鄭州大學(xué)2017年研究生國(guó)際暑期學(xué)校——化學(xué)分校招生簡(jiǎn)章

發(fā)布人：楊明 信息來源：化學(xué)與分子工程學(xué)院 發(fā)布日期：2017.06.23 閱讀次數(shù)：22906

為提升我校研究生課程體系國(guó)際化程度，加快我校研究生教育國(guó)際化進(jìn)程，增強(qiáng)研究生創(chuàng)新意識(shí)與創(chuàng)新能力，培養(yǎng)具有國(guó)際視野的高質(zhì)量人才,由鄭州大學(xué)研究生院主辦、化學(xué)與分子工程學(xué)院承辦的2017年研究生國(guó)際暑期學(xué)校——化學(xué)分校于2017年8月13日至16日在鄭州大學(xué)新校區(qū)化學(xué)館化學(xué)與分子工程學(xué)院學(xué)術(shù)報(bào)告廳（208室）舉行。通過聘請(qǐng)國(guó)內(nèi)外知名學(xué)者講授（全英授課）學(xué)術(shù)前沿課程和專業(yè)基礎(chǔ)課程，實(shí)現(xiàn)優(yōu)質(zhì)教學(xué)資源共享，為研究生搭建夯實(shí)專業(yè)基礎(chǔ)、提高研究水平、培養(yǎng)創(chuàng)新能力的國(guó)際交流平臺(tái)。

一、招生對(duì)象及要求

國(guó)內(nèi)外學(xué)校相關(guān)專業(yè)在校研究生、本院研究生及本校相關(guān)專業(yè)在校研究生；準(zhǔn)備第一志愿報(bào)考我院碩士研究生的全日制本科三年級(jí)在校生（化學(xué)專業(yè)學(xué)生，其中一本高校的學(xué)生專業(yè)排名在年級(jí)前20％，二本高校的學(xué)生專業(yè)排名在年級(jí)前10％。）；因全程采用英語(yǔ)授課，要求學(xué)員英語(yǔ)功底好，原則上要求本科生英語(yǔ)通過CET4以上，研究生英語(yǔ)通過CET6以上，且具有英語(yǔ)聽課的適應(yīng)能力。

二、招生計(jì)劃

本次暑期學(xué)校，計(jì)劃招收學(xué)生80-100人，其中本科生20-40名，研究生40-60名。

三、教學(xué)安排：

1．2017年8月13日學(xué)生報(bào)到，8月14日上午開學(xué)典禮，8月16日結(jié)業(yè)。

2．邀請(qǐng)加拿大皇家科學(xué)院院士、加拿大McGill University， Chao-Jun Li 教授, 日本京都大學(xué)副校長(zhǎng)Hiroshi KITAGAWA教授，中科院上海有機(jī)所丁奎嶺 院士 和 北京大學(xué) 席振峰 院士為學(xué)員授課。授課內(nèi)容如下(暫定）：

Prof. Chao-Jun Li

Title：Green Chemistry towards Future Sustainability

Chemistry plays the central role in modern sciences and technologies. The efficient transformation of matters is vital in any new products in the pharmaceutical, materials science, microelectronics, energy and biotech industries. On the other hand, chemical manufacturing and chemical products have also affected us adversely from personal, local, national, and international scales. As a new philosophy over the last two decades, Green Chemistry through the 12 principles of green chemistry has emerged to develop the next generation of chemical science and technologies, as well as chemical products to meet such challenges in a proactive manner both environmentally and economically, ideally from readily available natural resources directly in a benign solvent with renewable energy. This talk will discuss the fundamental principles of green chemistry and our own laboratory’s exploration of various unconventional chemical reactivity to simplify protection-deprotections, halogenation-dehalogenation as well as the possibility of chemical transformations beyond functionalization and defunctionalization in syntheses, and for solar energy conversions. Many of these new reactions can also be used to functionalize biomass directly.

Prof. Zhenfeng Xi

Title: Chemistry of Organo-di-Metallic Reagents Cooperative Effects and Applications

1)The development of organometallic reagents remains one of the most important frontiers in synthetic chemistry. Commonly used organometallic reagents (such as RLi and RMgBr) are typically monometallic compounds, although they aggregate in many cases. When two carbon–metal bonds are in the same molecule in close proximity, however, these two carbon–metal moieties may exhibit novel reactivity. In this course, new reactions and synthetic applications of the organo-di-metallic reagents, with focus on 1,4-dilithio-1,3-butadienes, will be outlined.

2)The dimetallic 1,4-dilithio-1,3-butadienes and their transmetallated derivatives provide unique synthetic organometallic reagents that are very different from monometallic reagents, both in terms of reactivity and synthetic application. These organo-dimetallic reagents provide access to interesting and useful compounds that are not available by other means. Moreover, given the possibilities afforded, the study of organo-dimetallic and organo-polymetallic compounds should yield further synthetic applications in the near future.

3)Three major topics will be discussed in this course. Part I: Synthesis and Structural Characterization of Organo-di-Metallic Reagents; Part II: Semibullvalene and Diazasemibullvalene: Recent Advances in the Synthesis, Reaction Chemistry, and Synthetic Applications; Part III: Metalla-aromatics and Spiro Metalla-aromatics.

Prof. Hiroshi KITAGAWA

Title:

1. Low-dimensional electron systems situated on dimensional crossover region.

2. Solid-state protonics using MOFs and SurMOFs, and nano-ionics using nanomaterials.

3. Creation of Novel Solid-Solution Alloy Nanoparticles on the Basis of Density-of-States Engineering by Interelement Fusion.

4. Molecular conductors and conducting MOFs.

Prof. Kuiling Ding

Title：Chiral Catalyst Evolution: Rational Design and Serendipity

1) Development of practical methods for asymmetric synthesis of optically active compounds represents a great challenge in the area of chiral chemistry, in which chiral ligand and catalyst design plays a critically important role. As our continuing effort to develop highly efficient chiral catalysts for homogeneous asymmetric reactions, the first part of presentation will focus on the stories of chiral catalyst evolution based on the mechanistic understanding and serendipity.

2) The second part will present a conceptually new strategy, i.e. “self-supporting” approach, for the immobilization of homogeneous catalysts through self-assembly of chiral multi-topic ligands and metal ions, without using any support. In addition to the simple recovery and convenient recycle commonly associated with heterogeneous catalysts, such kind of homochiral metal-organic assemblies may also exhibit advantages of facile preparation, robust chiral structures and excellent enantioselecｔivities. These remarkable features coupled with the versatile methods for rational design and synthesis of the multitopic chiral ligand, suggest a considerable scope of application of this “self-supporting” strategy in the development of new, efficient, and practical catalysts for the heterogeneous asymmetric catalysis.

3．主講教授與學(xué)員座談、交流；組織參觀學(xué)科實(shí)驗(yàn)室、我院實(shí)驗(yàn)中心儀器共享平臺(tái)及與學(xué)科相關(guān)老師進(jìn)行座談。

四、報(bào)名與錄取

1．報(bào)名時(shí)間：即日起至2017年6月29日止

2．申請(qǐng)報(bào)名

（1）下載填寫報(bào)名申請(qǐng)表：

下載地址：鄭州大學(xué)化學(xué)與分子工程學(xué)院主頁(yè)——學(xué)院公告——2017暑期學(xué)校報(bào)名表

（2）請(qǐng)將填寫完整的申請(qǐng)表、學(xué)生證和身份證電子版于6月29日前發(fā)送到如下電子郵箱：hxyb@zzu.edu.cn

收件人：劉晨湘， 聯(lián)系電話：0371-67781815

（3）錄取

鄭州大學(xué)化學(xué)與分子工程學(xué)院將聘請(qǐng)相關(guān)領(lǐng)域?qū)＜遥鶕?jù)申請(qǐng)人提供的材料對(duì)其進(jìn)行綜合評(píng)價(jià)，并作為主要錄取依據(jù)。錄取結(jié)果擬于7月3日前在鄭州大學(xué)化學(xué)與分子工程學(xué)院主頁(yè)上公布。入選學(xué)生需在7月5日前確認(rèn)是否參加，逾期未確認(rèn)視為放棄此資格。

（4）報(bào)到地點(diǎn)：鄭州大學(xué)化學(xué)與分子工程學(xué)院研究生辦

五、食宿及交通費(fèi)：我院將為入選學(xué)生提供學(xué)習(xí)期間在校的食宿（學(xué)校或家庭所在地是鄭州的學(xué)生原則上不安排住宿）。外地學(xué)生請(qǐng)自行預(yù)定往返車票，我院將資助外地學(xué)生往返鄭州的火車硬座票或汽車票費(fèi)用，學(xué)生須提供往返車票票據(jù)。另外為學(xué)員提供自習(xí)地點(diǎn)（化203教室）和電子閱覽室（化205室）進(jìn)行自習(xí)和互聯(lián)網(wǎng)檢索。

六、注意事項(xiàng)：

1．學(xué)生報(bào)到時(shí)需攜帶身份證、學(xué)生證。

2．暑期學(xué)校舉辦期間，要求學(xué)生全程遵守暑期學(xué)校相關(guān)規(guī)定。

3．學(xué)員須具有健康的身體和良好的心理素質(zhì)，如發(fā)生醫(yī)療費(fèi)用及個(gè)人行為導(dǎo)致的意外事故由個(gè)人承擔(dān)。

以上學(xué)生經(jīng)考核合格，順利結(jié)業(yè)的學(xué)生可獲暑期學(xué)校結(jié)業(yè)證書，本校研究生并獲得2個(gè)學(xué)分，沖抵相關(guān)選修課學(xué)分。對(duì)于參加暑期學(xué)校的本科生第一志愿報(bào)考我校并被錄取后，在統(tǒng)招生中優(yōu)先享受學(xué)業(yè)全額獎(jiǎng)學(xué)金（第一學(xué)年），并獲得一次性獎(jiǎng)勵(lì)5000元。

歡迎廣大在讀本科生、碩士研究生、博士研究生積極報(bào)名參加本次暑期學(xué)校！

鄭州大學(xué)研究生院

鄭州大學(xué)化學(xué)與分子工程學(xué)院

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