有关United States水牛城高校武刚教授报告会的通告,关于举办London州立大学布法罗分校武刚教授学术报告会的打招呼

告诉标题:Precious metal-free Electrocatalysts for High-Efficiency
Ammonia Production from 沃特er and
Nitrogen(用于氮还原合成氨的非常的慢非贵金属电催化剂) 报 告 人:武刚
教授告诉时间:二〇一八年七月二二十三日(星期肆)9:00-拾:30告诉地方:1陆号楼二楼214会议室接待广大师生踊跃参与!化学与化文大学二零一八年6月6日报告人简要介绍:
武刚教授是电化学能源与燃料电池催化剂研讨世界国际资深的专家。他于200四年在雷克雅未克医科大学电化学工程专门的工作获得学士学位,之后在浙大东军事和政院学(200肆-200陆),美利坚联邦合众国南卡罗莱纳大学(200陆-二〇一〇),美利坚合营国财富部洛斯阿拉莫斯国家实验室(二〇一〇-20拾)从事大学生后研讨专门的职业。2008年他升任为该国家实验室的永久研讨员。他在洛斯阿拉莫斯国家实验室的燃料电池中央办事了7年,领导和加入了多项根本的课题。该中央是世界上先导进的燃料电池商量营地。201四年她进入London州立布法罗大学的化学工程系任助理教授(assistant
professor)。这个学校的化学工程专门的学问在U.S.A.具备盛誉
(排名为3六)。自从201四年,他赢得United States财富部和国家自然基金帮衬超越三百万英镑。由于她的优异贡献,二〇一八年她提前两年晋级为这个学校的壹世教师(associate
professor)。他前进的非贵金属催化剂被广大感到是燃料电池催化剂商量的重大突破,使昂贵的白金催化剂能够被减价的素材所代表成为大概。那项工作,他以率先我于201壹年登载在《科学》杂志,并受到了广大的关切(引用超过2200次)。同时她的研讨还广大的关联到眼前的学术斟酌火爆,可再生财富的付出和利用,特别是电化学财富转化和储存,
以及光电催化和进取材质的钻研。他一度在列国学术期刊发布SCI切磋诗歌170多篇包涵Science, JACS, Advanced Materials, Account of Chemical Research, Angew.
Chem. Int. 艾德., ACS Nano, Energy Environ. Sci., Nano Letters, Nano
Today, Nano Energy 和Advanced Energy Materials。公开刊登专利6项;
参加编写学术小说八部, 在列国会议作特邀报告50余次。他的办事被引述超过一三千次
[h index: 56]。报告摘录:Precious metal-free Electrocatalysts for
High-Efficiency Ammonia Production from Water and NitrogenGang. Wu,
Associate Professor Department of Chemical and Biological Engineering,
University at Buffalo, the State University of New York, Buffalo, New
York 14260, United StatesEmail: gangwu@buffalo.eduAbstract: Sustainable
synthesis of Ammonia (NH三) is gaining great attention not only for its
application as an alternative renewable energy fuel but also to
substitute production of ammonia through the conventional Haber Bosh
process. The conventional Haber-Bosh uses fossil fuels in deriving
hydrogen from steam reforming of natural 瓦斯, is energy intensive and
also leads to significant CO二 emission. Alternatively, electrochemical
synthesis of ammonia (ESA) using renewable energy through the nitrogen
reduction reaction (NENVISION卡宴) in alkaline medium saves the use of hydrogen as
a reactant as the aqueous electrolyte forms the source of proton.
However, the standard reduction potential of nitrogen and hydrogen fall
in the same domain. Thus, hydrogen evolution reaction is so dominant at
the applied potential that selectivity of nitrogen reduction is a major
challenge in the budding 田野先生. Herein, we report a metal-organic
framework-derived nitrogen-doped metal free nanoporous carbon
electrocatalyst with a Faradaic efficiency (FE) of 10 % at -0.三 V vs 库罗德HE
under ambient conditions for the N奥迪Q5揽胜极光. It exhibits a remarkable
production rate of NH三 up to 三.四×拾-陆 mol cm-2 h-1 using aqueous 0.一 M
KOH electrolyte. The performance has been compared with other N doped
carbon derived from commercial polyaniline and nitrogen free KJ black
and N doped CNT. The stability of the nitrogen-doped electrocatalyst was
demonstrated during an 1八-hour continuous test with constant production
rates. This work provides a new insight into the rational design and
synthesis of nitrogen-doped and defect-rich carbon NHummerH二猎豹CS6 catalysts for NH三synthesis at ambient conditions.附属类小部件:无

有关United States水牛城高校武刚教授报告会的通告,关于举办London州立大学布法罗分校武刚教授学术报告会的打招呼。报告标题:Create Synergy between CO二 Utilization and Biorefinery for
Sustainability 报 告 人:林鸿飞
教师(U.S.A.华盛顿州立大学)报告时间:2018年10月三五日(礼拜一)早晨1伍:00告知地方:1陆号楼21四会议室应接广大师生前往!化学与化哲大学二〇一八年七月3日告诉摘要:In
line with the development of global decarbonized economy, chemical
industry may advance into a new era of manufacturing carbon-negative
fuels and commodity chemicals from the atmospheric CO二 with renewable
energy. Herein, we explore the synergy between CO贰 capture utilization
and biorefinery for producing carbon-negative formate chemicals using
biogenic CO2 released from biorefineries. Such a synergy may not only
realize zero carbon emission in a biorefinery but also improve the
carbon atom efficiency of biorefining process since the released CO2 in
conventional biorefineries can be re-captured and converted into the
final chemical products. Moreover, a novel catalytic reaction system is
presented by coupling the dehydrogenation of glucose with the
hydrogenation of a CO二-derived salt, ammonium carbonate, in an
ethanol–water mixture. For the first time, the reduction of CO二 to
formate by glucose has been achieved under ambient
conditions.报告人简要介绍:Dr. Hongfei Lin is an Associate Professor in the
Voiland School of Chemical Engineering and Bioengineering at WashingtonState University. He received his B.E and M.S. degrees in Chemical
Engineering from Tsinghua University, China, and his Ph.D. degree in
Chemical Engineering from Louisiana State University, USA.After
graduation, he has been a postdoctoral fellow for two years at the
University of California, Santa Barbara and then worked in renewable
energy industry for three years.Dr. Lins current research focuses on
catalysis for sustainability, with the emphasis on developing
liquid-phase catalytic processes for production of fuels and chemicals
from renewable feedstocks. He has authored 50 scientific papers in the
premier scientific journals including Energy and Environmental Science,
格林 Chemistry, ChemSusChem, etc.He has also delivered numerous
presentations in conferences and research institutions. He is the
international advisory board member of Energy Technology, and the
editorial board member of Advanced Composites and Hybrid Materials. He
also served as the guest editor for Catalysis Today. He is the current
Program Chair of the Energy and Fuels Division of American Chemical
Society (ACS).附件:无

报告题目:Advanced Atomically Dispersed Metal Cathode Catalysts
forHydrogen Fuel Cells 报 告 人:Prof. Gang Wu(United StatesUniversity of
Buffalo水牛城大学)报告时间:二〇一玖年十二月31日(星期六)下午10:30-1一:30告知地方:大学城校区B4-二壹伍会议室迎接广大师生插足!景况与财富大学2018年3月二十三日365bet官网 1报告人简要介绍:武刚讲少将时间从事于电化学能源和燃料电池催化剂的钻研。他脚下供职于伦敦州立高校布法罗分校(University
at Buffalo, The State University of New York,
i.e.SUNY-Buffalo)化学与生物工程系。于2004年在温尼伯医中国科学技术大学学电化学工程职业获得硕士学位,之后在南开东军事和政院学(200四-200陆),U.S.南卡罗莱纳大学(200陆-200玖),U.S.A.财富部洛斯阿拉莫斯国家实验室(二〇〇九-2010)从事博士后商量职业。20十年晋级为该国家实验室的永恒切磋员(staff
scientist)。他在洛斯阿拉莫斯国家实验室的燃料电池大旨办事了七年,领导和涉企了多项根本的课题。该中央是世界上起首进的燃料电池探讨集散地。他前进的非贵金属催化剂被普遍认为是燃料电池催化剂讨论的重大突破,使昂贵的白金催化剂可以被优惠的素材所代替成为只怕。那项工作,他以率先小编于201壹年见报在《科学》杂志,并十分受了广阔的钟情,目前引用超越已超越2500次。201肆年高商,他投入布法罗大学的赛璐珞与生物工程系任助理教师(Tenure-track
assistant
professor),初阶了单身的学术生涯。本校的化学工程专门的职业在U.S.A.富有盛誉(排行为36)。自从2014年,他拿走美利坚合营国财富部和国家自然基金接济超越4百万美金(>$四M)。由于他的特出进献,二〇一八年他提前两年提高为高校的终身教师(Tenured
associate
professor)。他的商量还广大的关联到当前的学术商量火爆,包含可再生财富的花费和选择,电化学财富转化和存款和储蓄,
以及光电催化和学好材质的研讨。他曾经在国际学术期刊公布商探讨文190多篇包含Science,
Nature Catalysis, JACS, Adv. Mater., Angew. Chem. Int. Ed., Energy
Environ. Sci., Acc. Chem. Res., ACS Nano, Nano Lett., Nano Today, Adv.
Energy Mater.
365bet官网 ,Nano Energy。他当着刊登专利六项;
参加编写学术小说玖部。在列国会议作约请报告100余次。他的做事被引述超越15000次[h-Index:
60]。他脚下出任RSC
Advances
杂志的副编辑。他于2018年被科睿唯安评为全世界高被引科学家之1。附属类小部件:无

科学普及通师范生:

华工满世界出色青年学者论坛意在面向海内外邀约具有分裂学术背景的青年才俊,围绕国际科学前沿、热门商讨领域以及行业行当的技术难题等张开研商和沟通。通过那些平台,相互启发、开辟视线,巩固国际调换与合营,促进双边一起升高。此番论坛的具体布署如下:

1、论坛时间

2018年4月22日上午

二、地点

华工发光材质与器件国家重大实验室502会议室

叁、论坛议程

时间

事项或议程

9:30-9:45

开幕式

研究院领导欢迎致辞

9:45-10:30

学术报告

题目:Rechargeable Hydrogen Batteries for Large-Scale Energy Storage

报告人:陈维 博士

美国斯坦福大学材料科学与工程系

应接广大师生参加!

材质科学与工程高校

2018年4月13日

附件:

告知题目:Rechargeable Hydrogen Batteries for Large-Scale Energy Storage

内容摘要:The ever-increasing global energy consumption has driven the
development of renewable energy technologies to reduce the greenhouse
瓦斯 emission and air pollution. Electrochemical energy storage devices,
such as batteries, are critical for enabling renewable yet intermittent
sources of solar and wind. Batteries including lithium ion, lead acid,
redox flow, and liquid metal show promise for grid-scale storage, but
they are still far from meeting the grid-storage needs such as low cost,
long cycle life, reliable safety, and reasonable energy density for cost
and footprint reduction. In this talk, I will firstly introduce a new
rechargeable battery chemistry of manganese-hydrogen battery, where the
cathode is cycled between soluble Mn2+ and solid MnO贰 with a
two-electron reaction, and the anode is cycled between H二 瓦斯 and H二O
through well-known catalytic reactions of hydrogen evolution and
oxidation.一 This battery chemistry exhibits a discharge voltage of ~ 1.3
V, rate capability of 100 mA cm-2 (36 seconds of discharge), and a
lifetime of over 10000 cycles without decay. We achieve a gravimetric
energy density of ~139 Wh kg-1 (volumetric energy density of ~ 210 Wh
L-1), with the theoretical gravimetric energy density of ~174 Wh kg-1
(volumetric energy density of ~ 263 Wh L-1) in a 4 M MnSO4 electrolyte.
The manganese-hydrogen battery involves low-cost abundant materials and
has potential to be scaled-up for large-scale energy storage. In the
second part of the talk, I will present a novel in situ electrochemical
oxidation tuning approach to develop a series of binary, ternary, and
quaternary transition metal (e.g., Co, Ni, Fe) oxides from their
corresponding dichalcogenides (sulfides, selenides and tellurides) as
highly active catalysts for enhanced oxygen evolution reaction.2,3 In
the last part of the talk, I will present transition metal
oxides/sulfides based supercapacitors with high power densities for
energy storage applications.4,5

  1. Wei Chen, Yi Cui, et al., A Manganese-Hydrogen Battery with Potential
    for Grid-Scale Energy Storage, Nature Energy, 2018, In Press.

  2. Wei Chen, Yi Cui, et al., In Situ Electrochemically Derived
    Nanoporous Oxides from Transition Metal Dichalcogenides for Active
    Oxygen Evolution Catalysts, Nano Letters, 2016, 16 (12), 7588-7596.

  3. Wei Chen, Yi Cui, et al., In Situ Electrochemical Oxidation Tuning of
    Transition Metal Disulfides to Oxides for Enhanced Water Oxidation, ACS
    Central Science, 2015, 1 (5), 244-251.

  4. Wei Chen, H. N. Alshareef, et al., One-Step Electrodeposited Nickel
    Cobalt Sulfide Nanosheet Arrays for High-Performance Asymmetric
    Supercapacitors, ACS Nano, 2014, 8 (9), 9531-9541.

  5. Wei Chen, Yi Cui, H. N. Alshareef, et al., High Performance
    Nanostructured Supercapacitors on a Sponge, Nano Letters, 2011, 11 (12),
    5165–5172.

报告人简单介绍

陈维硕士于2010年三月在北中国科学技术大学获取博士学位,2013年10月于沙特Abdul拉天子交通学院获取大学生学位。201四年八月迄今甘休在U.S.华盛顿圣Louis分校高校致力大学生后切磋。从事飞米材质的筹备及其在电催化电化学储能方面包车型地铁采取商讨。到现在已发布文章34篇,获得专利一个。

附件:无

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