Seminar Program

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2012 Seminar Program Av. Països Catalans, 16, Campus Sescelades (St. Pere i St. Pau), Tarragona. Tel. 977920200 Catalysts Made of Earth-abundant Elements for Making C-C and H-H Bonds Prof. Xile Hu École Polytechnique Fédérale de Lausanne (Switzerland) Friday 20th January, 2012. ICIQ Auditorium, 12 p.m. Professional Career Xile Hu was born in 1978 in a small village in Putian, southeastern China. He studied chemistry at Peking University. As an undergraduate research assistant, he worked on the intercalation chemistry of tungsten bronze in the laboratory of Prof. Jianhua Lin. He obtained a B.S. degree in June 2000. Shortly thereafter, he moved to the United States and began his doctoral study under the guidance of Prof. Karsten Meyer at the University of California, San Diego (now at the FAU Erlangen-Nuremberg). His research focused on the coordination chemistry of tripodal N-heterocyclic carbene ligands. In December 2004, after having defended his dissertation "Metal Complexes of Tripodal N-Heterocyclic Carbene Ligands: Synthesis, Structure, Bonding, and Reactivity", he received a Ph.D. degree in inorganic chemistry. He became a postdoctoral scholar in the group of Prof. Jonas C. Peters at the California Institute of Technology in February 2005. At Caltech, he worked on the development of transition metal complexes for electrocatalytic hydrogen production, in collaboration with Prof. Nathan S. Lewis and Dr. Bruce S. Brunschwig. In 2007, he was appointed as a tenure-track assistant professor of chemistry in the Institute of Chemical Sciences and Engineering at the École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland. He founded and directs the Laboratory of Inorganic Synthesis and Catalysis. His laboratory is developing catalysts made of earth-abundant elements for chemical transformations pertinent to synthesis, energy, and sustainability. In 2010, he was awarded a European Research Council (ERC) Starting Grant. In recognition of his work at EPFL, he received the 2011 Werner Prize from the Swiss Chemical Society. .

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DANIEL J. MINDIOLA Professor
DANIEL J. MINDIOLA Professor (w/tenure), Department of Chemistry, University of Pennsylvania Email: [email protected] Phone: (215) 898-5247 FAX: (215) 573-9711 Webpage: http://mindiolagroup.chem.upenn.edu/ Born in 1974. Education Ph.D. August 2000 Massachusetts Institute of Technology, Cambridge, MA – Ph.D. in Chemistry, (Advisor Christopher C. Cummins) Thesis Title: Thesis Title: “Arene Extrusion Reactions and Synthesis and Reactivity Studies of Complexes Supported by Sterically Demanding Anilide Ligands.” (Dissertation Committee: C. C. Cummins, R. R. Schrock, and D. Seyferth) B.S. May 1996 Michigan State University, College of Natural Science, East Lansing, MI – B.S. in Chemistry with honors (Undergraduate Mentor: Prof. Kim R. Dunbar) Research Experience 2017-2018 Visiting Professor, State Key Laboratory of Organometallic Chemistry, Shanghai Institute of Organic Chemistry, Shanghai, China (1.5 months) 2016-2017 Visiting Professor, KAIST, Daejeon, Republic of Korea. July. 1, 2013- Presidential Chair Professor of Chemistry, University of Pennsylvania, present Philadelphia, PA. 2010-2013 Department of Chemistry, Indiana University. Full Professor. May 2012 Visiting Professor, Japan Society for the Promotion of Science (JSPS), Japan. 2009-2010 Visiting Professor, Friedrich-Alexander Universität, Erlangen-Nürnberg, Germany. 2007-2010 Department of Chemistry, Indiana University. Associate Professor with tenure. 2002-2007 Department of Chemistry, Indiana University. Assistant Professor. 2000-2002 Department of Chemistry, University of Chicago. Postdoctoral Research Fellow under the direction of Prof. Gregory L. Hillhouse. Metal mediated N2O reductions and synthesis and reactivity studies of group 10 metal-ligand multiple bonds. 1996-2000 Department of Chemistry, Massachusetts Institute of Technology. Graduate research under the direction of Prof. Christopher C.
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Recent Developments of Iron Pincer Complexes for Catalytic Applications Cite This: Inorg
Volume 3 | Number 6 | June 2016 View Article Online View Journal | View Issue Creative Commons Attribution 3.0 Unported Licence. This article is licensed under a Open Access Article. Published on 01 February 2016. Downloaded 2021-10-01 7:30:22 PM. INORGANIC CHEMISTRY FRONTIERS http://rsc.li/frontiers-inorganic View Article Online INORGANIC CHEMISTRY FRONTIERS REVIEW Recent developments of iron pincer complexes for catalytic applications Cite this: Inorg. Chem. Front., 2016, 3, 741 Gerald Bauer and Xile Hu* Iron catalysis is attractive for organic synthesis because iron is inexpensive, abundant, and non-toxic. To Received 25th November 2015, control the activity and stability of an iron center, a large number of iron pincer complexes have been syn- Accepted 31st January 2016 thesized. Many such complexes exhibit excellent catalytic activity in a number of important organic reac- DOI: 10.1039/c5qi00262a tions such as hydrogenation, hydrosilylation, dehydrogenation, and carbon–carbon bond forming rsc.li/frontiers-inorganic reactions. In this review, recent examples of representative iron pincer catalysts are presented. 1. Introduction lysts, and examples include cytochrome P-450, peroxidases, various oxygenases, and hydrogenases. While numerous Complexes of precious metals, particularly those from the reports of iron-catalyzed organic reactions are known,1,2 Creative Commons Attribution 3.0 Unported Licence. platinum group, occupy a central place in homogeneous cataly- studies of well-defined iron catalysts are less common. Such sis. However, the high cost and potential toxicity of precious studies, however, are essential for the in-depth understanding metals make them less desirable for industrial applications. and further advancement of iron catalysis.
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CHO-DISSERTATION-2018.Pdf
Copyright by Yae In Cho 2018 The Dissertation Committee for Yae In Cho Certifies that this is the approved version of the following dissertation: Bioinspired Ligand Designs for Cobalt, Iron and Manganese Complexes: Understanding Mono-Iron Hydrogenase (Hmd) Committee: Michael J. Rose, Supervisor Emily Que Simon M. Humphrey Jonathan L. Sessler Benjamin K. Keitz Bioinspired Ligand Designs for Cobalt, Iron and Manganese Complexes: Understanding Mono-Iron Hydrogenase (Hmd) by Yae In Cho Dissertation Presented to the Faculty of the Graduate School of The University of Texas at Austin in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy The University of Texas at Austin May 2018 Dedication For my parents, Dr. Lee and Dr. Cho. Acknowledgements I would first like to deeply thank Prof. Michael J. Rose, who has been a wonderful mentor not only as a scholar, but also as someone who has already been through it all. He never hesitated to help me overcome any struggles I had by sharing his own experience and opinion. It was a great privilege to be his first student. I was fortunate to be part of such a supporting and fun group, and the friends I made here will be my dear friends for the rest of my life. I also thank Meredith for her passionate work on the fluoride(s)-bridged dicobalt project as an undergraduate researcher, which was a great experience for both of us as a mentor and mentee. Within the Department of Chemistry, I appreciate the help from the technical staffs, Vince, Angela and Steve, for their expertise in X-ray diffraction and NMR spectroscopy, as well as the administrative staff, Betsy, for her indispensable role for graduate students.
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Xile Hu – Curriculum Vitae
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Page 1 of 2 05. 2019 Xile Hu (胡喜示) – Short CV Date of Birth: August 7
Xile Hu (胡喜乐) – Short CV Date of Birth: August 7, 1978 E-mail: [email protected] Website: http://lsci.epfl.ch Academic position June 2016 – present, Full Professor of Chemistry, École Polytechnique Fédérale de Lausanne, Switzerland. January 2013 – May 2016, Associate Professor of Chemistry, EPFL. July 2007 – December 2012, Assistant Professor of Chemistry, EPFL. Education Postdoc., California Institute of Technology, USA, February 2005 – June 2007. Advisor: Prof. Jonas C. Peters Ph.D. in Chemistry, University of California, San Diego, USA, December 2004. Advisor: Prof. Karsten Meyer B.S. in Chemistry, Peking University, Beijing, P. R. China, June 2000. Advisor: Prof. Jianhua Lin Awards and honors (from independent career) 2019 Royal Society of Chemistry Homogeneous Catalysis Award 2018 Resonate Award, Caltech 2017 National Latsis Prize, Swiss National Science Foundation and the Latsis Foundation 2017, 18 Highly Cited Researcher (Web of Science, Clarivate Analytics) 2017 Tajima Prize, International Society of Electrochemistry 2017 Organic Letters Outstanding Publication of the Year Lectureship Award, ACS 2016,18 European Research Council (ERC) Proof-of-Concept Grant 2016 Bau Family Award in Inorganic Chemistry 2015 European Research Council (ERC) Consolidator Grant 2015 Outstanding Reviewer Award, Wiley-VCH, ChemPubSoc Europe, ACES 2015 Young Researcher Award, European Federation of Catalysis Societies 2014 Fellow, Royal Society of Chemistry (UK) 2014 European Medal for Bio-Inorganic Chemistry (Eurobic Medal) 2014 Organometallics Young Investigator
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