首页期刊导航|材料科学技术(英文版)
期刊信息/Journal information
材料科学技术(英文版)
材料科学技术(英文版)

胡壮麟

月刊

1005-0302

jmst@imr.ac.cn

024-83978208

110016

沈阳市沈河区文化路72号

材料科学技术(英文版)/Journal Journal of Materials Science & TechnologyCSCDCSTPCD北大核心EISCI
查看更多>>本刊简称《JMST》,(ISSN 1005-0302,CN 21-1315/TG)。1985年创刊。是中国科协主管,中国金属学会,中国材料研究学会和中国科学院金属研究所联合主办的国际性英文期刊,以“加强国际交流,扩大学术影响,服务经济建设”为办刊宗旨,刊登世界各国的具有创新性和较高学术水平的原始性论文,并设有物约综述、快报、简讯及国内外材料界杰出学者简介等栏目,内容包括金属材料、无机非金属材料、复合材料及有机高分子材料等。
正式出版
收录年代

    Non-covalent interaction of atomically dispersed dual-site catalysts featuring Co and Ni nascent pair sites for efficient electrocatalytic overall water splitting

    Imran KhanYaogang ChenZhiyang LiWenjie Liu...
    210-225页
    查看更多>>摘要:The scarcity of highly effective and economical catalysts is a major impediment to the widespread adop-tion of electrochemical water splitting for the generation of hydrogen.MoS2,a low-cost candidate,suffers from inefficient catalytic activity.Nonetheless,a captivating strategy has emerged,which involves the en-gineering of heteroatom doping to enhance electrochemical proficiency.This investigation demonstrates a successful implementation of the strategy by combining ultrathin MoS2 nanosheets with Co and Ni dual single multi-atoms(DSMAs)grown directly on 2D N-doped carbon nanosheets(CoNi-MoS2/NCNs)for the purpose of improving hydrogen evolution reaction(HER)and oxygen evolution reaction(OER).With the aid of a dual-atom doped bifunctional electrocatalyst,effective water splitting has been achieved across a broad pH range in electrolytes.The double doping of Co and Ni strengthens their interactions,thereby altering the electromagnetic composition of the host MoS2 and ultimately leading to improved electrocat-alytic activity.Additionally,the synergistic effect between NCNs and MoS2 nanosheets provided efficient electron transport channels for ions and an ample surface area with open voids for ion diffusion.Con-sequently,the CoNi-MoS2/NCNs catalysts demonstrated exceptional stability and activity,producing low degree overpotentials of 180.5,124.9,and 196.4 mV for HER and 200,203,and 207 mV for OER in neu-tral,alkaline,and acidic mediums,respectively,while also exhibiting outstanding overall water-splitting performance,durability,and stability when used as an electrolyzer at universal pH.
      原文链接:
    • NETL
    • NSTL
    • 万方数据

    Recent advances in the synthesis and fabrication methods of high-entropy alloy nanoparticles

    Wenqiang WanKaiming LiangPengyu ZhuPeng He...
    226-246页
    查看更多>>摘要:High-entropy alloy nanoparticles(HEA NPs)containing four or more elements possess several advantages over traditional alloy nanoparticles(NPs),such as higher strength,greater thermal stability,enhanced ox-idation resistance,stronger catalytic activity,and greater flexibility in adjusting element composition and composition ratio.However,the development of HEA NPs has been limited by preparation difficulties caused by the challenge of achieving complete miscibility between multiple-component elements and the unique high-entropy states.In this review,we provide a comprehensive summary of recent break-throughs in synthesizing and fabricating HEA NPs.We describe the experimental procedures and princi-ples of various synthesis methods,including furnace pyrolysis,carbothermal shock(CTS)method,pulse laser,solvothermal method,microwave heating,hydrogen spillover-driven,sputtering deposition,anneal-ing on mesoporous materials,arc discharge methods and using liquid metal.Additionally,we delve into recent improvements made to some of these methods or novel NPs synthesized using them.Finally,we review the current applications of HEA NPs and provide insights into potential applications of this rapidly emerging research field.
      原文链接:
    • NETL
    • NSTL
    • 万方数据

    Enhanced strength-ductility synergy of magnesium alloy fabricated by ultrasound assisted directed energy deposition

    Xinzhi LiXuewei FangMugong ZhangBinglin Wang...
    247-261页
    查看更多>>摘要:Investigations on the fabrication of large-size lightweight Mg alloy components by wire-arc directed en-ergy deposition(DED)are steadily flourishing.Nevertheless,most of these components still suffer from inferior performance due to internal defects and inherent columnar grains.Herein,external ultrasound fields with different powers were successfully introduced into the wire-arc DED of AZ31 Mg alloy.The microstructure,defects,and mechanical properties of the fabricated components were carefully charac-terized and compared.The results show that the external ultrasound fields lead to decreased porosity,complete columnar to equiaxed transition(CET),and enhanced performance.Consequently,the UA90 samples exhibited a remarkable increase of~30%,~45%,and~189%in yield strength,ultimate tensile strength,and elongation,respectively.The dominant mechanisms of enhanced strength-ductility synergy were analyzed in detail.This study thus sheds new light on wire-arc DED of Mg alloy components with excellent performance via external ultrasound fields.
      原文链接:
    • NETL
    • NSTL
    • 万方数据

    Instructions & Forms for Authors

    封3页
      原文链接:
    • NETL
    • NSTL
    • 万方数据