典型文献
Fundamentals and comprehensive insights on pulsed laser synthesis of advanced materials for diverse photo-and electrocatalytic applications
文献摘要:
The global energy crisis is increasing the demand for innovative materials with high purity and functionality for the development of clean energy production and storage.The development of novel photo-and electrocatalysts significantly depends on synthetic techniques that facilitate the production of tailored advanced nanomaterials.The emerging use of pulsed laser in liquid synthesis has attracted immense interest as an effective synthetic technology with several advantages over conventional chemical and physical synthetic routes,including the fine-tuning of size,composition,surface,and crystalline structures,and defect densities and is associated with the catalytic,electronic,thermal,optical,and mechanical properties of the produced nanomaterials.Herein,we present an overview of the fundamental understanding and importance of the pulsed laser process,namely various roles and mechanisms involved in the production of various types of nanomaterials,such as metal nanoparticles,oxides,non-oxides,and carbon-based materials.We mainly cover the advancement of photo-and electrocatalytic nanomaterials via pulsed laser-assisted technologies with detailed mechanistic insights and structural optimization along with effective catalytic performances in various energy and environmental remediation processes.Finally,the future directions and challenges of pulsed laser techniques are briefly underlined.This review can exert practical guidance for the future design and fabrication of innovative pulsed laser-induced nanomaterials with fascinating properties for advanced catalysis applications.
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作者姓名:
Jayaraman Theerthagiri;K.Karuppasamy;Seung Jun Lee;R.Shwetharani;Hyun-Seok Kim;S.K.Khadheer Pasha;Muthupandian Ashokkumar;Myong Yong Choi
作者机构:
Core-Facility Center for Photochemistry&Nanomaterials,Department of Chemistry,Research Institute of Natural Sciences,Gyeongsang National University,Jinju 52828,Republic of Korea;Division of Electronics and Electrical Engineering,Dongguk University-Seoul,Seoul 04620,Republic of Korea;Centre for Nano and Material Sciences,Jain University,Jain Global Campus,Kanakapura,Bangalore 562112 Karnataka,India;Department of Physics,Vellore Institute of Technology(Amaravati Campus),Amaravati,522501 Guntur,Andhra Pradesh,India;School of Chemistry,University of Melbourne,Parkville Campus,Melbourne,VIC 3010,Australia
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引用格式:
[1]Jayaraman Theerthagiri;K.Karuppasamy;Seung Jun Lee;R.Shwetharani;Hyun-Seok Kim;S.K.Khadheer Pasha;Muthupandian Ashokkumar;Myong Yong Choi-.Fundamentals and comprehensive insights on pulsed laser synthesis of advanced materials for diverse photo-and electrocatalytic applications)[J].光:科学与应用(英文版),2022(09):2018-2064
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Fundamentals,comprehensive,insights,pulsed,laser,synthesis,advanced,diverse,photo,electrocatalytic,applications,global,energy,crisis,increasing,demand,innovative,high,purity,functionality,development,clean,production,storage,novel,electrocatalysts,significantly,depends,synthetic,techniques,that,facilitate,tailored,nanomaterials,emerging,use,liquid,has,attracted,immense,interest,effective,technology,several,advantages,conventional,chemical,physical,routes,including,fine,tuning,size,composition,surface,crystalline,structures,defect,densities,associated,electronic,thermal,optical,mechanical,properties,produced,Herein,we,present,overview,fundamental,understanding,importance,namely,various,roles,mechanisms,involved,types,such,metal,nanoparticles,oxides,carbon,We,mainly,cover,advancement,via,assisted,technologies,detailed,mechanistic,structural,optimization,along,performances,environmental,remediation,processes,Finally,future,directions,challenges,are,briefly,underlined,This,review,exert,practical,guidance,design,fabrication,induced,fascinating,catalysis
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0.599251
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