BEGIN:VCALENDAR PRODID:BedeWork V3.5 VERSION:2.0 METHOD:PUBLISH BEGIN:VTIMEZONE TZID:America/New_York X-LIC-LOCATION:America/New_York BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20070311T020000 RRULE:FREQ=YEARLY;BYMONTH=3;BYDAY=2SU END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20071104T020000 RRULE:FREQ=YEARLY;BYMONTH=11;BYDAY=1SU END:STANDARD BEGIN:STANDARD TZOFFSETFROM:-045602 TZOFFSETTO:-0500 TZNAME:EST DTSTART:18831118T120358 RDATE:18831118T120358 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:19180331T020000 RDATE:19180331T020000 RDATE:19190330T020000 RDATE:19200328T020000 RDATE:19210424T020000 RDATE:19220430T020000 RDATE:19230429T020000 RDATE:19240427T020000 RDATE:19250426T020000 RDATE:19260425T020000 RDATE:19270424T020000 RDATE:19280429T020000 RDATE:19290428T020000 RDATE:19300427T020000 RDATE:19310426T020000 RDATE:19320424T020000 RDATE:19330430T020000 RDATE:19340429T020000 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RDATE:19841028T020000 RDATE:19851027T020000 RDATE:19861026T020000 RDATE:19871025T020000 RDATE:19881030T020000 RDATE:19891029T020000 RDATE:19901028T020000 RDATE:19911027T020000 RDATE:19921025T020000 RDATE:19931031T020000 RDATE:19941030T020000 RDATE:19951029T020000 RDATE:19961027T020000 RDATE:19971026T020000 RDATE:19981025T020000 RDATE:19991031T020000 RDATE:20001029T020000 RDATE:20011028T020000 RDATE:20021027T020000 RDATE:20031026T020000 RDATE:20041031T020000 RDATE:20051030T020000 RDATE:20061029T020000 END:STANDARD BEGIN:STANDARD TZOFFSETFROM:-0500 TZOFFSETTO:-0500 TZNAME:EST DTSTART:19200101T000000 RDATE:19200101T000000 RDATE:19420101T000000 RDATE:19460101T000000 RDATE:19670101T000000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EWT DTSTART:19420209T020000 RDATE:19420209T020000 END:DAYLIGHT BEGIN:DAYLIGHT TZOFFSETFROM:-0400 TZOFFSETTO:-0400 TZNAME:EPT DTSTART:19450814T190000 RDATE:19450814T190000 END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Gabriella Krisanic of Becker Lab will sit their prelim at 3:00 pm in FFSC 3232 DURATION:PT1H30M DTSTAMP:20250318T184954Z DTSTART;TZID=America/New_York:20250319T150000 LAST-MODIFIED:20250318T184954Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Gabriella Krisanic UID:CAL-8a000483-92c3adf6-0195-aa8b15d6-0000444ddemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Yang Shen of Yang Lab will sit their prelim at 2:00 pm in FFSC 3232 DURATION:PT1H30M DTSTAMP:20250318T180436Z DTSTART;TZID=America/New_York:20250324T093000 LAST-MODIFIED:20250318T180436Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Yang Shen UID:CAL-8a000483-92c3adf6-0195-aa6dca83-00003d7fdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Natalie Labbe of Fitzgerald Lab will sit their prelim at 9:00 am in FFSC 3232. DURATION:PT1H30M DTSTAMP:20250318T185510Z DTSTART;TZID=America/New_York:20250326T090000 LAST-MODIFIED:20250318T185510Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Natalie Labbe UID:CAL-8a000483-92c3adf6-0195-aa9c1427-000049fademobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250310T162152Z DESCRIPTION:"Plasmonic Catalysis: Is There a Limit in the Total Light Enha ncement?" DURATION:PT1H DTSTAMP:20250310T162152Z DTSTART;TZID=America/New_York:20250328T140000 LAST-MODIFIED:20250310T162152Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: Dora Geng UID:CAL-8a000483-92c3adf6-0195-80dcde32-00001156demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-SPEAKER:Dora Geng X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=lynn.oneill@duke.edu:Lyn n O'Neill- DGSA X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:256 X-BEDEWORK-IMAGE-X2:2000 X-BEDEWORK-IMAGE-Y2:1589.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:2000 X-BEDEWORK-IMAGE-CROP-HEIGHT:1333.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:Dora Geng X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/DG_20250310042152PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/DG_20250310042152PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Conner Soderstedt of Moreno-Hernandez Lab will sit their preli m at 1:30 pm in FFSC 3232 DURATION:PT1H30M DTSTAMP:20250318T192628Z DTSTART;TZID=America/New_York:20250404T133000 LAST-MODIFIED:20250318T192628Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Conner Soderstedt UID:CAL-8a000483-92c3adf6-0195-aab8bf2d-0000512fdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Mackenzie Smith of Franz Lab will sit their prelim at 9:00 am in FFSC 3232 DURATION:PT1H30M DTSTAMP:20250318T180550Z DTSTART;TZID=America/New_York:20250409T090000 LAST-MODIFIED:20250318T180550Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Mackenzie Smith UID:CAL-8a000483-92c3adf6-0195-aa6eebef-00003de1demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Gaini Ibrasheva of Derbyshire Lab will sit their prelim at 1:3 0 pm in FFSC 3232 DURATION:PT1H30M DTSTAMP:20250318T184250Z DTSTART;TZID=America/New_York:20250409T133000 LAST-MODIFIED:20250318T184250Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Gaini Ibrasheva UID:CAL-8a000483-92c3adf6-0195-aa90ca68-00004754demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Sarah Seay of Franz Lab will sit their prelim at 2:00 pm in FF SC 3232. DURATION:PT1H30M DTSTAMP:20250318T190341Z DTSTART;TZID=America/New_York:20250410T140000 LAST-MODIFIED:20250318T190341Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Sarah Seay UID:CAL-8a000483-92c3adf6-0195-aaa1368f-00004abcdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Anthony Mack of Craig Lab will sit their prelim at 3:30 am in FFSC 3232. DURATION:PT1H30M DTSTAMP:20250326T194759Z DTSTART;TZID=America/New_York:20250430T153000 LAST-MODIFIED:20250326T194759Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Anthony Mack UID:CAL-8a000483-92c3adf6-0195-d3ff4ec9-00001455demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250318T174003Z DESCRIPTION:Hoseong Ryu of Hong Lab will sit their prelim at 9:00 am in FF SC 3232. DURATION:PT1H30M DTSTAMP:20250326T194909Z DTSTART;TZID=America/New_York:20250507T090000 LAST-MODIFIED:20250326T194909Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Prelim Exam: Hoseong Ryu UID:CAL-8a000483-92c3adf6-0195-d400627d-000014b7demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250516T150343Z DESCRIPTION:Grace Yao\n\nNetwork Toughening Strategies: Interplay of Mecha nophore Reactivity\, Polymer Chemistry and Network Topology\n\nWhen polym er materials fracture\, chemical bonds break\, revealing a unique molecul ar perspective on network fracture mechanism. This view highlights critic al molecular details of network fracture - such as strand extension and b ond scission - that extend beyond conventional macroscopic engineering ap proaches. This dissertation aims to establish correlations between the mi croscopic force-coupled reactivity and the macroscopic mechanical propert ies of polymer networks. Advancements in polymer mechanochemistry have en abled the mechanical studies of delicate mechanophores in single chain po lymers through pulsed ultrasound and single molecule force spectroscopy. By strategically incorporating these mechanochemically labile units as cr osslinks in side-crosslinked networks\, their mechanochemical reactivity has been shown to dictate crack propagation pathways and consequently enh ance materials toughness. This dissertation primarily explores three dist inct crosslinking strategies for toughening polymer networks: metal-ligan d crosslinking\, facile carbosilane analogs and remendable Diels-Alder ad ducts. Our findings demonstrate that mechanically weak linkers can effect ively reinforce polymer materials across various polymeric systems. We ch aracterized the mechanochemical reactivities of these crosslinking candid ates and demonstrated their effectiveness in strengthening bulk materials . Furthermore\, we examined the interplay between covalent reactivity and polymer intermolecular interactions\, in the context of two effects: ent anglements and viscous dissipation. These insights provide a framework fo r designing more resilient polymer materials with tailored mechanical pro perties. DURATION:PT1H DTSTAMP:20250616T162154Z DTSTART;TZID=America/New_York:20250618T130000 LAST-MODIFIED:20250616T162154Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Defense: Grace Yao- Network Toughening Strategies: Interplay of Me chanophore Reactivity\, Polymer Chemistry and Network Topology UID:CAL-8a00048b-968cb292-0196-d99f64f7-00004298demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-SPEAKER:Grace Yao X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:16 X-BEDEWORK-IMAGE-X2:530 X-BEDEWORK-IMAGE-Y2:369.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:530 X-BEDEWORK-IMAGE-CROP-HEIGHT:353.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:GY X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/GY_20250516030343PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/GY_20250516030343PM-thumb.png X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250701T125947Z DESCRIPTION:As chemistry moves further into the realm of ultrafast and com plex molecular processes\, understanding how quantum effects drive chemic al reactions such as electron and energy transfer becomes increasingly im portant. In my dissertation\, I develop and apply new computational metho ds that make it possible to simulate quantum dynamics in realistic chemic al systems\, including their interactions with complex environments. By a dvancing numerical tools such as tensor network algorithms\, path integra l (pathway) resummation\, and quantum master equation\, my work enables a ccurate modeling of quantum coherence\, entanglement\, and environmental influences in both small molecules and large assemblies. I demonstrate th ese methods through applications like simulating electron and energy tran sfer in multi-acceptor systems\, which are important in materials science \, catalysis\, and biological systems. The results reveal how quantum eff ects and molecular structure can combine to enhance or control chemical p rocesses. These computational advances bring theory and experiment closer together\, providing chemists with new ways to predict\, interpret\, and design complex chemical systems. DURATION:PT1H DTSTAMP:20250709T171517Z DTSTART;TZID=America/New_York:20250709T140000 LAST-MODIFIED:20250709T171517Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Defense: Hanggai Nuomin-Numerical Methods for Quantum Dynamics and their Applications in Chemistry UID:CAL-8a00ec8b-979413b9-0197-c612763f-00000973demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:352 X-BEDEWORK-IMAGE-X2:873 X-BEDEWORK-IMAGE-Y2:934 X-BEDEWORK-IMAGE-CROP-WIDTH:873 X-BEDEWORK-IMAGE-CROP-HEIGHT:582 X-BEDEWORK-IMAGE-ALT-TEXT:HN X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/hanggai-3-1_20250701125947PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/hanggai-3-1_20250701125947PM-thumb.p ng END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250707T153021Z DESCRIPTION:Non-precious metal nitrides for efficient electrochemical wate r splitting\n\nGrowing global energy demands coupled with the detrimental environmental impacts of fossil fuel combustion highlight an urgent need to develop sustainable energy technologies. Electrochemical water splitt ing stands as a promising approach to convert renewable energy sources to hydrogen\, a clean and carbon free energy carrier\, for applications and energy transportation. However\, the process requires efficient\, durabl e\, and cost-effective electrocatalysts that are still being developed. N on-precious metal nitrides have recently garnered significant attention d ue to their excellent catalytic properties\, low cost\, and high stabilit y. This thesis focuses on several important aspects related to this catal yst family. Chapter 1 discusses recent advancements and fundamental metho dologies in electrocatalyst research relevant to water splitting applicat ions. Chapter 2 describes the system involving the development of nitrida ted NiMoO₄ nanoneedles as a catalyst for the hydrogen evolution reaction (HER). The optimized material shows strong HER performance in alkaline so lution\, with low overpotentials\, favorable Tafel slopes\, and stable lo ng-term operation. Notably\, the catalyst reaches a high current density of 350 mA/cm² at an overpotential of only -10 mV\, showing its potential for practical hydrogen production. Chapter 3 focuses on Co₃Mo₃N nanoparti cles used as a photo-thermal electrocatalyst for the oxygen evolution rea ction (OER) and its improved performance under both light and heat. Elect rochemical testing shows that Co₃Mo₃N catalyst has a significant photo-th ermal enhancement in OER. For example\, under 2 watts of blue light\, it achieves a 150% increase in current density at an overpotential of 0.34 V . The outstanding effect of photo-thermal enhancement of the catalyst ind icates its potential in light-assisted water-splitting technologies. Over all\, this research supports the development of affordable\, high-perform ance catalytic materials for clean energy applications. DURATION:PT1H DTSTAMP:20250707T154020Z DTSTART;TZID=America/New_York:20250711T100000 LAST-MODIFIED:20250707T154020Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: Yufeng Chen: Non-precious metal nitrides for ef ficient electrochemical water splitting UID:CAL-8a00ec8b-979413b9-0197-e58274ee-00003cf5demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:che m admin office X-BEDEWORK-SPEAKER:Yufeng Chen X-BEDEWORK-IMAGE-X1:415 X-BEDEWORK-IMAGE-Y1:44 X-BEDEWORK-IMAGE-X2:1572 X-BEDEWORK-IMAGE-Y2:815.3333333333334 X-BEDEWORK-IMAGE-CROP-WIDTH:1157 X-BEDEWORK-IMAGE-CROP-HEIGHT:771.3333333333334 X-BEDEWORK-IMAGE-ALT-TEXT:Y. Chen X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/Y. C._20250707034021PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Y. C._20250707034021PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250620T190613Z DESCRIPTION:Structure-function relations and kinetic principles underlying multiscale electron transfer in biology\n\nElectron transfer (ET) underl ies fundamental biological processes such as respiration\, photosynthesis \, redox catalysis\, and cellular signaling. This work investigates the s tructure-function relations and kinetic principles governing efficient an d controlled ET across multiscales in biological systems. Two major resea rch directions are explored: free energy transduction by nanoscale molecu lar machines and long-range extracellular ET in protein-based nanowires. The first research direction focuses on understanding free energy transdu ction in electron bifurcation (EB)\, a mechanism that couples exergonic a nd endergonic ET reactions. We found that many-particle correlations are essential to accurately describe EB\, and\, more broadly\, any process in volving free energy transduction. To better represent biological conditio ns such as spatial confinement and limited redox carrier pools\, we devel oped an open many-particle system model that treats redox pools as finite narrow-band reservoirs. Using this framework\, we identified that invert ed redox potentials at the bifurcating site reduces slippage in the pre-s teady-state regime. The second direction examines electron transport thro ugh bacterial nanowires\, which enable extracellular ET by forming conduc tive protein filaments. These nanowires exhibit anti-Arrhenius behavior\, with conductivity decreasing as temperature increases\, a phenomenon inc onsistent with conventional thermally activated hopping mechanisms. Our s imulations show that electrostatic effects on the ET parameters alone can not account for the anti-Arrhenius behavior. Instead\, the physical origi n of anti-Arrhenius transport lies in other factors\, pointing to a more complex structural or dynamical basis for the observed temperature depend ence. Together\, these studies provide new insights into how biological E T systems achieve efficiency and control\, emphasizing the role of physic al constraints\, correlations\, and structural dynamics. DURATION:PT1H DTSTAMP:20250620T190839Z DTSTART;TZID=America/New_York:20250711T140000 LAST-MODIFIED:20250620T190839Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Defense: Kiriko. Terai: Structure-function relations and kinetic p rinciples underlying multiscale electron transfer in biology UID:CAL-8a00f286-97700737-0197-8ebbfcfe-00004402demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che mistry Office Admin X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE-X1:286 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1763.5 X-BEDEWORK-IMAGE-Y2:985 X-BEDEWORK-IMAGE-CROP-WIDTH:1477.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:985 X-BEDEWORK-IMAGE-ALT-TEXT:KT X-BEDEWORK-IMAGE:/public/Images/ilcjknfn_20250620070839PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/ilcjknfn_20250620070839PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a028ad1-899cba17-0189-d5f761f7-0000488a:O'Neill\, Lynn CREATED:20250711T154540Z DESCRIPTION:Anharmonic lattice dynamics underlie many key material propert ies\, including thermal transport\, ferroelectricity\, and structural pha se transitions. Understanding the couplings between phonons\, electrons\, and other microscopic degrees of freedom is essential for the design of next-generation energy materials. This research combines inelastic neutro n and X-ray scattering with first-principles simulations to explore phono n anharmonicity and its role in energy transport across two representativ e systems: elemental bismuth and halide perovskites.\n\nIn bismuth\, we i nvestigate the strong temperature-dependent phonon softening and broadeni ng driven by anharmonic interactions and electron-phonon coupling. Using inelastic neutron scattering and anharmonic phonon calculations\, we quan tify the acoustic phonon energy shifts and lifetimes\, revealing the micr oscopic origin of temperature dependence of lattice thermal conductivity and energy dissipation processes.\n\nIn parallel\, we study inorganic and hybrid halide perovskites\, including CsSnBr3\, CsPbBr3\, Cs2AgBiBr6\, a nd MAPbI3\, which exhibit ultra-soft lattice dynamics and complex structu ral phase transitions. Diffuse scattering and phonon measurements uncover low-energy soft modes and domain formation linked to octahedral rotation s and molecular dynamics. Our results show how anharmonic lattice behavio r governs their thermal and optoelectronic properties\, offering insights into long carrier lifetimes and low thermal conductivity.\n\nTogether\, these studies demonstrate how experimental and computational tools can jo intly reveal the fundamental role of anharmonic phonons in controlling th e behavior of quantum and energy-relevant materials. DURATION:PT2H DTSTAMP:20250711T154540Z DTSTART;TZID=America/New_York:20250716T140000 LAST-MODIFIED:20250711T154540Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Defense:Chengjie Mao- Phase transitions\, structural fluctuations and temperature dependent thermal conductivities of energy materials from phonon anharmonicty UID:CAL-8a00ec8b-979413b9-0197-fa29eac2-0000426cdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-IMAGE-X1:179 X-BEDEWORK-IMAGE-Y1:16 X-BEDEWORK-IMAGE-X2:1771 X-BEDEWORK-IMAGE-Y2:1077.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:1592 X-BEDEWORK-IMAGE-CROP-HEIGHT:1061.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:CM X-BEDEWORK-SUBMITTEDBY:bsg25 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/Admin Office Slides (3)_20250711034428PM. png X-BEDEWORK-THUMB-IMAGE:/public/Images/Admin Office Slides (3)_20250711034 428PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20250923T135748Z DESCRIPTION:Total Synthesis and Biological Evaluation of 4α\,9α\,10α-Trihy droxyguaia-11(13)en-12\,6α-olide \n\nNatural products remain central to t herapeutic discovery\, with nearly two-thirds of approved small-molecule drugs derived from or inspired by natural scaffolds. Beyond drug discover y\, they have served as valuable chemical probes\, enabling the mapping o f biological pathways with precision. Their evolutionary refinement often confers remarkable target selectivity\, making them both excellent drug leads and indispensable research tools. Among bioactive motifs\, the α-ex o-methylene-γ-butyrolactone (AMGBL) unit is especially notable as an elec trophilic handle\, frequently associated with potent anticancer activity. \nThis dissertation reports the total synthesis and biological evaluation of 4α\,9α\,10α-trihydroxyguaia-11(13)en-12\,6α-olide (1)\, a guaianolide -type sesquiterpene lactone containing an AMGBL moiety. Originally isolat ed from Anvillea garcinii\, compound 1 was reported to possess potent ant ifungal activity. Inspired by its translational potential\, total synthes is of compound 1 was pursued to provide a reliable and efficient route en abling access to derivatives and chemical probes. A modular synthetic str ategy was adopted to assemble the guaianolide 5\,7\,5-tricyclic core to e nable downstream structure-activity relationship studies\, with two compl ementary routes that differed in the stage of tertiary hydroxyl installat ion. Ultimately\, completion of the synthesis provided access to compound 1 and allowed assignment of its absolute configuration by X-ray crystall ography of a key intermediate.\nBiological studies revealed that syntheti c 1 lacked antifungal activity against Candida albicans. However\, high-t hroughput screening using Profiling Relative Inhibition Simultaneously in Mixtures (PRISM) platform revealed promising anticancer activities\, inc luding potent inhibition of BT12 atypical teratoid/rhabdoid tumor cells a nd broader activity across multiple cancer models.\nTogether\, these stud ies present a robust route to the guaianolide scaffold\, establish its pr eviously unassigned absolute stereochemistry\, and reveal the anticancer activity of 1. The results identify this scaffold as a promising entry po int for the development of ATRT-directed therapeutics and provide a found ation for future structure-activity and mechanistic investigations. DURATION:PT1H DTSTAMP:20250923T135748Z DTSTART;TZID=America/New_York:20251006T140000 LAST-MODIFIED:20250923T135748Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: Hyejin Lee- Total Synthesis and Biological Eval uation of 4α\,9α\,10α-Trihydroxyguaia-11(13)en-12\,6α-olide UID:CAL-8a00ec8b-979413b9-0199-76ddc1b3-00003f9cdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-SPEAKER:Hyejin Lee X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che m Admin Office X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:76 X-BEDEWORK-IMAGE-X2:615 X-BEDEWORK-IMAGE-Y2:486 X-BEDEWORK-IMAGE-CROP-WIDTH:615 X-BEDEWORK-IMAGE-CROP-HEIGHT:410 X-BEDEWORK-IMAGE-ALT-TEXT:H.Lee X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/Hyejin Lee 2_20250923015748PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Hyejin Lee 2_20250923015748PM-thumb. png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20251022T155154Z DESCRIPTION:Development of DART (Drugs Acutely Restricted by Tethering) Pr obes for Targeting Opioid Receptors and Voltage-Gated Sodium Channels\n\n \n\nThe brain\, comprising billions of neurons and glial cells\, forms in tricate networks that coordinate diverse functions such as movement\, emo tion\, and memory through sophisticated communication systems. Assigning functions to specific neuronal cell types is essential for understanding underlying mechanisms but remains challenging with currently available to ols. The DART (Drugs Acutely Restricted by Tethering) system is a newly d eveloped approach that predominate over existing methods by uniquely enab ling spatiotemporal modulation of endogenous proteins with cell-type spec ificity. DART employs HaloTag protein (HTP)\, a self-labeling enzyme\, to achieve specificity through restricted expression in defined cell types. Its versatility has been demonstrated\, for example\, in delineating AMP AR-mediated motor control pathways in Parkinsonian mice. Building on this foundation\, the present work extends DART to opioid receptors (ORs) and voltage-gated sodium channels (Navs)\, both of which mediate essential f unctions but remain incompletely understood.\n\nThis dissertation focuses on developing DART probes targeting OR subtypes and Navs to define their specific roles\, such as pain processing and reward regulation for ORs\, and excitability and pathological states such as epilepsy for Navs. Guid ed by X-ray crystal structures and docking studies\, we successfully deve loped subtype-selective OR-DART probes: naltrexone2DART.2 for μ-OR\, nalt rindole3DART.2 for δ-OR\, and benzamideDART.2 for κ-OR. In parallel\, we generated potent Nav-DART probes\, JHNav2DART.2 and JHNav3DART.2\, which effectively suppressed neuronal firing through cell-specific Navs modulat ion in cultured hippocampal neurons.\n\nWe anticipate that these newly de veloped probes\, efficient and subtype-selective OR-DART probes and poten t Nav-DART probes\, will serve as powerful tools for uncovering target-sp ecific neuronal functions that shape behavior via cell-specific modulatio n. Ultimately\, we expect that applying these probes within the DART plat form will expand and advance knowledge of the cell-specific roles of ORs and Navs in both normal physiology and neurological disease. DURATION:PT1H DTSTAMP:20251022T155154Z DTSTART;TZID=America/New_York:20251104T090000 LAST-MODIFIED:20251022T155154Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: Yunju Oh: Development of DART (Drugs Acutely Re stricted by Tethering) Probes for Targeting Opioid Receptors and Voltage- Gated Sodium Channels UID:CAL-8a00ec8b-979413b9-019a-0c9ea541-0000373ademobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-SPEAKER:Yunju Oh X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che m Admin Office X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:174 X-BEDEWORK-IMAGE-X2:1281 X-BEDEWORK-IMAGE-Y2:1028 X-BEDEWORK-IMAGE-CROP-WIDTH:1281 X-BEDEWORK-IMAGE-CROP-HEIGHT:854 X-BEDEWORK-IMAGE-ALT-TEXT:YO X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/YO_20251022035154PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/YO_20251022035154PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20251007T140543Z DESCRIPTION:Addressing the Key Challenges of Light Penetration and Charge Separation for Plasmonic Catalysis\n\nResearch into high temperature phot ocatalysis has revealed advantages to using light to augment or replace t hermal energy for the synthesis of feedstock chemicals. However\, poor pe netration of light into a typical powder catalyst bed poses a challenge f or efficient high temperature photo-driven heterogenous catalysis. To add ress this issue\, we present a 3D porous optical diffuser loaded with pla smonic Rh nanoparticles enabling volumetric illumination of the nanoparti cle catalysts. This monolithic plasmonic Rh/SiO2 structure exhibits drama tically increased response to light compared to powdered catalyst. The br oad illumination gradient can be tuned by augmenting the loading scheme c reating a more homogenous optical environment. Replacing the sharp transi tion from intensely illuminated surface to dark subsurface improves the s electivity of the CO2 reduction reaction from 68% to 97% while achieving greater efficiency. A sacrificial template composed of fused zinc oxide t etrapods enhances porosity\, improving mass transport over conventional a erogel supported catalysts. Serendipitously\, the ZnO scaffolding impleme nted to improve mass flow also provides easier nanoparticle loading as we ll as the potential for more facile adjustments to the aerogel's surface chemistry. This approach to supported photocatalyst design provides excep tional flexibility for tuning the balance between optical properties\, ma ss flow considerations\, available metal surface area\, at a cost to ther mal transport. A second challenge facing plasmonic catalysis is the shor t charge separated lifetime of hot carriers produced by plasmon dephasing \, typically on the order of femtoseconds. The latter portion of this dis sertation explores the introduction of a type-II junction to the supporti ng structure to further separate carriers\, prolonging excited lifetimes. DURATION:PT1H DTSTAMP:20251007T140543Z DTSTART;TZID=America/New_York:20251111T110000 LAST-MODIFIED:20251007T140543Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: Joey Offen: Addressing the Key Challenges of Li ght Penetration and Charge Separation for Plasmonic Catalysis UID:CAL-8a00ec8b-979413b9-0199-befe0c53-0000715ddemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-SPEAKER:Joey Offen X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che m Admin Office X-BEDEWORK-IMAGE-X1:143 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1763 X-BEDEWORK-IMAGE-Y2:1080 X-BEDEWORK-IMAGE-CROP-WIDTH:1620 X-BEDEWORK-IMAGE-CROP-HEIGHT:1080 X-BEDEWORK-IMAGE-ALT-TEXT:JO X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/31_20251007020544PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/31_20251007020544PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Natural Sciences CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20260116T185313Z DESCRIPTION:Copper-Catalyzed Electrophilic Amination of O-Acyl-N-Hydroxyam ines with Alkenes for the Synthesis of Allylic Amines and Vicinal Diamin es\n\nNitrogen atoms are ubiquitous in bioactive organic molecules where they are key contributors to molecular recognition\, making the synthesis of nitrogen-containing molecules an important task in organic chemistry. Alkylamines are a privileged class of nitrogenous molecules common in ph armaceuticals. To improve the efficiency with which these important molec ules can be synthesized\, the development of catalytic methodology for C( sp3)-N bond construction is ongoing. One approach is the electrophilic am ination of alkenes and other SOMOphiles to achieve multi-component cascad e reactions. However\, this strategy as well as other amination reactions frequently rely on specialized nitrogen sources lacking structural diver sity.\n\nThe Wang laboratory has developed a copper-catalyzed platform fo r electrophilic amination using O-acyl-N-hydroxyamines as convenient prec ursors to diverse alkylamino groups. This thesis describes the developmen t of methods for the synthesis of allylic amines and vicinal diamines usi ng this platform.\n\nThe allylic amination reaction provides a method for the synthesis of tertiary N-alkyl allylamines from variously substituted alkenes. A sulfonic acid is used to enhance the electrophilicity of the radical aminating species while the π-bond is selectively transposed with selective elimination of β-hydrogen. Investigation of mechanism for this catalytic process revealed the presence of radical intermediates\, an el ectronic influence on the desaturation step\, and an absence of kinetic i sotope effect in C-H cleavage. These findings support a turnover-limiting step that precedes desaturation of the radical intermediate and favors a n oxidative elimination mechanism of C-H cleavage.\n\nVicinal diamine syn thesis is accomplished by a copper-catalyzed three-component reaction of vinylarene\, O-acyl-N-hydroxyamine\, and alkylamine·BF3 complex. This rea ction identifies trifluoroborate complexes as an effective means to overc ome the challenges associated with nucleophilic amines in transition meta l catalysis and obtain regioselective synthesis. In the presence of a chi ral catalyst\, unprecedented enantioselective benzylic amination by alkyl amino groups is achieved. Preliminary reaction conditions yield up to 60% diamine product and 85% enantiomeric excess (e.e.). DURATION:PT1H DTSTAMP:20260116T185313Z DTSTART;TZID=America/New_York:20260203T100000 LAST-MODIFIED:20260116T185313Z LOCATION;X-BEDEWORK-UID=18832e99-2b52a4d8-012b-5382144d-00000090:French Fa mily Science Center 3232 STATUS:CONFIRMED SUMMARY:Chemistry Defense: EJ McLaren: Copper-Catalyzed Electrophilic Amin ation of O-Acyl-N-Hydroxyamines with Alkenes for the Synthesis of Allyli c Amines and Vicinal Diamines UID:CAL-8a00eca5-9af98aae-019b-c8278f67-0000054ddemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Natural Sciences:/user/publi c-user/Topics/Natural Sciences X-BEDEWORK-SPEAKER:EJ McLaren X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=chem-office@duke.edu:Che m Admin Office X-BEDEWORK-IMAGE-X1:127 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1747 X-BEDEWORK-IMAGE-Y2:1080 X-BEDEWORK-IMAGE-CROP-WIDTH:1620 X-BEDEWORK-IMAGE-CROP-HEIGHT:1080 X-BEDEWORK-IMAGE-ALT-TEXT:EJ X-BEDEWORK-SUBMITTEDBY:lao26 for Chemistry (agrp_ArtsandSciences_Chemistry ) X-BEDEWORK-IMAGE:/public/Images/Admin Office Slides (22)_20260116065314PM .png X-BEDEWORK-THUMB-IMAGE:/public/Images/Admin Office Slides (22)_2026011606 5314PM-thumb.png END:VEVENT END:VCALENDAR