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DTSTART;TZID=America/Los_Angeles:20260416T060000
DTEND;TZID=America/Los_Angeles:20260416T190000
DTSTAMP:20260425T094317
CREATED:20260411T225300Z
LAST-MODIFIED:20260411T225300Z
UID:22608-1776319200-1776366000@www.siliconvalleyacs.org
SUMMARY:Implications and Applications of Local pH in Electrocatalysis (Beilstein Institute Webinar)
DESCRIPTION:Samuel S. Veroneau\, PhD\, Vagelos Institute for Energy Science and Technology\, University of Pennsylvania\nSponsored by the Beilstein Institute\nApril 16th\, 6:00-7:00 am\, Online\, Free\, Registration required\n\nElectrochemistry can transform abundant resources like water and carbon dioxide into useful chemical and sustainable fuels. These reactions often involve protons\, which are either consumed or produced at the surface of electrodes. The concentration of protons at the electrode (i.e.\, local pH) fundamentally governs the efficiency and selectivity of myriad electrochemical transformations (e.g.\, the oxygen evolution reaction [OER]). As more and more protons are consumed or produced during operation\, however\, this local pH can change dramatically. Taking bulk pH\, buffer composition\, and mass-transport into account\, we develop an accessible and robust model for describing this local pH. Our model explores how pH gradients form and dissipate during operation\, which we correspondingly validate using rotating (ring) disc electrodes. We may employ this model to predict the local pH over a wide range of current densities\, including under industrially relevant conditions\, and propose that dramatic changes in local pH may be inevitable regardless of bulk conditions. The complicating effects of morphology on local pH are further described to highlight how understanding and controlling this environment is crucial to improving the efficiency of electrochemical transformations. \nSamuel S. Veroneau\ngrew up near Washington\, D.C. and studied chemistry at the University of Chicago. He returned to the East Coast and received his Ph.D. in Chemistry from Harvard University in 2024 under the guidance of Prof. Daniel Nocera. His graduate studies focused on the electrochemistry of water splitting catalyst for green hydrogen production. As a postdoctoral researcher at the University of Pennsylvania\, his work now explores reactive nitrogen-based fuels under the supervision of Profs. Tom Mallouk and Daniel Mindiola. Dr. Veroneau was the recipient of the Herchel Smith Fellowship at Harvard and is currently funded by a Vagelos Institute for Energy Science and Technology Postdoctoral Fellowship.
URL:https://www.siliconvalleyacs.org/event/implications-and-applications-of-local-ph-in-electrocatalysis-beilstein-institute-webinar/
LOCATION:Virtual
CATEGORIES:Webinar
ATTACH;FMTTYPE=image/png:https://www.siliconvalleyacs.org/wp-content/uploads/2026/04/Samuel-S-Veroneau.png
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20260422T160000
DTEND;TZID=America/Los_Angeles:20260422T170000
DTSTAMP:20260425T094317
CREATED:20260411T231447Z
LAST-MODIFIED:20260411T231447Z
UID:22624-1776873600-1776877200@www.siliconvalleyacs.org
SUMMARY:A Walk in the Woods with Acorns and Sagebrush
DESCRIPTION:Prof. James David Adams\, USC\nSponsored by Southern California Section of ACS\nApril 22nd\, 4:00-5:00 pm\, Online\, Free\, Registration required\n\nAcorns are an important food that come from oak trees. They contain about 10% protein\, 35% carbohydrate and 55% fat. Acorn protein contains all 9 essential amino acids. Acorns are eaten by Chinese\, Korean and other people but are not a normal food in California. Sagebrush\, Artemesia californica\, can be made into a liniment to treat pain. It contains 15 monoterpenoids that penetrate into the skin\, inhibit transient receptor potential cation channels to relieve pain\, then evaporate from the skin. The liniment can be safely used to treat major pain and chronic pain. \nSPEAKER BIO \nDr. James Adams received a PhD in Pharmacology from UC San Francisco and was a faculty member at the USC School of Pharmacy for 33 years. He has over 300 publications and has published extensively on California medicinal plants. He learned California Indian Medicine from a California Indian woman for 14 years. He currently teaches Chemistry to pre-Nursing Students at Saint Mary’s College in Moraga. He is an Expert in Apoptosis\, Delayed Cell Death\, Herbal Drugs\, Nicotinamide\, Ruptured Berry Aneurism\, Smart Drugs\, Stroke\, Toxicity Testing and Parkinsons Disease. \nMay 2012 – Chumash Healer\, Los Angeles\, following 14 years of training by Cecilia Garcia\, a recognized Chumash Healer \nSept 1981 – University of California\, San Francisco (Ph.D.\, Comparative Pharmacology and Toxicology; Minors: Pharmacology\, Pharmaceutical Chemistry) \nSpring 1975 – University of California\, Riverside (Undergraduate\, A.B.\, Biochemistry; Minor: Chemistry) \n1993-2025 Associate Professor\, School of Pharmacy\, USC \n1987-1993 – Assistant Professor\, School of Pharmacy\, University of Southern California \n1985-87 – Assistant Professor\, College of Pharmacy\, Washington State University 1983-85 – Staff Fellow\, NIADDK\, NIH\, Section on Oxidation Mechanisms \n1981-83 – Postdoctoral Fellow\, Baylor College of Medicine\, Institute for Lipid Research 1976-81 – Research Assistant\, University of California\, San Francisco\, Ph.D. program in Biochemical Toxicology \n1975-76 – Research Assistant\, University of California\, Riverside\, Ph.D. program in Insect Toxicology \n  \nPROFESSIONAL/HONORARY SOCIETIES \n1981 – American Association for the Advancement of Science \n1986 – International Society for the Study of Xenobiotics \n1987 – American Association of Colleges of Pharmacy \n1988 – Society of Neuroscience \n1989 – American Association of Pharmaceutical Scientists \n1990 – The Oxygen Society \n1994 – The American Society for Neurochemistry \n 
URL:https://www.siliconvalleyacs.org/event/a-walk-in-the-woods-with-acorns-and-sagebrush/
LOCATION:Virtual
CATEGORIES:Webinar
ATTACH;FMTTYPE=image/jpeg:https://www.siliconvalleyacs.org/wp-content/uploads/2026/04/James-David-Adams-USC.jpg
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20260422T173000
DTEND;TZID=America/Los_Angeles:20260422T183000
DTSTAMP:20260425T094317
CREATED:20260411T232001Z
LAST-MODIFIED:20260411T232443Z
UID:22627-1776879000-1776882600@www.siliconvalleyacs.org
SUMMARY:Hierarchical Materials Through 3D Printing and Molecular Design
DESCRIPTION:Prof. Emily Davidson\, Princeton University\nSponsored by Golden Gate Polymer Forum\nApril 22nd\, 5:30-6:30 pm; Online\, Free/$5 donation\, Registration required by April 21st at 1pm\n\nNature creates remarkable material by controlling the hierarchical assembly of molecules that are broken down at the end of their useful life. Inspired by natural systems\, my group’s research combines molecular design with directed assembly via extrusion-based 3D printing to program the structure and function of polymer-based materials across length scales. First\, I will describe how in both liquid crystalline polymers and block copolymers we can control the extent of nanostructure alignment and functional anisotropy via the flow history the material undergoes during 3DP. By tailoring flow history and microstructural layout\, we are able to encode ‘multiple properties’ in structures composed of a single material. I will also discuss our contributions to developing liquid crystal elastomers with tailored network structures that allow us to probe the interplay of network structure with liquid crystalline phase transitions. \nSpeaker Background\nEmily Davidson is an Assistant Professor of Chemical and Biological Engineering at Princeton University. She leads a research group that works at the intersection of polymer synthesis\, polymer physics\, self-assembly\, and additive manufacturing to develop hierarchically defined functional materials. She received her B.S. in Chemical Engineering from MIT\, her PhD from UC Berkeley\, and performed postdoctoral research at Harvard University. She has been recognized with a 2019 Scientista ‘Young Professional’ Award\, a 2022 DOE Early Career award\, and the 2023 Princeton School of Engineering Alfred Rheinstein Faculty Award.
URL:https://www.siliconvalleyacs.org/event/hierarchical-materials-through-3d-printing-and-molecular-design/
LOCATION:Virtual
CATEGORIES:Webinar
ATTACH;FMTTYPE=image/jpeg:https://www.siliconvalleyacs.org/wp-content/uploads/2025/04/GGPF-and-SVACS-logos.jpg
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20260423T160000
DTEND;TZID=America/Los_Angeles:20260423T170000
DTSTAMP:20260425T094317
CREATED:20260411T233101Z
LAST-MODIFIED:20260411T233101Z
UID:22632-1776960000-1776963600@www.siliconvalleyacs.org
SUMMARY:Into the Woods and Beyond: Essential Oils and the Chemistry of Forest Bathing
DESCRIPTION:Amanda Lattin\, Dean or Aromatherapy\, American College of Health Science\, Portland\, Oregon\nSponsored by Southern California Section of ACS\nApril 23rd\, 4:00-5:00 pm\, Online\, Free\, Registration required\n\nInto the Woods and Beyond: Essential Oils and the Chemistry of Forest Bathing explores how forest-derived volatile organic compounds (VOCs)\, particularly monoterpenes such as α-pinene\, β-pinene\, limonene\, and bornyl acetate\, contribute to the physiological and psychological benefits of Shinrin-yoku. Drawing on research in environmental health\, phytochemistry\, and integrative medicine\, this session highlights how these compounds influence stress-related pathways\, including reductions in cortisol and support for parasympathetic nervous system activity. \nThe presentation further examines how conifer essential oils\, chemically aligned with forest VOC profiles\, can be used to recreate key aspects of the forest bathing experience indoors. Attendees will gain insight into the chemical mechanisms underlying naturebased stress reduction and practical strategies for applying forest-inspired aromatherapy when outdoor access is limited\, bridging environmental chemistry with accessible wellness applications. \nSPEAKER BIO:\nAmanda Lattin is the Dean of Aromatherapy at the American College of Healthcare Sciences and Vice President of the Alliance of International Aromatherapists. She is an educator\, clinician\, and researcher with extensive experience in aromatherapy\, herbal medicine\, and phytochemistry. Amanda has designed and taught curriculum in chemistry\, phytochemistry\, aromatherapy\, and botanical medicine across multiple institutions\, including ACHS and the Traditional Roots Institute at the National University of Natural Medicine. \nHer scholarly work focuses on the therapeutic applications of essential oils and advancing a theoretical framework for researching aromatherapy through the lens of scientific holism; integrating biochemical\, physiological\, and whole-person health perspectives. She has published and presented on aromatherapy’s role in integrative health and evidence-informed practice. \nIn addition to her academic work\, Amanda has maintained a clinical aromatherapy and herbal medicine practice in Portland since 2007\, collaborating with integrative health clinics and practitioners to incorporate botanical medicine into comprehensive client care. Her work bridges scientific rigor\, clinical application\, and holistic wellness\, with a focus on translating plant chemistry into meaningful health outcomes.
URL:https://www.siliconvalleyacs.org/event/into-the-woods-and-beyond-essential-oils-and-the-chemistry-of-forest-bathing/
LOCATION:Virtual
CATEGORIES:Webinar
ATTACH;FMTTYPE=image/jpeg:https://www.siliconvalleyacs.org/wp-content/uploads/2026/04/Amanda-Lattin-e1775950192135.jpg
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20260509T103000
DTEND;TZID=America/Los_Angeles:20260509T123000
DTSTAMP:20260425T094317
CREATED:20260412T203019Z
LAST-MODIFIED:20260412T203019Z
UID:22647-1778322600-1778329800@www.siliconvalleyacs.org
SUMMARY:Virology and Immunology of Emergent Arboviruses: Learning From the Patients
DESCRIPTION:Sandra Lopez Verges\, PhD\nSponsored by California ACS\, Women Chemists Committee\nMay 9th\, 10:30 am-12:30 pm\, Online\, Free\, Registration required | Download flyer\n\nEmergent viruses are primarily zoonotic viruses\, meaning that they infect both human and non-human animals. They can be transmitted predominantly by aerosols\, direct contact or through vectors. This talk will focus on the latter group of emergent viruses\, which are transmitted by arthropod vectors (arboviruses). The main arboviruses are transmitted by mosquitoes. We will describe their molecular and genetic characterization during outbreaks and surveillance from febrile patients. We will also explore the immune response in these patients\, and what can be learned from survivors and seropositive healthy individuals to create new treatments and define correlates of protection for future vaccine studies. Finally\, we will discuss how these patient-based observations can inform more basic in-vitro studies. \nAbout the Speaker\nSandra did her studies at the Université Paris 7 Denis Diderot\, Paris\, France. She received her BS in Biology-Biochemistry\, her MS (Pasteur Institute) and her PhD in Microbiology with a specialty in Basic Virology. Her doctoral thesis focused on HIV cellular cofactors at the Institut Cochin. She completed post- doctoral training in Immunology and Virology at UCSF. \nSince 2012\, Sandra has worked at the Gorgas Memorial Institute for Health Studies\, Panama\, as a Senior Health Researcher. She created the flow cytometry core there\, participates in arboviruses and emergent viruses and leads projects on viral immunology. She was the Head of the Department of Research in Virology and Biotechnology from January 2020 to January 2025\, leading the laboratory’s national response for the COVID19 pandemic. She has also been teaching graduate classes at the University of Panama since 2018. \nHer research has resulted in one patent and more than 60 scientific publications (ORCID: 0000-0002-1106-8479). She obtained several awards as the Gorgas Memorial Award (ASTMH\, 2013) and the UNESCO-L’OREAL International Fellowship for Young Women in Science in 2014 to work on arboviruses at the University of Texas Medical Branch\, USA (2015-2017). She was selected as a member of the National Research System (SNI\, SENACYT in Panama) in 2014\, of the Global Young Academy (GYA) in 2018. She was part of the Pathogen Bulletin working group on Biosafety and Biosecurity in Virology research (2022 2024)\, the WHO R&D Blueprint Togaviridae working group (2023-2024) and the panel of experts from the International Science Council for the Bioweapons convention (2024-2025). \nBesides her research work\, she has participated in workshops\, courses and projects on Science Diplomacy and Science advice. She continues to be an advocate for women in science and participates in science motivational programs for young people.
URL:https://www.siliconvalleyacs.org/event/virology-and-immunology-of-emergent-arboviruses-learning-from-the-patients/
LOCATION:Virtual
CATEGORIES:Webinar
ATTACH;FMTTYPE=image/png:https://www.siliconvalleyacs.org/wp-content/uploads/2026/04/Sandra-Verges.png
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