BEGIN:VCALENDAR VERSION:2.0 PRODID:-//132.216.98.100//NONSGML kigkonsult.se iCalcreator 2.20.4// BEGIN:VEVENT UID:20250823T231208EDT-1988BuEVpj@132.216.98.100 DTSTAMP:20250824T031208Z DESCRIPTION:Despite decades of research\, the utilization of CO2 for commod ity chemical and fuel synthesis still faces substantial technological and economic hurdles. To change this paradigm\, it is imperative to develop sc alable processes to high-volume targets in which the use of CO2 affords a clear chemical advantage over conventional routes starting from fossil fue ls. This talk will describe our recent fundamental and applied research to ward converting CO2 into oxygenated organic commodities. I will first desc ribe our development of “defect-rich” metallic catalysts for electrochemic al CO2 and CO reduction. We have pioneered the use of bulk defects known a s grain boundaries to create active surfaces for these reactions and recen tly unveiled the structural origin of grain boundary–activity relationship s. In the second part of my talk\, I will describe our development of carb onate-promoted C–H carboxylation reactions to generate (di)-carboxylic aci ds. We have found systems in which carbonate deprotonates ordinarily non-a cidic C–H bonds (pKa>35 in organic solvent)\, generating carbon-centered n ucleophiles that react with CO2 to form C–C bonds. As one application\, th is chemistry can be used to convert furoic acid\, a compound derived from inedible biomass\, into furan-2\,5-dicarboxylic acid (FDCA)\, a monomer us ed for polyester plastic synthesis. The same strategy can be extended to H 2\, enabling CO2 hydrogenation reactions that produce C2+ oxygenates. This process effectively upgrades the value of H2 and thereby increases the vi ability of solar water-splitting technologies.\n\n \n\nBIO\n\nMatt Kanan i s an Associate Professor in the Department of Chemistry at Stanford Univer sity. His research focuses on challenges in heterogeneous and molecular ca talysis with an emphasis on developing scalable CO2 utilization technologi es. His group has invented “grain-boundary-rich” heterogeneous electro-cat alysts for CO2 reduction to liquid fuels and carbonate-promoted C–H carbox ylation reactions for commodity carboxylic acid synthesis. Matt was recent ly named a Dreyfus Environmental Postdoctoral Mentor (2016)\, one of the T alented 12 by Chemical and Engineering News (2015)\, and a Camille Dreyfus Teacher-Scholar Award (2014). Prior to Stanford\, Matt was an NIH Postdoc toral Researcher in inorganic chemistry at MIT and completed his Ph.D. in organic chemistry at Harvard in 2005. Matt studied chemistry as an undergr aduate at Rice University.\n DTSTART:20171107T180000Z DTEND:20171107T193000Z LOCATION:Room 10\, Maass Chemistry Building\, CA\, QC\, Montreal\, H3A 0B8\ , 801 rue Sherbrooke Ouest SUMMARY:CCVC / CGCC - Dr. Matthew Kanan -Materials Science and Synthetic Ch emistry for CO2 Utilization URL:/chemistry/channels/event/ccvc-cgcc-dr-matthew-kan an-materials-science-and-synthetic-chemistry-co2-utilization-270273 END:VEVENT END:VCALENDAR