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CURRICULUM VITAE Robert Michael Williams, Ph.D
CURRICULUM VITAE Robert Michael Williams, Ph.D. University Distinguished Professor of Chemistry Department of Chemistry, Colorado State University, Fort Collins, CO 80523 Phone (970) 491-6747; FAX (970)-491-3944 e-mail: [email protected] Webpage: http://rwindigo1.chm.colostate.edu/ Personal Information: Date of birth: February 8, 1953 Married: Jill Janssen Williams Children: Ridge Janssen Williams (born February 23, 2001) Rainier Valentine Williams (born August 20, 2005) Education: B.A., Chemistry (with highest distinction), May, 1975. Syracuse University, Syracuse, NY. Thesis under Professor Ei-ichi Negishi on "A Stereoselective Synthesis of Partially Substituted 1,2,3-Butatriene Derivatives via Hydroboration". Ph.D., Organic Chemistry, June, 1979. Massachusetts Institute of Technology, Cambridge, MA. Thesis advisor, Dr. W. H. Rastetter. Thesis title: "Epidithiapiperazinedione Syntheses". Postdoctoral Fellow, September 1979-September 1980, Harvard University, Cambridge, MA. The late Professor R. B. Woodward group (Y. Kishi, principal investigator). Total synthesis of erythromycin A. Honors and Awards: Organic Synthesis Award, Local Rocky Mountain ACS Section, Reaching New Heights (2012) JSPS Invitation Fellowship Program for Research in Japan (Long-Term) 2012-2013 Ernest Guenther Award in the Chemistry of Natural Products, American Chemical Society (2011) Multiple Myeloma Research Foundation Senior Award (2009-2011) University Distinguished Professor, Colorado State University (2002) Arthur C. Cope Scholar Award, American -
Coupling of Geochemical Reactions and Geophysical Properties of Clay Minerals in Energy- Related Subsurface Engineered Systems Lijie Zhang Washington University in St
Washington University in St. Louis Washington University Open Scholarship Engineering and Applied Science Theses & McKelvey School of Engineering Dissertations Spring 5-15-2018 Coupling of Geochemical Reactions and Geophysical Properties of Clay Minerals in Energy- related Subsurface Engineered Systems Lijie Zhang Washington University in St. Louis Follow this and additional works at: https://openscholarship.wustl.edu/eng_etds Part of the Environmental Engineering Commons Recommended Citation Zhang, Lijie, "Coupling of Geochemical Reactions and Geophysical Properties of Clay Minerals in Energy-related Subsurface Engineered Systems" (2018). Engineering and Applied Science Theses & Dissertations. 337. https://openscholarship.wustl.edu/eng_etds/337 This Dissertation is brought to you for free and open access by the McKelvey School of Engineering at Washington University Open Scholarship. It has been accepted for inclusion in Engineering and Applied Science Theses & Dissertations by an authorized administrator of Washington University Open Scholarship. For more information, please contact [email protected]. WASHINGTON UNIVERSITY IN ST. LOUIS Department of Energy, Environmental and Chemical Engineering Dissertation Examination Committee: Young-Shin Jun, Chair Richard L. Axelbaum Randall T. Cygan John D. Fortner Daniel E. Giammar Coupling of Geochemical Reactions and Geophysical Properties of Clay Minerals in Energy- related Subsurface Engineered Systems by Lijie Zhang A dissertation presented to The Graduate School of Washington University -
How Can Machine Learning and Autonomy Accelerate Chemistry?
F O NH O O NH NH O NH CHEMICAL SCIENCEO SYMPOSIUM 2020 O How can machine learning and autonomy accelerate chemistry? 29 – 30 SeptemberF 2020 Online event O O NH NH O O NH O O NH O Fundamental questions Elemental answersNH F O Meeting Information Meeting Information Chemical Science Symposium 2020: How can machine learning and autonomy accelerate chemistry? is organised and hosted online by the Royal Society of Chemistry. This e-book contains abstracts of the posters presented at the Chemical Science Symposium 2020. All abstracts are produced directly from typescripts supplied by authors. Copyright reserved. All sessions, including the posters, are available to access via the virtual lobby. Further information on how to join the meeting and best practice for an online event is detailed in the joining instructions. Networking sessions There will be regular breaks throughout the meeting for socialising, networking and continuing discussions started during the scientific sessions. During the networking sessions you will be able to join existing networking rooms or initiate one-to-one chats. Existing networking rooms will be visible from the virtual lobby. To create a one-to-one chat, simply click on the name of the person you would like to speak to and select if you would like to have a private or public conversation. For a public conversation, other delegates can join your chat room. On the web version, you can only be in one session at a time (this includes networking rooms). Posters Posters have been numbered consecutively. The posters will be available to view throughout the discussion by clicking on the link in the virtual lobby. -
Organic Molecules of Intrinsic Microporosity
Published online: 2020-01-23 20 Organic Materials McKeown Short Review Organic Molecules of Intrinsic Microporosity Neil B. McKeown*a a EaStCHEM School of Chemistry, University of Edinburgh, David Brewster Road, Edinburgh EH9 3FJ, United Kingdom [email protected] porous molecular crystals.6 A large proportion of molec- Received: 08.10.2019 ular crystals are based on cages7 or macrocycles, both of Accepted after revision: 20.11.2019 which act as prefabricated pores,8 but others are simply DOI: 10.1055/s-0039-3402512; Art ID: om-19-0016-rev organic molecules that pack inefficiently but with a 9 License terms: crystalline order. For all of these crystalline materials, the porosity is only revealed on the removal of the solvent © 2020. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial-License, of crystallization, a process often termed activation, permitting copying and reproduction so long as the original work is given appropriate which needs to occur without the structural collapse of credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/). the crystal. Despite the understandable fascination with well-ordered porous materials—many of which have Abstract Organic molecules of intrinsic microporosity (OMIMs) are aesthetically appealing crystal structures—wholly amor- rigid molecules with an awkward shape that are designed to pack space phous materials can also be highly porous as demon- inefficiently in the solid state maximizing free volume and thereby stratedbythecommerciallyubiquitousactivated generating apparent microporosity as determined by gas adsorption. -
Chemistry Explored Issue 7
Issue 7 bristol.ac.uk/chemistry MAKING MOLECULES PLUS: WITH LIGHT BLUECRYSTAL 4: HOW A START-UP COMPANY BRISTOL’S SUPERCOMPUTER IS DOING GROUNDBREAKING HERBILICIOUS: WORK AT BRISTOL THE SCIENCE OF ROSEMARY In this issue... Welcome News Here at Bristol we’re Scientist elected to Royal Society 03 looking forward to Upfest, Lessons from the past, Science in action 04 another exciting Celebrating success, Outreach 2016–17 05 year in the School of Chemistry. In this issue Features we give you a taste Bristol Laser Spectroscopy research 06 of the latest stories Students take on air pollution 07 and successes we’re Where are they now? 08 building upon. Molecules made with light 10 Continuing the School’s award- From toxic waste to green matter 11 winning streak, staff and students have BlueCrystal 4 supercomputer 12 been recognised for their outstanding Picture It… 14 achievements, with some travelling all Inside View: Simon Osborne 15 the way to Canada to celebrate with their peers, while others have shared their 10 14 knowledge with schools closer to home during Bristol’s science festival season. Our industry connections go from strength to strength, with a new start-up company that’s working with pharma, a multi-million pound extension to Bristol's supercomputing facility, and insights from our long-term partnership with local company Edwards. Last but by no means least, turn to the feature on our technical manager Simon Osborne, who makes sure that University of Bristol Production Editor Steve O’Brien School of Chemistry Art Editor Elaine Knight-Roberts everything works in the building and a Cantock’s Close, Bristol BS8 1TS, UK Editorial Director Dan Linstead Account Manager Clair Atkins Tel +44 (0)117 928 8201 With thanks to Chris Adams, Kevin Booker-Milburn, great deal more besides. -
The Royal Society of Chemistry Presidents 1841 T0 2021
The Presidents of the Chemical Society & Royal Society of Chemistry (1841–2024) Contents Introduction 04 Chemical Society Presidents (1841–1980) 07 Royal Society of Chemistry Presidents (1980–2024) 34 Researching Past Presidents 45 Presidents by Date 47 Cover images (left to right): Professor Thomas Graham; Sir Ewart Ray Herbert Jones; Professor Lesley Yellowlees; The President’s Badge of Office Introduction On Tuesday 23 February 1841, a meeting was convened by Robert Warington that resolved to form a society of members interested in the advancement of chemistry. On 30 March, the 77 men who’d already leant their support met at what would be the Chemical Society’s first official meeting; at that meeting, Thomas Graham was unanimously elected to be the Society’s first president. The other main decision made at the 30 March meeting was on the system by which the Chemical Society would be organised: “That the ordinary members shall elect out of their own body, by ballot, a President, four Vice-Presidents, a Treasurer, two Secretaries, and a Council of twelve, four of Introduction whom may be non-resident, by whom the business of the Society shall be conducted.” At the first Annual General Meeting the following year, in March 1842, the Bye Laws were formally enshrined, and the ‘Duty of the President’ was stated: “To preside at all Meetings of the Society and Council. To take the Chair at all ordinary Meetings of the Society, at eight o’clock precisely, and to regulate the order of the proceedings. A Member shall not be eligible as President of the Society for more than two years in succession, but shall be re-eligible after the lapse of one year.” Little has changed in the way presidents are elected; they still have to be a member of the Society and are elected by other members. -
2018 Xingda Lecture Schedule
兴大报告年报 Xingda Lecture Yearbook Preface At the turning point to reform and boost its research and education system in 1995, College of Chemistry and Molecular Engineering (CCME) at Peking University, China, proposed to set up a science forum to foster idea refreshments and brainstorming between its faculty and outside scientists, aiming at broadening its collaborations with institutions of chemical sciences and educations all over the world. Against all odds, CCME and Beijing Xinda Scientific Systems hit it off instantly to jointly establish the Xingda Lecture Series. Thanks to its enthusiasm for science, Beijing Xinda Scientific Systems has been financially supporting this lecture series ever since then. From the very beginning, Prof. Chunhua Yan had been serving as the organizer of this lecture series until 2015 after which Prof. Kai Wu was named as the successor. The Xingda Lecture Series is held on every Friday throughout the academic year. Up to the time this booklet was edited, about 500 scientists had been invited to give talks at the Xingda Lecture Series which nearly cover all the research areas in chemistry and related disciplines. Needless to say, this lecture series won’t be able to last without great contribution from these scientists. With the great success of the Xingda Lecture series that has already benefited the faculty and students at CCME and the science communities inside and outside PKU as well, CCME in 2015 made the decision to upgrade this forum to the Xingda Lectureship that would be held by invited renowned and distinguished scientists from all over the world. This is also echoing the mission of Peking University in the new century which is to advance sciences and cultivate next-generation scientists for the betterment of humanity. -
V. Gouverneur – University of Oxford – Curriculum Vitae
V. Gouverneur – University of Oxford – Curriculum Vitae Véronique GOUVERNEUR Professor of Chemistry - University of Oxford Department of Chemistry (Mathematical, Physical and Life Sciences Division) Born November 8, 1964 in Geel (Belgium) Chemistry Research Laboratory - 12 Mansfield Road- Oxford - OX1 3TA (United Kingdom) Phone and Fax: 44 (1865) 275 644 E-mail: [email protected] http://www.chem.ox.ac.uk/researchguide/vgouverneur.html EMPLOYMENT 2008- Oxford University, Department of Chemistry (UK), Professor in Chemistry 2006-2008 Oxford University, Department of Chemistry (UK), Reader in Organic Chemistry 1998-2006 Oxford University, Department of Chemistry (UK), University Lecturer in Organic Chemistry 1998- Merton College, Oxford (UK), Tutorial Fellowship 1994-1998 Université Louis Pasteur Strasbourg (France), Maître de Conférence (Dr C. Mioskowski) & Associate Member of the Institut de Science et d’Ingénierie Supramoleculaires (Prof. J.-M. Lehn) 1992-1994 The Scripps Research Institute (CA, USA), Postdoctoral Research Fellow, Advisor: Prof. R. A. Lerner EDUCATION 1985-1991: Université Catholique de Louvain, Louvain-la-Neuve (Belgium), Ph.D., Advisor: Prof. L. Ghosez 1981-1985: Université Catholique de Louvain, Louvain-la-Neuve (Belgium) B.Sc & M.Sc in Chemistry AWARDS, HONORS, NAMED LECTURES 2019, Prelog Medal, ETH Zurich (Switzerland) 2019, Frontiers in Chemical Research Lecture Series 2019, Texas A&M University (USA) 2018, Dorothy Hodgkin Memorial Lecture, Somerville College, Oxford (UK) 2018, Organic Reactions -
Bilateral Workshop Science of the Polar Regions - Neuroscience - Scientific Challenges of New Energy Technologies
Bilateral Workshop Science of the Polar Regions - Neuroscience - Scientific Challenges of New Energy Technologies Marina Militare, Circolo Ufficiali "Adriano Foscari", Castello 2168, Fondamenta Arsenale, Venice 20th - 21st June 2019 List of speakers’ biography Carlo Barbante is full Professor at the Ca’Foscari University of Venice, where he has been dealing with analytical methods development and paleoclimatic reconstructions since many years. He is associate researcher at the Institute for the Dynamics of Environmental Processes of the National Research Council of Italy. He is the main promoter of the establishment of the new CNR Institute of Polar Sciences. He has participated in several expeditions in polar regions and in the Alps and is author of more than 280 publications in high impact scientific journals (h-index 40). Professor of Earth's Climate at Ca'Foscari Harvard Summer School, he has been recently granted by the European Research Council with a prestigious Advanced Grant. He has been professor at the Accademia Nazionale dei Lincei and is an elected member of the Accademia delle Scienze detta dei XL and of the Istituto Veneto di Scienze Lettere ed Arti. He is National Representative in the H2020 Programme Committee on “Climate Action, Environment, Raw Material and Resource Efficiency” (University of Venice; Institute for the Dynamics of Environmental Processes - CNR). Co-Chair of Polar Regions Fabrizio Benedetti MD is Professor of Neurophysiology and Human Physiology at the University of Turin Medical School, Turin, Italy, and Director of Medicine and Physiology of Hypoxia at the Plateau Rosà Laboratories, Plateau Rosà, Switzerland. He has been nominated member of The Academy of Europe and of the European Dana Alliance for the Brain. -
Concern Over Aid Money Used for Research Billions Routed Through GCRF and Newton Fund Under Scrutiny
Updated daily at www.ResearchProfessional.com Founded by William Cullerne Bown Inorms comment special 30 May 2018 Managers can be peacemakers – p20 How to be a global university – p21 What to do about rankings? – p22 Concern over aid money used for research Billions routed through GCRF and Newton Fund under scrutiny The governmenT’s decision to spend a sizeable chunk of by Eleni Courea [email protected] the foreign aid budget on UK-led research projects is being heavily reviewed. Development Committee, which is carrying out an Observers are increasingly concerned that the inquiry into the definition and administration of ODA, Global Challenges Research Fund and the Newton the Independent Commission for Aid Impact warned Fund are distorting the priorities of both aid and that the government was getting “closer to the limits research spending. The funds are classified as Official of what is a permissible use of ODA under UK legisla- Development Assistance. tion and international rules”. The GCRF has a budget of £1.5 billion and the Alison Evans, ICAI’s chief commissioner, said that Newton Fund has £585 million, both between concern was due to some funds having a “dual purpose” 2016-17 and 2020-21. This represents a sizeable part of helping low-income countries and serving the UK’s of the £20bn science budget for 2016-17 to 2019-20. interest. “That is a complicated balancing act,” Evans Both funds support partnerships between researchers said. “There is very little clarity around how you achieve in the UK and in lower to middle-income countries. and measure the secondary purpose of meeting the UK Work must be led by UK researchers, and counts both national interest.” The government should be “incred- towards the government’s legal obligation to spend ibly transparent” about this and “never allow it to trump 0.7 per cent of GDP on ODA and its target to spend the primary purpose of ODA”, she said. -
Chemical Structure Representation: What Would Dalton Do Now?
Chemical Structure Representation: What Would Dalton Do Now? Abstracts IUPAC: the role of international organisations in nomenclature and terminology in the internet age Professor Jeremy Frey, Department of Chemistry, University of Southampton Setting standards is at the heart of international exchange of information and trade and IUPAC’s work in establishing Chemical Nomenclature and following this with work on terminology has been critical for international collaboration both within chemistry and to other areas, and has often been driven by developments in chemical structures (novel structures, new characterisation methods). The rise of the World Wide Web is radically changing the way in which chemical concepts are conveyed and the discipline specific international organisation are struggling to maintain their role in setting standards, but it is essential that they find their place in the Web World to ensure that the knowledge that is currently communicated on paper can be readily and accurately communicated in the digital world. Indescribable structure: finding words for the future Professor Jonathan Goodman, Department of Chemistry, University of Cambridge Our knowledge of chemistry is limited by the vocabulary we have to describe molecular phenomena. N-heterocyclic carbenes somehow look wrong until you get used to them. Benzyne is not the most plausible of structures. The discovery of enediyne natural products made the Bergman cyclisation become much more interesting. What are the limits of our current descriptions? Wavefunctions describe molecules well, but do not always make them comprehensible. Structural drawings can make molecules intelligible, but do not always correspond to observations. We could trust our calculations and not worry about their interpretation, but this approach seems to lack ambition. -
Sir David and Lady Clary Chemistry Fund Sir David and Lady Clary Chemistry Fund
Sir David and Lady Clary Chemistry Fund Sir David and Lady Clary Chemistry Fund Chemistry at Magdalen and the University of Oxford Chemistry has a long history at the University of Oxford. The Department of Chemistry is the largest chemistry department in the UK and one of the largest in the western world. Oxford chemists have won at least nine Nobel prizes including Magdalen Fellow Sir Robert Robinson (Chemistry, 1947, for investigations of plant products), Frederic Soddy (Physics, 1921, for his discovery of isotopes), and Dorothy Hodgkin (Chemistry, 1964, for the x-ray structure of penicillin). One of the earliest notable Magdalen chemists was Charles Daubeny (1795–1867). After studying at Magdalen under John Kidd, Daubeny simultaneously held Chairs in Chemistry, Botany, and Geology. However, interest in the sciences can be traced back to the Magdalen’s founder, William of Waynflete, and it was in his honour that the highly distinguished Waynflete Professorships (in Metaphysical Philosophy, Chemistry, Physiology and Pure Mathematics) were established in 1857. The Waynflete Professor of Chemistry has been the University’s most distinguished Chair in Organic Chemistry ever since, and holders have included Professors Sir Benjamin Brodie, William Odling, William Henry Perkin, Sir Robert Robinson (Nobel Laureate, 1947), Sir Jack Baldwin and the current incumbent, Stephen G Davies. The present day Of the 28 Colleges offering Chemistry, Magdalen is one of only five fortunate enough to have a full complement of three Tutorial Fellows in Chemistry: Professors Tim Donohoe (Organic), Andrew Weller (In- organic) and Stuart Mackenzie (Physical and Theoretical Chemistry). Each of these also runs an internation- ally–leading research group in the Department of Chemistry.