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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251003T100000
DTEND;TZID=America/New_York:20251003T110000
DTSTAMP:20260521T200540
CREATED:20250929T123743Z
LAST-MODIFIED:20250929T125814Z
UID:10001526-1759485600-1759489200@asrc.gc.cuny.edu
SUMMARY:Photonics Initiative Seminar: Junichiro Kono
DESCRIPTION:Dr. Junichiro Kono\, Rice University\nCavity-Dressed Quantum Matter \nAbstract – There has been a growing realization that the properties of a material can be modified just by placing it in an optical cavity. The quantum vacuum fields surrounding the material inside the cavity can cause nonintuitive modifications of electronic states through ultrastrong vacuum–matter coupling\, producing a vacuum-dressed material with novel properties. Existing theoretical predictions include cavity-enhanced\, cavity-induced\, and cavity-mediated enhancement of electron–phonon coupling and superconductivity\, electron pairing\, anomalous Hall effect\, ferroelectric phase transitions\, quantum spin liquids\, and photon condensation. Achieving the so-called ultrastrong coupling (USC) regime is a prerequisite for observing these effects\, which arise when the interaction energy becomes a significant fraction of the bare photonic mode and matter excitation frequencies. Most intriguingly\, when a material is ultrastrongly coupled with cavity-enhanced vacuum electromagnetic fields\, its ground state will contain virtual photons. This nonperturbative virtual driving without external fields can lead to phase transitions in thermal equilibrium. This talk will describe our recent studies of USC phenomena in various solid-state cavity quantum electrodynamics systems in search of such vacuum-induced phases of matter. We utilize the phenomenon of Dicke cooperativity\, i.e.\, many-body enhancement of light–matter interaction\, to explore quantum-optical strategies for creating\, controlling\, and utilizing novel phases in condensed matter enabled by the quantum vacuum. \nBio – Junichiro Kono received his B.S. and M.S. degrees in applied physics from the University of Tokyo in 1990 and 1992\, respectively\, and completed his Ph.D. in physics from the State University of New York at Buffalo in 1995. He was a postdoctoral research associate at the University of California Santa Barbara from 1995-1997\, and the W. W. Hansen Experimental Physics Laboratory Fellow in the Department of Physics at Stanford University from 1997-2000. He joined the Department of Electrical and Computer Engineering of Rice University in 2000 as an Assistant Professor and was promoted to Associate Professor in 2005 and to Professor in 2009. He is currently a Professor in the Departments of Electrical & Computer Engineering\, Physics & Astronomy\, and Materials Science & Nanoengineering at Rice University. \n\nProfessor Kono has also founded and implemented multiple education programs\, including the nationally recognized international research experience program called NanoJapan. NanoJapan was funded by the U.S. National Science Foundation and received the Heiskell Award for Innovation from the Institute of International Education in 2008. In 2016\, his team was selected by the U.S.-Japan Council to implement TOMODACHI STEM @ Rice\, which serve as a catalyst for female Japanese students interested in science and engineering research and engagement with the U.S. through international research collaborations. Professor Kono is a leader in optical studies of condensed matter systems and photonic applications of nanosystems\, including semiconductor nanostructures and carbon-based nanomaterials. He has made a number of pioneering contributions to the diverse fields of semiconductor optics\, terahertz spectroscopy and devices\, ultrafast and quantum optics\, and condensed matter physics. \nSpecifically\, his high-impact achievements include: exploration of extreme nonlinear optics in semiconductors using small-energy photons; ultrafast optical manipulation of collective spins in ferromagnetic semiconductors; observation of the Aharonov-Bohm effect in carbon nanotubes via magneto-optics; ultrafast and nonlinear optical studies of carbon nanotubes; first observation of superfluorescence in a solid through cooperative recombination of quantum degenerate electron-hole pairs; and demonstrations of the ultrastrong coupling regime in high-Q terahertz cavities. Kono’s research group uses state-of-the-art spectroscopic techniques to probe charge\, spin\, and vibrational dynamics. Their experimental facilities include the RAMBO system — a unique mini-coil-based 30-T pulsed magnet system equipped with ultrafast and nonlinear optical spectroscopy setups.
URL:https://asrc.gc.cuny.edu/event/photonics-initiative-seminar-kono/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251006T110000
DTEND;TZID=America/New_York:20251006T120000
DTSTAMP:20260521T200540
CREATED:20250922T133617Z
LAST-MODIFIED:20250926T171654Z
UID:10001524-1759748400-1759752000@asrc.gc.cuny.edu
SUMMARY:Nanoscience Guest Speaker: Coordination Self-Assembly: From Origins to the Latest Advances - Dr. Makoto Fujita
DESCRIPTION:Register HERE! Space is limited.\nAbstract: Molecular self-assembly based on coordination chemistry has made an explosive development in recent years.  Over the last >30 years\, we have been showing that the simple combination of transition-metal’s geometry (typically\, a 90 degree coordination angle of Pd(II) center) with organic bridging ligands gives rise to the quantitative self-assembly of nano-sized\, discrete organic frameworks.  Representative examples include square molecules (1990)\, linked-ring molecules (1994)\, cages (1995)\, capsules (1999)\, and tubes (2004) that are self-assembled from simple and small components. Originated from these earlier works\, current interests in our group focus on i) molecular confinement effects in coordination cages\, ii) solution chemistry in crystalline porous complexes (as applied to “crystalline sponge method”)\,[1] and iii) and giant self-assemblies[2]\, as disclosed in this lecture. \nBio: Makoto Fujita is a University Distinguished Professor at Tokyo College\, The University of Tokyo\, Japan. He earned his Ph.D. from the Tokyo Institute of Technology in 1987. After holding positions at Chiba University and the Institute for Molecular Science (IMS) in Okazaki\, he became a full professor at Nagoya University in 1999. In 2002\, he moved to The University of Tokyo\, where he was appointed a full professor. He received his current title as a University Distinguished Professor in 2019. \nHis research interests include: (1) Coordination Self-Assembly: He focuses on constructing nanoscale\, discrete frameworks\, such as MnL2n​ Archimedean/non-Archimedean solids\, through self-assembly induced by transition-metal ions. (2) Molecular Confinement Effects: His work involves developing and creating new properties and reactions by confining molecules within the cavities of self-assembled coordination cages. (3) Crystalline Sponge Method: This groundbreaking technique utilizes single-crystal-to-single-crystal guest exchange within the pores of self-assembled coordination networks. It’s a new X-ray method that doesn’t require the crystallization of target compounds. \nHe is a recipient of the 2018 Wolf Prize in Chemistry. This year\, he was selected as an honorary foreign member of the American Academy of Arts and Sciences (AAAS) and will be attending the induction ceremony in Boston after this seminar in the weekend. \n  \n \n 
URL:https://asrc.gc.cuny.edu/event/nanoscience-guest-speaker-dr-makoto-fujita-coordination-self-assembly-from-origins-to-the-latest-advances/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Nanoscience
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/nanoscience-guest-speaker-dr-makoto-fujita-coordination-self-assembly-from-origins-to-the-latest-advances/Dr.-Makoto-Fujita-Mon.-October-6th-2025_9-26-2025-Cropped-Up.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251008T120000
DTEND;TZID=America/New_York:20251008T130000
DTSTAMP:20260521T200540
CREATED:20250821T165608Z
LAST-MODIFIED:20251006T150758Z
UID:10001511-1759924800-1759928400@asrc.gc.cuny.edu
SUMMARY:Fall '25 Biochem Seminar: Associate Professor Kimberly Reynolds
DESCRIPTION:Mapping and modeling the impact of protein biochemical variation on growth rate phenotype \nIndividual proteins can be expressed\, purified\, and exquisitely characterized in terms of their biochemical and biophysical parameters in vitro. However\, the quantitative relationship between these parameters and complex phenotypes like growth remains mysterious. For example\, what values of protein abundance\, thermal stability (ΔGfold) and catalytic activity (kcat\, Km) must an enzyme attain to sustain metabolic pathway flux and support cell growth? In many cases\, we are missing even orders-of-magnitude level bounds on these fundamental biochemical parameters — we do not have a sense of which protein properties must be precisely tuned and which are robust to variation. To address this knowledge gap\, my lab seeks to quantify the intracellular constraints on protein abundance\, activity\, regulation\, and ultimately sequence. We then use this information to engineer new protein systems and build mathematical models relating protein activity and sequence to phenotype. In this talk\, I will first discuss our recent study of how variation in the activity of one enzyme constrains the biochemical parameters and sequence of another. Using a combination of deep mutational scanning and mathematical modeling we showed that inter-enzyme biochemical coupling can strongly reshape an enzyme’s sensitivity to mutation. Then\, I will introduce a CRISPR-interference based strategy for quantitatively mapping the relationship between protein expression level and cell growth. We used these high throughput measurements to train an interpretable machine learning model that predicts growth rate given combinatorial variation in gene expression and environment. Together these data lay a foundation for defining the biochemical “design specifications” of metabolic pathways and cell systems. \nPlease use this link to access Zoom. \n\n\n\nFor any questions\, please contact Hyacinth Camillieri at hcamillieri@gc.cuny.edu.
URL:https://asrc.gc.cuny.edu/event/fall-25-biochem-seminar-assistant-professor-kimberly-reynolds/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=application/pdf:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/fall-25-biochem-seminar-assistant-professor-kimberly-reynolds/20251008_reynolds_flyer.pdf
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251009T120000
DTEND;TZID=America/New_York:20251009T130000
DTSTAMP:20260521T200540
CREATED:20251003T195440Z
LAST-MODIFIED:20251003T195440Z
UID:10001529-1760011200-1760014800@asrc.gc.cuny.edu
SUMMARY:Neuroscience Special Seminar - Antonio Aubry
DESCRIPTION:Join us for a special talk featuring Dr. Antonio Aubry\, Instructor\, Department of Neuroscience\, Icahn School of Medicine at Mount Sinai. \nAttend in person or join us on Zoom! Please refer to the event flyer for more details.
URL:https://asrc.gc.cuny.edu/event/neuroscience-special-seminar-antonio-aubry/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/neuroscience-special-seminar-antonio-aubry/SPECIAL-SEMINAR-1009.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251015T090000
DTEND;TZID=America/New_York:20251015T130000
DTSTAMP:20260521T200540
CREATED:20251002T185354Z
LAST-MODIFIED:20251002T185354Z
UID:10001528-1760518800-1760533200@asrc.gc.cuny.edu
SUMMARY:Roosevelt House Forum: The Science-to-Sustainability Dialogue Series
DESCRIPTION:Register HERE! Space is limited. \n \nAbout: Strategic challenges like accelerating climate change\, energy transition\, urbanization\, adoption of artificial intelligence\, and the need for global pandemic warning are all growing in urgency\, in complexity\, and in their need for clear and direct communication between researchers and decision-makers. In a time of increasing skepticism on science and growing geopolitical turbulence\, the historic Roosevelt House has organized a Forum series to convene a multidisciplinary panel of experts to explore how science can better be communicated and translated into sound policy. \n\n\n\n\n\n  \nInaugural Event: The Role of Science in the New World Order \n\n\n\n\n\nAgenda \n\nInformational flyer
URL:https://asrc.gc.cuny.edu/event/roosevelt-house-forum-the-science-to-sustainability-dialogue-series/
LOCATION:Roosevelt House\, CUNY Hunter College\, 47-49 East 65th Street\, New York\, 10065\, United States
CATEGORIES:Environmental Sciences
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251015T120000
DTEND;TZID=America/New_York:20251015T130000
DTSTAMP:20260521T200540
CREATED:20250821T165706Z
LAST-MODIFIED:20251010T144301Z
UID:10001512-1760529600-1760533200@asrc.gc.cuny.edu
SUMMARY:Fall '25 Biochem Seminar: Professor Michael Sattler
DESCRIPTION:Dynamic RNA-protein interactions in A-to-I editing and biomolecular condensates in non- coding RNA pathways \nWe employ integrative structural biology\, combining solution NMR with complementary techniques and molecular dynamics to study the dynamics of RNAs and RNA-protein interactions in RNA processing pathways\, including alternative splicing regulation and non- coding RNA pathways. The structural understanding is a starting point to identify small molecule inhibitors that modulate these pathways for novel therapeutic approaches. Starting from a brief outline of our work and approaches in splicing regulation\, two studies will be presented: (1) We discovered extensive dynamics associated with A-to-I hyper-edited dsRNAs\, which exhibit unique conformational features. These features are specifically associated with hyper-editing and are specifically recognized by inosine binding proteins such as Endonuclease V. (2) We are dissecting the molecular principles of biomolecular condensates that are implicated in the separation of small non-coding RNA pathways in Drososphila\, combining NMR\, biophysical techniques and cell microscopy. \nPlease use this link to access Zoom. \n\n\n\nFor any questions\, contact Hyacinth Camillieri at hcamillieri@gc.cuny.edu.
URL:https://asrc.gc.cuny.edu/event/fall-25-biochem-seminar-professor-michael-sattler/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=application/pdf:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/fall-25-biochem-seminar-professor-michael-sattler/20251015_sattler_flyer.pdf
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251016T120000
DTEND;TZID=America/New_York:20251016T130000
DTSTAMP:20260521T200540
CREATED:20251015T000336Z
LAST-MODIFIED:20251015T000336Z
UID:10001533-1760616000-1760619600@asrc.gc.cuny.edu
SUMMARY:Neuroscience Special Seminar - J. Wren Kim
DESCRIPTION:Join us for a special talk featuring Dr. J. Wren Kim\, Assistant Project Scientist\, Molecular and Cell Biology\, UC Berkeley. \nAttend in person or join us on Zoom! Please refer to the event flyer for more details.
URL:https://asrc.gc.cuny.edu/event/neuroscience-special-seminar-j_wren_kim/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/neuroscience-special-seminar-j_wren_kim/J.-Wren-Kim-Seminar.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251020T120000
DTEND;TZID=America/New_York:20251020T130000
DTSTAMP:20260521T200540
CREATED:20250912T133655Z
LAST-MODIFIED:20251006T150909Z
UID:10001521-1760961600-1760965200@asrc.gc.cuny.edu
SUMMARY:Interdisciplinary Seminar Series: Dr. Mark Hauber\, Executive Director and Professor of Psychology
DESCRIPTION:Species Recognition in Brood Parasitic Birds and Their Hosts \nOnly 1% of avian species are obligate brood parasitic\, laying their eggs in nests of other species. Yet they impact nearly 20% of bird species that serve as hosts. How do young parasites recognize their own species and why do some\, but not other\, hosts accept foreign eggs in their nests. This talk will explore the neuroethological bases of both of these species recognition processes.
URL:https://asrc.gc.cuny.edu/event/interdisciplinary-seminar-series-dr-mark-hauber-executive-director-and-professor-of-psychology/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251027T110000
DTEND;TZID=America/New_York:20251027T120000
DTSTAMP:20260521T200540
CREATED:20250408T124154Z
LAST-MODIFIED:20250825T182033Z
UID:10001488-1761562800-1761566400@asrc.gc.cuny.edu
SUMMARY:Photonics Initiative Seminar: Maria Antonietta Loi
DESCRIPTION:Dr. Maria Antonietta Loi\, University of Groningen \nCOLLOIDAL QUANTUM DOT SUPERLATTICES: TOWARDS OPTOELETRONIC METAMATERIALS \nAbstract – 3D superlattices made of colloidal quantum dots are a promising candidate for the next generation of optoelectronic devices as they are expected to exhibit a unique combination of tunable optical properties and coherent electrical transport through minibands. In my presentation I will show the fabrication of 3D superlattices of PbSe and PbS QDs with nanoscale-level controlled ordering over large areas [1\, 2]\, and of outstanding transport properties. The measured electron mobilities for PbSe superlattices are the highest ever reported for a self-assembled solid of fully quantum-confined objects (electron mobility up to 278 cm2 V−1 s−1). This ultimately demonstrates that optoelectronic metamaterials with highly tunable optical properties (in this case in the short-wavelength infrared spectral range) and charge mobilities approaching that of bulk semiconductor can be obtained. This finding paves the way toward a new generation of optoelectronic devices. \nReferences:  \n[1] J. Pinna\, R. Mehrabi Koushki\, D. S. Gavhane\, M. Ahmadi\, S. Mutalik\, M. Zohaib\, L. Protesescu\, B. J. Kooi\, G. Portale\, M. A. Loi\, Approaching Bulk Mobility in PbSe Colloidal Quantum Dots 3D Superlattices. Adv. Mater.\, 35\, 2207364 (2023). \n[2] J. Pinna\, E. Pili\, R. Mehrabi Koushki\, D. S. Gavhane\, F. Carlà\, B. J. Kooi\, G. Portale\, and M. A. Loi PbI2 Passivation of Three Dimensional PbS Quantum Dot Superlattices Toward Optoelectronic Metamaterials ACS Nano\, 18\, 29\, 19124 (2024). \nBio – Maria Antonietta Loi studied physics at the University of Cagliari in Italy where she received the PhD in 2001. In the same year she joined the Linz Institute for Organic Solar cells\, of the University of Linz\, Austria as a postdoctoral fellow. Later she worked as researcher at the Institute for Nanostructured Materials of the Italian National Research Council in Bologna\, Italy. In 2006 she became assistant professor and Rosalind Franklin Fellow at the Zernike Institute for Advanced Materials of the University of Groningen\, The Netherlands. She is now full professor in the same institution and chair of the Photophysics and OptoElectronics group. \nShe has published more than 300 peer-reviewed articles on photophysics and optoelectronics of different types of materials. In 2013 she has received an ERC Starting Grant and in 2022 and ERC Advanced Grant from the European Research Council. She currently serves as Editor-in-Chief of Applied Physics Letters and she is member of the international advisory board of several international journals in physics and materials physics. In 2018 she received the Physicaprijs from the Dutch physics association for her outstanding work on organic-inorganic hybrid materials. In 2020 she became fellow of the American Physical Society. In 2022 she was elected fellow of the Dutch Academy of Science (KNAW). In the same year she became fellow of the European Academy of Science (EURASC) and of the Royal Society of Chemistry. In 2025 she became Fellow of the Material Research Society. \nZoom Meeting ID 897 1535 6177 Passcode 199637
URL:https://asrc.gc.cuny.edu/event/photonics-initiative-seminar-maria-antonietta-loi/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251028T163000
DTEND;TZID=America/New_York:20251028T183000
DTSTAMP:20260521T200540
CREATED:20251007T001942Z
LAST-MODIFIED:20251007T001942Z
UID:10001531-1761669000-1761676200@asrc.gc.cuny.edu
SUMMARY:Family Science Night
DESCRIPTION:Don’t be afraid of science; join us for Family Science Night at the CUNY ASRC. We will have fun science activities for all ages\, braaiiinns\, crystals\, lasers\, and more! Plus\, a tour with trick-or-treating on every floor. See you on October 28 from 4:30 p.m. to 6:30 p.m.\n\nRSVP today at https://bit.ly/4pWKPrD\n\n\nDownload and share the flyer
URL:https://asrc.gc.cuny.edu/event/family-science-night/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/family-science-night/TAYB8667_1280x720.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20251029T120000
DTEND;TZID=America/New_York:20251029T130000
DTSTAMP:20260521T200540
CREATED:20250821T165751Z
LAST-MODIFIED:20251017T170415Z
UID:10001513-1761739200-1761742800@asrc.gc.cuny.edu
SUMMARY:Fall '25 Biochem Seminar: Professor Lillian Chong
DESCRIPTION:Catching Rare Events in Action with Weighted Ensemble MD \nRare biological and chemical events often lie beyond the reach of conventional simulations. The weighted ensemble (WE) path sampling strategy overcomes this barrier\, extending accessible timescales by orders of magnitude while maintaining rigorous kinetics. By directly simulating pathways and stepwise rates\, WE reveals molecular mechanisms in unprecedented detail. In this talk\, I will highlight recent advances in WE methodology and showcase applications to hidden protein states and chemical reactions. \nPlease use this link to access Zoom. \n\n\n\nFor any questions\, please contact Hyacinth Camillieri at hcamillieri@gc.cuny.edu.
URL:https://asrc.gc.cuny.edu/event/fall-25-biochem-seminar-professor-lillian-chong/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=application/pdf:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/fall-25-biochem-seminar-professor-lillian-chong/20251026_chong_flyer.pdf
END:VEVENT
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