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为提升我校研究生课程体系国际化程度,加快我校研究生教育国际化进程,增强研究生创新意识与创新能力,培养具有国际视野的高质量人才,由郑州大学研究生院主办、化学与分子工程学院承办的2019年研究生国际暑期学校——化学分校于2019年8月2日至9日在郑州大学新校区化学馆化学与分子工程学院学术报告厅(208室)举行。通过聘请国内外知名学者讲授(全英授课)学术前沿课程和专业基础课程,实现优质教学资源共享,为研究生搭建夯实专业基础、提高研究水平、培养创新能力的国际交流平台。
一、招生对象及要求
国内外学校相关专业在校研究生、本院研究生及本校相关专业在校研究生;准备第一志愿报考我院硕士研究生的全日制本科三年级在校生(化学专业学生,其中一本高校的学生专业排名在年级前20%,二本高校的学生专业排名在年级前10%。);因全程采用英语授课,要求学员英语功底好,原则上要求本科生英语通过CET4以上,研究生英语通过CET6以上,且具有英语听课的适应能力。
二、招生计划
本次暑期学校,计划招收学生80-100人,其中本科生30-60名,研究生30-40名。
三、教学安排:
1.2019年8月2日学生报到,8月3日上午开学典礼,8月9日下午结业典礼。
2.邀请日本京都大学副校长 Hiroshi Kitagawa 教授,日本京都大学化学院 张权 特别研究员,美国斯坦福大学 Georges EI Fakhri 教授,美国斯坦福大学 王俊峰 教授,中科院国家纳米科学中心副主任、国家杰青 唐智勇 研究员,郑州大学国家杰青 臧双全 教授为学员授课。同时邀请日本京都大学化学院博士研究生Keigo Kobayashi(D2),Yojiro Kimura(D2),Kentaro Aoki(D1),Masaki Donoshita(D1)与学员进行交流。
授课内容(暂定)及个人简介如下:
Dr. Hiroshi Kitagawa (Professor)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
京都大学副校长
Title: DOS Engineering for New Green Nano-Materials
Abstract:
The property of element is correlated directly with its electron configuration. In a solid, the density of states (DOS) at the Fermi level affects the physical and chemical properties. The method of alloying elements has been used to improve the properties of materials for many years. In particular, the solid-solution-type alloy is advantageous because tuning the compositions and/or combinations of the constituent elements can continuously control the properties. However, the majority of bulk alloys are of the phase-separated type under ambient conditions, where constituent elements are immiscible with each other. To overcome the challenge of the bulk-phase metallurgical aspects, we have focused on the nanosize effect and developed methods involving “non-equilibrium synthesis” or “a process of hydrogen absorption/desorption”. We propose a new concept of “density-of-states engineering” for the design of materials having the most desirable and suitable properties by means of “interelement fusion”. Novel solid-solution alloys of Pd-Pt, Ag-Rh, and Pd-Ru systems in which the constituent elements are immiscible in the bulk state are presented and discussed [1-3]. Our present work provides a guiding principle for the design of a suitable DOS shape according to the intended physical and/or chemical properties and a method for the development of novel solid-solution alloys [4-6].
References
[1] D. Wu, K. Kusada, H. Kitagawa, Science and Technology of Advanced Materials, 17, 583-596 (2016).
[2] K. Kusada and H. Kitagawa, Advanced Materials, 28, 1129-1142 (2016).
[3] H. Kobayashi, K. Kusada, H. Kitagawa, Accounts of Chemical Research, 48, 1551-1559 (2015).
[4] Q. Zhang, K. Kusada, D. Wu, T. Yamamoto, T. Toriyama, S. Matsumura, S. Kawaguchi, Y. Kubota, H. Kitagawa, Nature Communications, 9, 510 (2018).
[5] F. Wang, K. Kusada, D. Wu, T. Yamamoto, T. Toriyama, S. Matsumura, Y. Nanba, M. Koyama, H. Kitagawa, Angew. Chem. Int. Ed., 57, 4505-4509 (2018).
[6] H. Kobayashi, M. Yamauchi, R. Ikeda, T. Yamamoto, S. Matsumura, H. Kitagawa, Chemical Science, 10, 3289-3294 (2019).
Dr. Quan Zhang (Specific Research Fellow)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
京都大学化学院 特别研究员
Title: Novel Solid-Solution Alloy Nanocrystals and their Electrocatalytic Applications
Abstract:
The study of electrocatalytic processes is becoming a significant issue due to increasing interest in clean energy conversion. To date, the most effective catalysts for the electrocatalytic processes related to clean energy conversion are noble metal based materials. Among them, solid-solution alloy nanocrystals, in which different metals are randomly mixed at atomic level, have shown much improved catalytic performance on these reactions due to the synergetic effect. However, the development of solid-solution alloy NPs for electrocatalytic application has long been limited by the immiscibility of the constituents, because most of the metal combinations are immiscible in the bulk state. In addition, like size and morphology, crystal structure is a very important factor that strongly affects the properties of an alloy because the electronic structure drastically changes with the crystal structure. However, the influence of the crystal structure has rarely been studied because control of the crystal structure of alloy NPs is still a great challenge. In this study, we have focused on Au─Ru system in which the Au and Ru are immiscible in the bulk state and have the largest gap of reduction potential in noble metals. By precisely tuning the reduction speed of the metal precursors, we overcome the immiscibility of the system and demonstrate the first example on selective crystal structure control of alloy. Our work introduced a new material design degree of freedom, “crystal structure”, to create novel chemical and physical properties for alloy NPs.
Stanford University, Prof. Georges EI Fakhri
Title: Molecular Imaging of Patho-Physiology Using PET and MR
Dr. Georges El Fakhri is the Nathaniel & Diana Alpert Professor of Radiology at Harvard Medical School (HMS) and the founding Director of the Endowed Gordon Center for Medical Imaging at Massachusetts General Hospital and HMS with over 120 members. He is also co-Director of the Division of Nuclear Medicine and Molecular Imaging. Dr El Fakhri is an internationally recognized expert in quantitative molecular imaging (SPECT, PET-CT, and PET-MR). He has authored or co-authored over 250 papers and mentored over 90 students, post-docs and faculty. He has been a chartered member of many NIH study sections pertaining to Medical Imaging and Radiotherapy as well as DOD, DOE and other Foundations. He has received many awards and honors, including the Mark Tetalman Award from the Society of Nuclear Medicine, the Dana Foundation Brain and Immuno-Imaging Award, the Howard Hughes Medical Institutes Training Innovation Award. He was elected Fellow to the SNMMI, AAPM and IEEE for “contributions to biological imaging”.
Stanford University, Prof. Junfeng Wang
Title: Investigation on translating novel molecular imaging probes for in vivo molecular imaging and its application
Mainly research on fluorescent probes for imaging biologically important metal ions and anions (in vitro) based on medicinal chemistry and organic chemistry and MRI and PET probes focused on bioactive targets and their applications in imaging as well as therapeutics. Area of Excellence – Investigation on translating novel molecular imaging probes for in vivo molecular imaging and its application as an extracellular marker for cancer detection, staging and therapeutics into the clinic. As well as apply fluorine-18 labeling techniques to the superior compounds mGluRs for Thrombus imaging and Positron Emission Tomography (PET) imaging.
Prof. Zhiyong Tang, The National Center for Nanoscience and Technology
Title: Studies on Catalytic Properties of Metal Organic Framework materials
Prof. Shuangquan Zang, Zhengzhou University
Title: Design and Synthesis of Metal Clusters and Metal Organic Functional Materials
Mr. Keigo Kobayashi (D2)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
Title: Atomic Rearrangement of Metal Nanoparticles by Incorporation of Boron
Mr. Yojiro Kimura (D2)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
Title: Proton-Electron Transfer System Based on Nickel Dithiolene Complexes with Pyrazine Skeletons
Mr. Kentaro Aoki (D1)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
Title: Modular Cavities: Induced Fit of Polar and Apolar Guests into Halogen-Based Receptors
Mr. Masaki Donoshita (D1)
Division of Chemistry, Graduate School of Science, Kyoto University, Japan
Title: Drastic Rearrangement of Self-Assembled Hydrogen-Bonded Tapes in a Molecular Crystal
3.主讲教授与学员座谈、交流;组织参观学科实验室、我院实验中心仪器共享平台及与学科相关老师进行座谈。
四、报名与录取
1.报名时间:即日起至2019年7月2日止
2.申请报名
(1)下载填写报名申请表:
下载地址:郑州大学化学与分子工程学院主页——学院公告——2019暑期学校报名表(不必盖章)
(2)请将填写完整的申请表、学生证和身份证电子版于7月2日前发送到如下电子邮箱:hxyb@zzu.edu.cn
联系人:刘晨湘 汤华彪 联系电话:0371-67781983
(3)录取
郑州大学化学与分子工程学院将聘请相关领域专家,根据申请人提供的材料对其进行综合评价,并作为主要录取依据。录取结果拟于7月28日前在郑州大学化学与分子工程学院主页上公布。入选学生需在7月30日前确认是否参加,逾期未确认视为放弃此资格。
(4)报到地点:郑州大学化学与分子工程学院研究生办公室204
五、食宿及交通费:我院将为入选学生提供学习期间在校的食宿(学校或家庭所在地是郑州的学生原则上不安排住宿)。外地学生请自行预定往返车票,我院将资助外地学生往返郑州的火车硬座票或汽车票费用,学生须提供往返车票票据。另外为学员提供自习地点(化203教室)和电子阅览室(化205室)进行自习和互联网检索。
六、注意事项:
1.学生报到时需携带身份证、学生证。
2.暑期学校举办期间,要求学生全程遵守暑期学校相关规定。
3.学员须具有健康的身体和良好的心理素质,如发生医疗费用及个人行为导致的意外事故由个人承担。
以上学生经考核合格,顺利结业的学生可获暑期学校结业证书,本校研究生并获得2个学分,冲抵相关选修课学分。对于参加暑期学校的本科生第一志愿报考我校并被录取后,在统招生中优先享受学业全额奖学金(第一学年),并获得一次性奖励3000-5000元。
欢迎广大在读本科生、硕士研究生、博士研究生积极报名参加本次暑期学校!
郑州大学研究生院
郑州大学化学与分子工程学院
2019年5月12日
郑州大学化学与分子工程学院2019年研究生国际暑期学校报名表.docx
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