《Advanced Powder Materials》

作品数:146被引量:227H指数:9
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《Advanced Powder Materials》
主办单位:中南大学
最新期次:2024年6期更多>>
发文主题:FUSIONBATTERIESLASERCOO更多>>
发文领域:理学金属学及工艺一般工业技术电气工程更多>>
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Emerging semiconductor ionic materials tailored by mixed ionic-electronic conductors for advanced fuel cells
《Advanced Powder Materials》2024年第6期1-25,共25页Bushra Bibi Atif Nazar Bin Zhu Fan Yang Muhammad Yousaf Rizwan Raza M.A.K.Yousaf Shah Jung-Sik Kim Muhammad Afzal Yongpeng Lei Yifu Jing Peter Lund Sining Yun 
supported by the Science and Technology Department of Jiangsu Province under Grant(BE2022029);Jiangsu Provincial Innovation and Entrepreneurship Talent Program(JSSCRC2021491);Key Program for International S&T Cooperation Projects of Shaanxi Province(2019KWZ-03);Key Program for Nature Science Foundation of Shaanxi Province(2019JZ-20);Key Science and Technology Innovation Team of Shaanxi Province(2022TD-34);the Beijing Natural Science Foundation under Grant(IS23050)is greatly acknowledged.
Mixed ionic-electronic conductors(MIECs)play a crucial role in the landscape of energy conversion and storage technologies,with a pronounced focus on electrode materials’application in solid oxide fuel cells(SOFCs)an...
关键词:MIEC SIM e-i coupling SIMFC TCO Surface and interface HETEROSTRUCTURES 
Promoting effect of interfacial hole accumulation on photoelectrochemicalwater oxidation in BiVO_(4) and Mo-doped BiVO_(4)
《Advanced Powder Materials》2024年第6期26-32,共7页Xiaofeng Wu Freddy E.Oropeza Shixin Chang Marcus Einert Qingyang Wu Clément Maheu Julia Gallenberger Chuanmu Tian Kangle Lv Jan P.Hofmann 
support of the China Scholarship Council,affiliated to the Ministry of Education of the P.R.of China(Scholarships no.201708420159,202208320036 and 202008420222);JG and JPH acknowledge financial support from the German Ministry of Education and Research BMBF under project 03HY105H;Dr.Marcus Einert and Dr.Clément Maheu acknowledge funding from the German Research Foundation(DFG)under projects 469377211 and 423746744,respectively。
Hole transfer at the semiconductor-electrolyte interface is a key elementary process in(photo)electrochemical(PEC)water oxidation.However,up to now,a detailed understanding of the hole transfer and the influence of su...
关键词:Water splitting Bismuth vanadate Rate law analysis Surface holes PHOTOELECTROCHEMISTRY 
Advances in powder nano-photocatalysts as pollutant removal and as emerging contaminants in water:Analysis of pros and cons on health and environment
《Advanced Powder Materials》2024年第6期33-69,共37页Sahil Thakur Abhijeet Ojha Sushil Kumar Kansal Navneet Kumar Gupta Hendrik C.Swart Junghyun Cho Andrej Kuznetsov Shuhui Sun Jai Prakash 
Council of Scientific and Industrial Research(CSIR),New Delhi for providing Junior Research Fellowship(JRF),Ministry of Education(MoE);New Delhi and National Institute of Technology(NIT),Hamirpur for financial support.
Photocatalysis is an advanced oxidation process where light exposure triggers a semiconducting nanomaterial(nano-photocatalyst)to generate electron-hole(e^(-)/h^(+))pairs and free radicals.This phenomenon is widely us...
关键词:Powder nano-photocatalysts Advanced oxidation processes Wastewater treatment Pros and cons Emerging contaminants Health and environment issues 
Green and regulable synthesis of CdNCN on CdS semiconductor:Atomic-level heterostructures for enhanced photocatalytic hydrogen evolution
《Advanced Powder Materials》2024年第6期70-80,共11页Taiyu Huang Zimo Huang Xixian Yang Siyuan Yang Qiongzhi Gao Xin Cai Yingju Liu Yueping Fang Shanqing Zhang Shengsen Zhang 
financially supported by the National Natural Science Foundation of China(Nos.22078118,22274059 and 42277219);the Natural Science Foundation of Guangdong Province,China(Nos.2023A1515010740 and 2023A1515030131).
In the realm of photoenergy conversion,the scarcity of efficient light-driven semiconductors poses a significant obstacle to the advancement of photocatalysis,highlighting the critical need for researchers to explore ...
关键词:CdNCN semiconductor CDS Photocatalytic hydrogen production Atomic-level interface engineer 
Atmosphere engineering of metal-free Te/C_(3)N_(4) p-n heterojunction for nearly 100% photocatalytic converting CO_(2) to CO
《Advanced Powder Materials》2024年第6期81-90,共10页Huange Liao Kai Huang Weidong Hou Huazhang Guo Cheng Lian Jiye Zhang Zheng Liu Liang Wang 
funded by China Postdoctoral Science Foundation(2023T160406);Shanghai Pujiang Program(21PJD022);This project was also supported by Singapore Ministry of Education AcRF Tier 2(MOE-MOET2EP10121-0006)and AcRF Tier 1(RG7/21);This work is Supported by Shanghai Technical Service Center of Science and Engineering Computing,Shanghai University.
Carbon nitride(CN)-based heterojunction photocatalysts hold promise for efficient carbon dioxide(CO_(2))reduction.However,suboptimal production yields and limited selectivity in CO_(2)conversion pose significant barri...
关键词:p-n heterojunction Carbon nitride Built-in electric field Photocatalytic carbon dioxide reduction Heterojunction photocatalysts 
Advances in electrocatalytic urea synthesis:From fundamentals to applications
《Advanced Powder Materials》2024年第6期91-141,共51页Zhenlin Mo Jincheng Mu Baojun Liu 
supported financially by the National Natural Science Foundation of China(No.22066006);Guizhou Province Science and Technology Projects(Foundation-ZK[2022]Key 012).
The electrocatalytic synthesis of urea(ESU)is a green and sustainable alternative to conventional production methods,and the related research is still in its infancy.Up to now,the field has been explored by several re...
关键词:ELECTROCATALYSIS Urea synthesis CATALYSTS Performance and mechanism Economic and technical evaluation 
Atomically dispersed NiO_(x) cluster on high-index Pt facets boost ethanol electrooxidation through long-range synergistic sites
《Advanced Powder Materials》2024年第6期142-149,共8页Yao Wang Meng Zheng Yunrui Li Lidan Zhu Haoran Li Qishun Wang Hui Zhao Jiawei Zhang Yuming Dong Yongfa Zhu 
supported by the National Natural Science Foundation of China(22305101);the Natural Science Foundation of Jiangsu Province(BK20231032);the Fundamental Research Funds for the Central Universities(JUSRP123020);Startup Funding at Jiangnan University(1045219032220100).
Constructing the desired long-range dual sites to enhance the C–C bond-cleavage and CO-tolerate ability during ethanol oxidation reaction is of importance for further applications.Herein,the concept of holding atomic...
关键词:Atomically dispersed cluster NiO_(x)/Pt Ethanol electrooxidation C-C bond-cleavage CO resistance 
Heteroatom doping in 2D MXenes for energy storage/conversion applications
《Advanced Powder Materials》2024年第6期150-177,共28页Sumanta Sahoo Rajesh Kumar Iftikhar Hussain Kaili Zhang 
support by the Anusandhan National Research Foundation(ANRF),Department of Science&Technology(DST),New Delhi,India under Ramanujan award(SB/S2/RJN-159/2017);Hussain and K.Zhang acknowledge financial support by the Hong Kong Research Grants Council(project number CityU 11201522).
MXenes(inorganic metal carbides,nitrides,and carbonitrides)are currently the rising star of two-dimensional(2D)family.After its discovery in 2011,initial research was concentrated on pristine MXenes only.However,in th...
关键词:MXene DOPING SUPERCAPACITOR Secondary battery ELECTROCATALYSIS 
Ultrahigh energy density in dielectric nanocomposites by modulating nanofiller orientation and polymer crystallization behavior被引量:1
《Advanced Powder Materials》2024年第5期1-10,共10页Ru Guo Hang Luo Di Zhai Zhida Xiao Haoran Xie Yuan Liu Fan Wang Xun Jiang Dou Zhang 
the support by National Natural Science Foundation of China(52172265 and 52002404);Excellent Youth Science Foundation of Hunan Province(2022JJ20067);Central South University Innovation-Driven Research Program(2023CXQD010);the State Key Laboratory of Powder Metallurgy,Central South University,Changsha,China.
High-energy density dielectrics for electrostatic capacitors are in urgent demand for advanced electronics and electrical power systems.Poly(vinylidene fluoride)(PVDF)based nanocomposites have attracted remarkable att...
关键词:Dielectrics Energy storage Poly(vinylidene fluoride) BaTiO3 nanowire Crystallization behavior 
Theoretical design and experimental verification of high-entropy carbide ablative resistant coating
《Advanced Powder Materials》2024年第5期11-22,共12页Lingxiang Guo Shiwei Huang Wei Li Junshuai Lv Jia Sun 
supported by the National Key R&D Program of China(2022YFB3708600,2021YFA0715802);Aeronautical Science Foundation of China(2022Z055053004);Fund of Key Laboratory of National Defense Science and Technology(WDZC20235250505);National Major Science and Technology Projects of China(J2022-VI-0011-0042).
Composition design of high-entropy carbides is a topic of great scientific interest for the hot-end parts in the aerospace field.A novel theoretical method through an inverse composition design route,i.e.initially ens...
关键词:High-entropy ceramic Theoretical design Thermal spray coating Ablation resistance First-principles calculation 
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