留学主题咨询
¥350
芝士圈微信群成员首单优惠价
¥333 加入芝士圈微信群>>
微信扫码发送「咨询群优惠」进群
【北美工科硕博】非顶尖高校背景工科生申请美国全奖硕博的申请指导 从入门到入学
其他 DIY留学申请 全奖硕博项目 北美工程硕博申请 第一线经验指导 超高性价比留学- 课程简述: 北美工学博士后的全新第一线经验带你从入门到入学,自主DIY选择,申请具有超高性价比的硕博项目。
- 适用用户: DIY申请北美工程硕博项目的同学
¥350
芝士圈微信群成员首单优惠价
¥333 加入芝士圈微信群>>
微信扫码发送「咨询群优惠」进群
【申请成功不等于终点】预备新生入学,研究计划以及毕业后的就业去向(细到研究文献阅读,论文写作和导师沟通建议的分享)- 来自北美理工博士后科终极建议- 从预备入学到毕业。
其他 留学预备入学 毕业就业去向 硕博学习生活 北美理工博士后经验- 课程简述: 给你来自第一线血和汗的教训,教你如何快速适应硕博学习的项目,利用现有导师、学校和平台的一切资源,让你的留学不再是“游学”。
- 适用用户: 想要清晰了解硕博学习项目的血和泪。明确学位追求的付出和收获,不停探索自我人生追求的同学。
咨询前填写背景信息:学位课程,学分学习计划,研究兴趣,就业喜好。
5~10分钟:双向沟通时间,了解学生入学,课程,学分的学习情况。
20分钟:留学导师进行ppt分享,包括留学生活窍门,利用春假和寒假提升自己,规划留学时间,以及来自一线的科研学习分享(平衡科研生活,与导师相处,组会,工作会议报告,合作课题,换课题,研读论文,学术报告,学术论文,学术会议社交,申请博士后和工作等)。
10分钟:实时问答,进一步了解学生的亲身困惑和个人需求。
10分钟:深入分享来自一线的故事经历,帮助学生明确现阶段学习的计划和个人提升的重点。
10分钟:根据学生现阶段提出细化的时间规划,从入学阶段到学位资格考、学位答辩和寻职,列出大致个人提升计划和时间规划。
自我介绍
自我介绍
教育经历
教育
University of Oklahoma
PH.D Chemical Engineering
~
Lanzhou University
Bachelor Chemical Engineering
~
经历
Postdoctoral Researcher
Arizona State University , School for the Engineering of Matter, Transport, & Energy
~
Validated student member
North American Catalysis Society
~
The North American Catalysis Society was founded in 1956 to promote and encourage the growth and development of the science of catalysis and those scientific disciplines ancillary thereto; to provide educational services to members and other interested individuals; to organize and participate in professional meetings of scientists; to report, discuss and exchange information and viewpoints in the field of catalysis; to serve as a central exchange for the several catalysis clubs concerning information on their activities; and to provide liaison with foreign catalysis societies, with the International Congress on Catalysis, and with other scientific organizations and individuals.
Approved Loyalty Member
Psi-k organization
~
Psi-k is a Europe-based, worldwide network of researchers working on the advancement of first-principles computational materials science. Its mission is to develop fundamental theory, algorithms, and computer codes in order to understand, predict, and design materials properties and functions. Theoretical condensed matter physics, quantum chemistry, thermodynamics, and statistical mechanics form its scientific core. Psi-k is a bottom-up researchers' network, established in 1994, to build strength and cooperation in the field of computational electronic structure. Since 2007 Psi-k has been a company limited by guarantee with a registered office at STFC Daresbury Laboratory.
获奖 & 荣誉
Gallogly College of Engineering Dissertation Excellence Award
Gallogly College of Engineering, University of Oklahoma
Rewarding and encouraging excellence in research is a core value of the Gallogly College of Engineering(GCoE). The Gallogly College of Engineering Dissertation Excellence Award (DEA) is designed to reward.
PhD students that have achieved outstanding research results and encourage these students to complete their dissertation with excellence. The purpose of this announcement is to solicit outstanding applications to receive these awards.
发表文章
Lanthanum-Doped Graphene for Electrocatalytic Reduction of Nitrogen Monoxide
Y Yan, Z Masood, B Wang
The Journal of Physical Chemistry C
Electrocatalytic conversion of nitrogen oxides is a promising approach to address nitrogen pollution in underground water. Nitrogen oxides, such as nitrate and nitrite, can be reduced to N2 and NH3 over an electrocatalyst, with NO as the key intermediate, subsequent reaction of which controls the overall activity and selectivity. Here, we report density functional theory calculations of NO electrocatalytic reduction (NOER) over lanthanum embedded in graphene. This study reveals the unique mechanism of NOER over rare-earth-based catalysts, highlighting the potential application of atomically dispersed f-block elements for electrocatalytic reactions.
Proton shuttling flattens the energy landscape of nitrite catalytic reduction
Pengcheng Huang, Yu Yan, Aayan Banerjee, Leon Lefferts, Bin Wang, Jimmy A Faria Albanese
Journal of Catalysis
Water molecules can enhance or inhibit hydrogenation reactions depending on the nature of the reactive species and active sites. In metal-catalyzed nitrite (NO2–) reduction the presence of protons is essential to complete the reaction in the aqueous phase. This work provides new insights that will be key in developing more efficient catalysts and processes for catalytic removal of micro-pollutants, such as nitrate and nitrite, in drinking water and more broadly to hydrogenation reactions in aqueous phase.
服务评价
- 还没有收到过评论