講座題目：關(guān)于可持續(xù)技術(shù)的催化劑設(shè)計(jì)前沿研究 Frontiers of Catalyst Design for Sustainable Technologies

報(bào) 告 人：Pérez-Ramirez Javier

時(shí) 　 間：2019年11月7日(周四)14:30-16:30

地 　 點(diǎn)：中關(guān)村校區(qū)研究生教學(xué)樓101報(bào)告廳

主辦單位：研究生院、材料學(xué)院

報(bào)名方式：登錄北京理工大學(xué)微信企業(yè)號(hào)---第二課堂---課程報(bào)名中選擇“【百家大講堂】第271期：關(guān)于可持續(xù)技術(shù)的催化劑設(shè)計(jì)前沿研究”

【主講人簡(jiǎn)介】

    Pérez-Ramirez Javier現(xiàn)就職于瑞士蘇黎世聯(lián)邦理工學(xué)院,。曾在阿利坎特大學(xué)主修化學(xué)工程,，2002年從代爾夫特理工大學(xué)取得博士學(xué)位。畢業(yè)后先在挪威海德羅和亞拉國(guó)際（2002-2005）從事一段時(shí)間產(chǎn)業(yè)工作,，后又以ICREA教授身份加入西班牙加泰羅尼亞化學(xué)研究所,。2010年，Javier被瑞士蘇黎世聯(lián)邦理工學(xué)院聘為催化工程學(xué)教授,。研究興趣包括催化材料的設(shè)計(jì)以及如何應(yīng)對(duì)當(dāng)前和未來(lái)社會(huì)的能源,、資源和環(huán)境挑戰(zhàn)。主要研究方向?yàn)槔枚ㄖ苹{米結(jié)構(gòu)材料對(duì)可再生能源,、二氧化碳和天然氣進(jìn)行資源化利用,。發(fā)表論文數(shù)量超過(guò)400篇，是20多個(gè)專(zhuān)利的聯(lián)合發(fā)明人,。迄今為止,，已獲得七個(gè)獎(jiǎng)項(xiàng)，包括奧托·羅倫獎(jiǎng)（2012）,、歐洲催化學(xué)會(huì)聯(lián)合會(huì)青年研究者獎(jiǎng)（2013）,、貝爾比獎(jiǎng)?wù)拢?014）、英國(guó)皇家化學(xué)學(xué)會(huì)可持續(xù)能源獎(jiǎng)（2017）以及北美催化學(xué)會(huì)保羅·休·艾米特基礎(chǔ)催化獎(jiǎng)（2019）,。他是《催化科學(xué)和技術(shù)》（Catalysis Science and Technology）主編,，在瑞士化學(xué)會(huì)催化分會(huì)（SwissCat）擔(dān)任主席。從2018年開(kāi)始在新加坡國(guó)立大學(xué)Isaac Manasseh Meyer擔(dān)任講座教授,，領(lǐng)導(dǎo)該校的“旗艦綠色能源”（Flagship Green Energy）項(xiàng)目,。

Pérez-Ramirez Javier works in ETH Zurich. He studied Chemical Engineering at the University of Alicante and received his PhD degree at Delft University of Technology in 2002. Following a period in industry at Norsk Hydro and Yara International (2002-2005), he joined the Institute of Chemical Research of Catalonia as an ICREA Professor before being appointed at the Swiss Federal Institute of Technology in Zurich as the Professor of Catalysis Engineering in 2010. His research focuses on the design of catalytic materials tackling current and future energy, resource, and environmental challenges of society. The main topics of interest include the valorization of renewables, carbon dioxide, and natural gas using tailored nanostructured materials. He has published over 400 articles and is co-inventor of more than 20 patents. He has been recognized by several awards, most recently the Otto-Roelen-Medal (2012), the EFCATS Young Researcher Award (2013), the Beilby Medal and Prize (2014), the RSC Sustainable Energy Award (2017), and the Paul H. Emmett Award in Fundamental Catalysis for the North American Catalysis Society (2019). He serves as the Editor-in-Chief of Catalysis Science and Technology and as President of SwissCat, the Catalysis section of the Swiss Chemical Society. Since 2018, Javier is Isaac Manasseh Meyer Chair Professor at the National University of Singapore and directs the NUS Flagship Green Energy program.

【講座信息】

    非均相催化很可能是與化學(xué)工業(yè)關(guān)系最緊密的研究領(lǐng)域,，它通過(guò)改善原材料的利用效率、實(shí)現(xiàn)從化石原料向可再生原料的轉(zhuǎn)變,、減少能源消耗以及最小化環(huán)境足跡等方面來(lái)促進(jìn)生產(chǎn)過(guò)程可持續(xù)性的提高,。 為了應(yīng)對(duì)這些挑戰(zhàn)，這一充滿活力的研究領(lǐng)域正變得越來(lái)越依靠理性設(shè)計(jì)驅(qū)動(dòng),。日益強(qiáng)大的研究工具也促成了這一轉(zhuǎn)變,，使得不同的時(shí)間和尺度范圍內(nèi)的基礎(chǔ)認(rèn)知都得到了發(fā)展。 異相催化劑的設(shè)計(jì)（不久前的夢(mèng)想）已成為現(xiàn)實(shí),。 在本次演講中,，我將討論來(lái)自實(shí)驗(yàn)室的最新實(shí)例，從而說(shuō)明如何聰明地提高對(duì)催化過(guò)程的認(rèn)識(shí)并激發(fā)革命性的技術(shù)進(jìn)步,。

Heterogeneous catalysis is quite possibly the most relevant discipline in the chemical industry, spearheading improvements in process sustainability by improving the exploitation of raw materials, enabling the transition from fossil to renewable feedstocks, reducing energy consumption, and minimizing the environmental footprint. To confront these challenges head on, this vibrant discipline is becoming increasingly designdriven, a shift which is facilitated by the availability of increasingly powerful tools that enable the continued development of fundamental knowledge over different time and length scales. The design of a heterogeneous catalyst, a dream not long ago, is becoming a reality. In this talk, I will discuss recent examples from my laboratory to illustrate how this intellectual growth in the understanding of catalyzed processes can kindle revolutionary technological advancements.