengthening,renewable raw material development,process coupling,and sustainable energy use.展开更多
Nanogeology is a subject that is a combination of geology and nanoscale science,and it has been a frontier field in recent years.It is also a new subject with the features of intersectionality and multidisciplinary. D...Nanogeology is a subject that is a combination of geology and nanoscale science,and it has been a frontier field in recent years.It is also a new subject with the features of intersectionality and multidisciplinary. Digging deeper into geological problems and nanoscale phenomena helps better revealing the more essential mechanisms and processes in geological science,which is also an evitable path in the development of geology.In this paper,we elaborate the concept,feature and main subdisciplines,and summarize three stages ofnanogeology development from preliminary research in the 1990s to subject formation in China.After summarizing the researchers'achievements in this field,we illustrate some primary research progresses of nanogeology in China as eight subdiseiplines.On the basis of the above content,we propose the development prospect of nanogeology in China.There are many geologic problems with scientific values and economic benefits,such as research of geologic fundamental problems,resource exploration and development,mechanism study and prediction of geological activities (disasters),mechanism research and management of environmental pollution and others.Nanogeology has a great potential in China to solve all of these problems.As a result,the theories and methods of nanogeology will become enriching and advanced.It offers important theoretical basis and technological methods to deal with major issues concerning the national economy and the people's livelihoods,such as the prediction of geological activities,as well as resource dislribution and its exploration and utilization.展开更多
The MXene has emerged as a rising star on the horizon of material science due to widespread applications ranging from energy and catalysis to biomedicine[1,2].These two-dimensional(2D)transition metal carbides/nitride...The MXene has emerged as a rising star on the horizon of material science due to widespread applications ranging from energy and catalysis to biomedicine[1,2].These two-dimensional(2D)transition metal carbides/nitrides well collect a variety of attractive properties such as rich surface chemistry,high hydrophily,and metallic conductivity that are difficultly attained for all in conventional 2D atomic crystals[3,4].展开更多
基金the National Natural Science Foundation of China under Grant No.20906063the Liaoning BaiQianWan Talents Program under Grant No.2018921046+1 种基金the Scientific Research Project of Liaoning Provincial Department of Education under Grant No.LJGD2020002the Shenyang Youth Science and Technology Project under Grant No.RC200325.
文摘This study presents an overview of the current status of hydrogen production in relation to the global requirement for energy and resources.Subsequently,it symmetrically outlines the advantages and disadvantages of various production routes including fossil fuel/biomass conversion,water electrolysis,microbial fermentation,and photocatalysis(PC),in terms of their technologies,economy,energy consumption,and costs.Considering the characteristics of hydrogen energy and the current infrastructure issues,it highlights that onsite production is indispensable and convenient for some special occasions.Finally,it briefly summarizes the current industrialization situation and presents future development and research directions,such as theoretical research strengthening,renewable raw material development,process coupling,and sustainable energy use.
文摘Nanogeology is a subject that is a combination of geology and nanoscale science,and it has been a frontier field in recent years.It is also a new subject with the features of intersectionality and multidisciplinary. Digging deeper into geological problems and nanoscale phenomena helps better revealing the more essential mechanisms and processes in geological science,which is also an evitable path in the development of geology.In this paper,we elaborate the concept,feature and main subdisciplines,and summarize three stages ofnanogeology development from preliminary research in the 1990s to subject formation in China.After summarizing the researchers'achievements in this field,we illustrate some primary research progresses of nanogeology in China as eight subdiseiplines.On the basis of the above content,we propose the development prospect of nanogeology in China.There are many geologic problems with scientific values and economic benefits,such as research of geologic fundamental problems,resource exploration and development,mechanism study and prediction of geological activities (disasters),mechanism research and management of environmental pollution and others.Nanogeology has a great potential in China to solve all of these problems.As a result,the theories and methods of nanogeology will become enriching and advanced.It offers important theoretical basis and technological methods to deal with major issues concerning the national economy and the people's livelihoods,such as the prediction of geological activities,as well as resource dislribution and its exploration and utilization.
文摘The MXene has emerged as a rising star on the horizon of material science due to widespread applications ranging from energy and catalysis to biomedicine[1,2].These two-dimensional(2D)transition metal carbides/nitrides well collect a variety of attractive properties such as rich surface chemistry,high hydrophily,and metallic conductivity that are difficultly attained for all in conventional 2D atomic crystals[3,4].
