Event List
retrieve:
Return the details about the given Event id.
list:
List all Event objects.
GET /api/v1/events/?format=api&offset=140&ordering=event__start_time
{ "count": 238, "next": "https://memento.epfl.ch/api/v1/events/?format=api&limit=10&offset=150&ordering=event__start_time", "previous": "https://memento.epfl.ch/api/v1/events/?format=api&limit=10&offset=130&ordering=event__start_time", "results": [ { "id": 70698, "title": "SUPER SANDWICH SEMINAR", "slug": "super-sandwich-seminar-361", "event_url": "https://memento.epfl.ch/event/super-sandwich-seminar-361", "visual_url": "https://memento.epfl.ch/image/32118/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32118/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32118/max-size.jpg", "lang": "en", "start_date": "2026-06-18", "end_date": "2026-06-18", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<p>Triple S (Super Sandwich Seminar) will feature 3 speakers per week, each presenting for 15 minutes, followed by a 5 minutes Q&A session.</p>", "image_description": "", "creation_date": "2025-12-16T15:56:43", "last_modification_date": "2025-12-16T15:58:24", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "SV 1717", "url_place_and_room": "https://plan.epfl.ch/?room==SV%201717", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Yves Paychère -<em> Naef Lab; </em>Steffen Sonnentag, <em>Radtke Lab</em>; Kiruthika Kuma, <em>Antanasijevic Lab</em>", "organizer": "Prof. Pierre Gönczy", "contact": "Lisa Smith, ISREC Administrative Assistant", "is_internal": "True", "theme": "", "vulgarization": { "id": 2, "fr_label": "Public averti", "en_label": "Informed public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "Super Sandwich, cancer", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119055/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/26/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api", "https://memento.epfl.ch/api/v1/mementos/111/?format=api" ] }, { "id": 71229, "title": "MechE Colloquium: Functional materials for renewable energy storage and conversion – sustainable and scalable materials design for photocatalysts and battery materials", "slug": "meche-colloquium-functional-materials-for-renewabl", "event_url": "https://memento.epfl.ch/event/meche-colloquium-functional-materials-for-renewabl", "visual_url": "https://memento.epfl.ch/image/32590/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32590/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32590/max-size.jpg", "lang": "en", "start_date": "2026-04-07", "end_date": "2026-04-07", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<strong>Abstract: </strong>Renewable energy conversion and storage are pressing topics in applied research today, as the use of non-fossil energy sources is essential to reduce CO<sub>2</sub> emissions. Solar and wind energy harvesting combined with chemical energy storage in batteries or fuels, such as hydrogen, are essential processes, that need to be improved in terms of efficiency, long-term stability, scalability and sustainability. Although significant progress has been made, many proposed photo- or electrochemical devices show satisfying short-term efficiencies in the laboratory but are too cost-intensive, too unstable and/or not sustainable enough for large-scale applications [1][2]. This is often the case, because they rely on rare materials and/or they are not fabricated using scalable processes. From a material science point of view, key areas to improve dynamic processes include, of course, the bulk properties of the active materials themselves, as well as the interfaces between the active materials and the electrolyte [3]. <br>\r\nIn this contribution concepts are presented how to improve the function of active materials in photo- or electrochemical energy applications by materials and interface design while respecting sustainability criteria. Our strategies include morphology control by scalable synthesis procedures and chemical modifications using earth-abundant and sustainable additives. These approaches are showcased in two application areas: photocatalysis for solar water-splitting and post-lithium-ion batteries. In both cases vanadium-based chemistries and low energy hydrothermal synthesis processes are used to produce devices with improved function [4,5].<br>\r\n[1] A. Vilanova, P. Dias, T. Lopes and A. Mendes, Chemical Society Reviews 53 (2024) 2388<br>\r\n[2] S. Maddukuri, D. Malka, M.S. Chae, Y. Elias, S. Luski, D. Aurbach, Electrochimica Acta 354 (2020) 136771<br>\r\n[3] Z. Xi and M. Liu, npj Materials Sustainability 3 (2025) 18<br>\r\n[4] J. Praxmair, F. Creazzo, D. Tang, J. Zalesak, J. Hörndl, S. Luber and S. Pokrant, ChemElectroChem 12 (2025) e202500280<br>\r\n[5] J. LamChen, J. Zalesak and S. Pokrant, (2026) submitted to Journal of Power Sources<br>\r\n<br>\r\n<br>\r\n<strong>Biography: </strong>Simone Pokrant is Professor of Functional Materials at the department of Chemistry and Physics of Materials, University of Salzburg (Austria) since 2018 and Vice Dean of the Faculty of Natural and Life Sciences since 2024. She previously served, among others, as research group leader at Empa (Switzerland) and spent ten years in industry as a technical leader and product manager, specializing in physical characterization and electron microscopy at Philips (France) and Zeiss (Germany). She holds a PhD in Physical Chemistry from the University of Marburg (Germany). Her research interests focus on the development of materials for renewable energy storage and conversion, particularly for batteries and photocatalysis. So far, she has contributed to more than 70 peer-reviewed articles.", "image_description": "", "creation_date": "2026-02-25T11:29:01", "last_modification_date": "2026-02-25T13:54:27", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "MED 0 1418", "url_place_and_room": "https://plan.epfl.ch/?room==MED%200%201418", "url_online_room": "https://epfl.zoom.us/j/61360740951", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "<a href=\"https://www.plus.ac.at/chemie-und-physik-der-materialien/staff-2/m-bis-p/pokrant/\">Prof. Simone Pokrant</a>, <a href=\"https://www.plus.ac.at/chemie-und-physik-der-materialien/\">Department Chemistry and Physics of Materials</a>, <a href=\"https://www.plus.ac.at/?lang=en\">Paris-Lodron University Salzburg</a>", "organizer": "<a href=\"mailto:[email protected]\">MechE Colloquium</a>", "contact": "<a href=\"https://people.epfl.ch/sophia.haussener\">Prof. Sophia Haussener</a>", "is_internal": "False", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "MechE Colloquium: Functional materials for renewable energy storage and conversion – sustainable and scalable materials design for photocatalysts and battery materials", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119872/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/8/?format=api", "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/232/?format=api", "https://memento.epfl.ch/api/v1/mementos/270/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 71250, "title": "MechE Colloquium: When Materials Bend the Rules: Buckling Response of Slender Structures Born of Constitutive Nonlinearities", "slug": "meche-colloquium-when-materials-bend-the-rules-buc", "event_url": "https://memento.epfl.ch/event/meche-colloquium-when-materials-bend-the-rules-buc", "visual_url": "https://memento.epfl.ch/image/32609/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32609/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32609/max-size.jpg", "lang": "en", "start_date": "2026-04-14", "end_date": "2026-04-14", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<strong>Abstract: </strong>Buckling of slender structures, such as perforated columns and cylindrical shells, underpins a wide range of systems and processes, from the structural failure of rocket fuselages and grain silos to engineered devices such as shock absorbers and crumple zones. Historically, research has primarily focused on predicting the onset of buckling—that is, the loss of the original configuration under excessive loading—rather than on understanding how structures evolve in the post-buckling regime. Recently, however, the study of buckling has experienced a renaissance, with post-buckling mechanical responses increasingly exploited to achieve new functionalities, for example enhancing fracture resistance in stretchable electronics and flexible displays.<br>\r\n<br>\r\nWhile most existing studies consider elastically deforming systems whose behaviour arises primarily from geometric nonlinearities, this talk presents examples in which geometric effects are coupled with nonlinear constitutive responses, giving rise to new post-buckling mechanisms. First, we investigate the buckling of hard, perforated (“holey”) structures that exhibit auxetic behaviour but, unlike their purely elastic counterparts, undergo post-buckling softening. The resulting negative stiffness is captured using a pseudo-plastic constitutive model that describes nonlinearities emerging from the structural microarchitecture.<br>\r\n<br>\r\nWe then apply a similar framework to examine the buckling of beverage cans largely filled with liquid under axial compression. Whereas empty cylindrical shells typically develop periodic buckling patterns that break both axial and circumferential symmetry, liquid-filled cylinders buckle axisymmetrically. The resulting ring-shaped buckles are localized and emerge sequentially, progressively covering the can surface. We show that this behaviour arises from nonlinear, spatially anisotropic hoop stresses that soften and subsequently re-stiffen during compression.<br>\r\n<br>\r\n<strong>Biography: </strong>Draga Pihler-Puzovic is a Reader in the Department of Physics and Astronomy at the University of Manchester and a core member of the Manchester Centre for Nonlinear Dynamics. Her research focuses on fluid–structure interactions, low-Reynolds-number flows, and the deformation of slender solid structures. She employs a combination of experimental, numerical, and analytical approaches to investigate fundamental problems in fluid and solid mechanics, and has made significant contributions to the understanding of instabilities arising in fluid–structure interactions, including viscous fingering beneath elastic sheets, sedimentation dynamics and deformation of mechanical metamaterials.", "image_description": "", "creation_date": "2026-02-26T14:40:18", "last_modification_date": "2026-02-26T14:52:52", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "MED 0 1418", "url_place_and_room": "https://plan.epfl.ch/?room==MED%200%201418", "url_online_room": "https://epfl.zoom.us/j/61360740951", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "<a href=\"https://personalpages.manchester.ac.uk/staff/draga.pihler-puzovic/\">Prof. Draga Pihler-Puzović</a>, <a href=\"https://www.physics.manchester.ac.uk/\">Department of Physics and Astronomy</a>, <a href=\"https://www.manchester.ac.uk/\">University of Manchester</a>", "organizer": "<a href=\"mailto:[email protected]\">Institute of Mechanical Engineering (IGM)</a>", "contact": "<a href=\"https://people.epfl.ch/pedro.reis?lang=en\">Prof. Pedro M. Reis</a>", "is_internal": "False", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "MechE Colloquium: When Materials Bend the Rules: Buckling Response of Slender Structures Born of Constitutive Nonlinearities", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119899/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/8/?format=api", "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/232/?format=api", "https://memento.epfl.ch/api/v1/mementos/270/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 71258, "title": "SUPER SANDWICH SEMINAR", "slug": "super-sandwich-seminar-365", "event_url": "https://memento.epfl.ch/event/super-sandwich-seminar-365", "visual_url": "https://memento.epfl.ch/image/32616/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32616/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32616/max-size.jpg", "lang": "en", "start_date": "2026-04-23", "end_date": "2026-04-23", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<p>Triple S (Super Sandwich Seminar) will feature 3 speakers per week, each presenting for 15 minutes, followed by a 5 minutes Q&A session.</p>", "image_description": "", "creation_date": "2026-02-26T17:14:55", "last_modification_date": "2026-02-26T17:16:15", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "SV 1717", "url_place_and_room": "https://plan.epfl.ch/?room==SV%201717", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Flor Cecilia Navarro Negredo, <em>Radtke Lab; </em>Juliane Da Graca -<em> D'Angelo Lab; free slot</em>", "organizer": "Prof. Pierre Gönczy", "contact": "Lisa Smith, ISREC Administrative Assistant", "is_internal": "True", "theme": "", "vulgarization": { "id": 2, "fr_label": "Public averti", "en_label": "Informed public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "Super Sandwich, cancer", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119911/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/26/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 71345, "title": "MechE Colloquium : Instability and breakdown phenomena in vortical flows", "slug": "meche-colloquium-instability-and-breakdown-pheno-2", "event_url": "https://memento.epfl.ch/event/meche-colloquium-instability-and-breakdown-pheno-2", "visual_url": "https://memento.epfl.ch/image/32805/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32805/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32805/max-size.jpg", "lang": "en", "start_date": "2026-04-28", "end_date": "2026-04-28", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<strong>Summary</strong><br>\r\nVortical structures generated by fixed or rotating lifting surfaces play a central role in many aerodynamic and hydrodynamic flows. Their stability and eventual breakdown influence wake dynamics, mixing processes, and overall flow performance. This seminar presents two recent studies exploring vortex stability and vortex breakdown.<br>\r\nPart I – Short-wave instability of a helical vortex<br>\r\nThe first part of the seminar discusses the short-wave instability of a helical vortex generated by a rotating blade. Combining experimental dye visualisations, numerical simulations, and theoretical analysis, the study identifies displacement perturbations whose wavelengths are small relative to the helix radius and pitch but may remain large compared with the vortex core size. Stability analysis based on experimentally measured vortex profiles reveals broad bands of unstable wavenumbers for several vortex bending modes. These results differ from predictions of existing theories for short-wave vortex instability. Similar instability modes are also observed in arrays of straight vortices, indicating that the phenomenon is not related to vortex curvature. A theoretical examination of the dispersion relation of Kelvin modes for the measured vortex profiles uncovers a previously unidentified family of modes associated with the specific vorticity distribution. Their non-resonant interaction through the strain field provides a plausible explanation for the experimentally observed instability features.<br>\r\nPart II – Two-phase wing-tip vortex breakdown<br>\r\nThe second part presents the discovery of a new flow feature observed in the wake of a rectangular wing in water: the breakdown of the wing-tip vortex triggered by the injection of air into the vortex core downstream of the wing. Experiments show that, for certain combinations of Reynolds number and angle of attack, a stationary air bubble becomes trapped within the vortex core at a finite distance behind the wing and can persist for several minutes even after the air injection is stopped. Under different conditions, the bubble may drift upstream or downstream, or it may disintegrate immediately. Measurements of bubble properties and vortex characteristics reveal that the breakdown behaviour depends primarily on the vortex circulation and on the axial flow component within the core. The formation of a stable breakdown bubble occurs only when a velocity excess relative to the free stream is present.<br>\r\nThe two studies highlight new mechanisms governing the stability and transformation of vortical flows, offering insight into the dynamics of vortex instabilities and vortex-core modifications in fluid systems.<br>\r\n<br>\r\n<br>\r\n<strong>Biography</strong><br>\r\nThomas Leweke graduated from RWTH Aachen University in Germany in 1990 with a “Diplom” (Master) in Physics. He completed his PhD in 1994 at the Université de Provence in Marseille, on the experimental study and modelling of bluff-body wakes. After a post-doctoral stay at Cornell University on vortex instabilities, he joined the IRPHE institute in Marseille in 1996 as a CNRS Researcher and became a Senior Researcher in 2007. His research focusses on the experimental study of fundamental aspects of fluid mechanics, especially in vortex dynamics and fluid-structure interactions, with relevance to applications. He was the co-organiser of a conference series on Bluff-Boddy Wakes and Vortex-Induced Vibrations (BBVIV), and an associate editor for the Journal of Fluids and Structures and the Journal of Visualization", "image_description": "", "creation_date": "2026-03-10T14:46:55", "last_modification_date": "2026-03-26T08:56:55", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "MED 0 1418", "url_place_and_room": "https://plan.epfl.ch/?room==MED%200%201418", "url_online_room": "https://epfl.zoom.us/j/61360740951", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Prof. Thomas Leweke, IRPHE, CNRS, Marseille, France", "organizer": "MechE Colloquium", "contact": "Prof. Eunok Yim", "is_internal": "False", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "MechE Colloquium : phenomena in vortical flows", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/120036/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/8/?format=api", "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/232/?format=api", "https://memento.epfl.ch/api/v1/mementos/270/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 71360, "title": "MechE Colloquium: Toward a unified variational model of material failure", "slug": "meche-colloquium-toward-a-unified-variational-mode", "event_url": "https://memento.epfl.ch/event/meche-colloquium-toward-a-unified-variational-mode", "visual_url": "https://memento.epfl.ch/image/32710/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32710/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32710/max-size.jpg", "lang": "en", "start_date": "2026-05-19", "end_date": "2026-05-19", "start_time": "12:00:00", "end_time": "13:00:00", "description": "<strong>Abstract: </strong>The need to understand and predict material and structural failure has led to the development of several theoretical frameworks, including plasticity, limit analysis, damage mechanics, and cohesive fracture models. <br>\r\n<br>\r\nI first review how these rate-independent theories can be formulated as energy minimisation problems and discuss their main properties and limitations. I then introduce a regularised fracture model, akin to the phase-field regularisation used for softening plasticity, that we recently proposed in [1]. Unlike standard gradient damage or phase-field fracture models, in this approach damage affects the material strength rather than its stiffness.<br>\r\n<br>\r\nThrough analytical and numerical examples, I show how this model, within a consistent variational framework, provides a path toward reconciling several key concepts developed over the centuries, including Griffith and cohesive crack models, damage mechanics, plasticity, strength criteria, and limit analysis.<br>\r\n<br>\r\n[1] B. Bourdin, J.-J. Marigo, C. Maurini, C. Zolesi, <em>A variational approach to fracture incorporating any convex strength criterion</em>, arXiv:2506.22558. <a href=\"https://www.arxiv.org/pdf/2506.22558?utm_source=chatgpt.com\">arXiv PDF</a><br>\r\n<br>\r\n<strong>Biography: </strong>Corrado Maurini is Professor of Solid Mechanics at the d'Alembert Institute, Sorbonne Université, Paris. He received his Ph.D. in Mechanics in 2005 through a joint programme between the University of Rome La Sapienza and Paris 6. His research focuses on the theoretical and computational mechanics of nonlinear solids, with interests spanning fracture and damage, phase-field models, structural stability, rods, plates and shells, and active materials.", "image_description": "", "creation_date": "2026-03-12T14:17:01", "last_modification_date": "2026-03-12T15:43:58", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "MED 0 1418", "url_place_and_room": "https://plan.epfl.ch/?room==MED%200%201418", "url_online_room": "https://epfl.zoom.us/j/61360740951", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "<a href=\"http://www.lmm.jussieu.fr/~corrado/\">Prof. Corrado Maurini</a>, <a href=\"https://www.dalembert.upmc.fr/ijlrda/\">∂'Alembert Institute</a>, <a href=\"https://www.sorbonne-universite.fr/\">Sorbonne University Paris</a>", "organizer": "<a href=\"mailto:[email protected]\">Institute of Mechanical Engineering (IGM)</a>", "contact": "<a href=\"https://people.epfl.ch/pedro.reis?lang=en\">Prof. Pedro M. Reis</a>", "is_internal": "False", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "MechE Colloquium: Toward a unified variational model of material failure", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/120055/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/8/?format=api", "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/232/?format=api", "https://memento.epfl.ch/api/v1/mementos/270/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 70040, "title": "“The end of KRAS cancers?”", "slug": "the-end-of-kras-cancers", "event_url": "https://memento.epfl.ch/event/the-end-of-kras-cancers", "visual_url": "https://memento.epfl.ch/image/31503/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/31503/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/31503/max-size.jpg", "lang": "en", "start_date": "2026-05-07", "end_date": "2026-05-07", "start_time": "12:15:00", "end_time": "13:15:00", "description": "<strong>A Lola and John Grace Distinguished Lecture in Cancer Research</strong>\r\n<div class=\"elementor-element elementor-element-98cefd8 elementor-widget elementor-widget-heading\">\r\n<div class=\"elementor-widget-container\"><br>\r\nFrank McCormick, PhD, is a Professor at the UCSF Helen Diller Family Comprehensive Cancer Center and holds the David A. Wood Chair of Tumor Biology and Cancer Research. Prior to joining the UCSF faculty, Dr. McCormick pursued cancer-related work with several Bay Area biotechnology firms and held positions with Cetus Corporation (Director of Molecular Biology, 1981-1990; Vice President of Research, 1990-1991) and Chiron Corporation, where he was Vice President of Research. In 1992 he founded Onyx Pharmaceuticals, a company dedicated to developing new cancer therapies, and served as its Chief Scientific Officer until 1996. At Onyx Pharmaceuticals, he initiated drug discovery efforts that led to the approval of Sorafenib in 2005 for treatment of renal cell cancer, and for liver cancer in 2007, and the approval of ONYX-015 in 2006 in China for treatment of nasopharyngeal cancer. In addition, Dr. McCormick’s group led to the identification of the CDK4 kinase inhibitor, Palbociclib, approved for treating advanced breast cancer. Dr. McCormick's current research interests center on ways of targeting Ras proteins and their regulators, including the NF1 protein neurofibromin.<br>\r\n<br>\r\nDr. McCormick was Director of the Helen Diller Family Comprehensive Cancer Center from 1997 to 2014 and he served as President, 2012-2013, for the American Association for Cancer Research. Since 2013, Dr. McCormick has led the National Cancer Institute’s Ras Initiative at the Frederick National Laboratories for Cancer Research overseeing the national effort to develop therapies against Ras-driven cancers. Dr. McCormick was recently awarded (September 2025) the Inaugural Stephenson Global Prize Award in recognition of his research and discoveries that have transformed the field of RAS-driven cancers. <br>\r\n<br>\r\nDr. McCormick is the author of over 430 scientific publications and holds more than 20 issued patents and is a Fellow of the Royal Society and a member of the National Academy of Sciences.<br>\r\n </div>\r\n</div>\r\n\r\n<div class=\"elementor-element elementor-element-e552a16 elementor-widget elementor-widget-text-editor\">\r\n<div class=\"elementor-widget-container\"> </div>\r\n</div>", "image_description": "", "creation_date": "2025-10-07T11:05:07", "last_modification_date": "2026-01-06T12:15:21", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "SV 1717", "url_place_and_room": "https://plan.epfl.ch/?room==SV%201717", "url_online_room": "https://epfl.zoom.us/j/97039045251?pwd=WDFjUGV3Y1FxeG9rTUIrOGpiUXhLQT09", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "<strong><em>Frank McCormick, PhD, FRS, DSc (Hon), </em></strong>UCSF Helen Diller Family Comprehensive Cancer Center and David A. Wood Chair of Tumor Biology and Cancer Research", "organizer": "Prof. Doug Hanahan", "contact": "Lisa Smith, ISREC Administrative Assistant", "is_internal": "True", "theme": "", "vulgarization": { "id": 2, "fr_label": "Public averti", "en_label": "Informed public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "Grace Lecture, cancer", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/118018/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/26/?format=api" ] }, { "id": 70058, "title": "BMI Distinguished Seminar // Mitra Hartmann: Touching the world and the wind: sensorimotor control and flow sensing with whiskers", "slug": "bmi-distinguished-seminar-mitra-hartmann-touching", "event_url": "https://memento.epfl.ch/event/bmi-distinguished-seminar-mitra-hartmann-touching", "visual_url": "https://memento.epfl.ch/image/31521/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/31521/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/31521/max-size.jpg", "lang": "en", "start_date": "2026-05-06", "end_date": "2026-05-06", "start_time": "12:15:00", "end_time": "13:15:00", "description": "<p>In rodents, the whisker (vibrissal) system supports behaviors ranging from locomotor guidance and object exploration to social interactions and anemotaxis (flow sensing). This versatility makes whisker-dependent behavior a powerful lens on sensorimotor control. The first part of the talk describes use of the whisker system to study embodied sensing and closed-loop sensorimotor control. On the sensory side, I will present models of whisker mechanics and signal encoding by primary sensory neurons. On the motor side, I will describe models of whisker musculature and emerging insights into the circuits that generate whisker movements. I will then outline key challenges in linking sensing to movement within an integrated closed-loop framework. The second part of the talk will highlight how whiskers interact with moving air. Bending and vibration encode direction and speed, including regimes where vibrations emerge at subcritical Reynolds numbers through coupled structural nonlinearities and fluid-structure interactions.<br>\r\n<br>\r\n<br>\r\n </p>", "image_description": "", "creation_date": "2025-10-08T12:14:17", "last_modification_date": "2026-03-02T13:22:44", "link_label": "Web Page", "link_url": "https://www.mccormick.northwestern.edu/research-faculty/directory/profiles/hartmann-mitra.html", "canceled": "False", "cancel_reason": "", "place_and_room": "SV 1717", "url_place_and_room": "https://plan.epfl.ch/?room==SV%201717", "url_online_room": "https://epfl.zoom.us/j/64813563657", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Mitra Hartmann, Northwestern University, US", "organizer": "BMI Host: Pavan Ramdya", "contact": "[email protected]", "is_internal": "False", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/118047/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/19/?format=api", "https://memento.epfl.ch/api/v1/mementos/88/?format=api" ] }, { "id": 70782, "title": "“Mechanisms driving the rapid evolution of genomes”", "slug": "mechanisms-driving-the-rapid-evolution-of-genomes", "event_url": "https://memento.epfl.ch/event/mechanisms-driving-the-rapid-evolution-of-genomes", "visual_url": "https://memento.epfl.ch/image/32193/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32193/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32193/max-size.jpg", "lang": "en", "start_date": "2026-06-04", "end_date": "2026-06-04", "start_time": "12:15:00", "end_time": "13:15:00", "description": "<strong>A Lola and John Grace Distinguished Lecture in Cancer Research</strong>\r\n<div class=\"elementor-element elementor-element-98cefd8 elementor-widget elementor-widget-heading\">\r\n<div class=\"elementor-widget-container\">\r\n<div class=\"is-active tabs-panel\">\r\n<div class=\"bundle--tabs paragraph paragraph--type--tabs paragraph--view-mode--default\">\r\n<div class=\"row\">\r\n<div class=\"columns small-12\">\r\n<div class=\"body field__item\">David Pellman, M.D. is the Margaret M. Dyson Professor of Pediatric Oncology at the Dana-Farber Cancer Institute, a Professor of Cell Biology at Harvard Medical School, an Investigator of the Howard Hughes Medical Institute, and the Associate Director for Basic Science at the Dana-Farber/Harvard Cancer Center. He received his undergraduate and medical degrees from the University of Chicago. During medical school, he did research at the Rockefeller University. His postdoctoral fellowship was at the Whitehead Institute/Massachusetts Institute of Technology.<br>\r\n<br>\r\nThe Pellman Lab works on the mechanism of cell division and how certain cell division errors drive rapid genome evolution. His research has contributed to the understanding of cell division, the origin of cell division errors in cancer, how cell division errors drive genetic instability and the mechanisms driving rapid evolution of cancer genomes. Our contributions include (1) the co-discovery of formin-dependent actin nucleation and a mechanism for spindle positioning during asymmetric cell division, (2) discoveries establishing that whole genome duplication can drive tumorigenesis, alter cell physiology, and accelerate evolutionary adaptation, and (3) the discovery of a mechanism explaining chromothripsis, a mutational process that generates rapid karyotype evolution in cancer and congenital disease.</div>\r\n</div>\r\n</div>\r\n</div>\r\n</div>\r\n</div>\r\n</div>\r\n\r\n<div class=\"elementor-element elementor-element-e552a16 elementor-widget elementor-widget-text-editor\">\r\n<div class=\"elementor-widget-container\"> </div>\r\n</div>", "image_description": "", "creation_date": "2026-01-06T16:10:28", "last_modification_date": "2026-01-28T14:34:52", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "SV 1717", "url_place_and_room": "https://plan.epfl.ch/?room==SV%201717", "url_online_room": "https://epfl.zoom.us/j/97039045251?pwd=WDFjUGV3Y1FxeG9rTUIrOGpiUXhLQT09", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "David Pellman, M.D., Margaret M. Dyson Professor of Pediatric Oncology, Dana-Farber Cancer Institute, a Professor of Cell Biology at Harvard Medical School, an Investigator of the Howard Hughes Medical Institute, and the Associate Director for Basic Science at the Dana-Farber/Harvard Cancer Center. ", "organizer": "Prof. Pierre Gönczy", "contact": "Lisa Smith, ISREC Administrative Assistant", "is_internal": "True", "theme": "", "vulgarization": { "id": 2, "fr_label": "Public averti", "en_label": "Informed public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "Grace Lecture, cancer", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119190/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/1/?format=api", "https://memento.epfl.ch/api/v1/mementos/26/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api" ] }, { "id": 70833, "title": "EESS seminar talk on \"Biogeochemical Controls on Arsenic Methylation and Demethylation in Rice Paddy Soils\"", "slug": "eess-seminar-talk-on-biogeochemical-controls-on--2", "event_url": "https://memento.epfl.ch/event/eess-seminar-talk-on-biogeochemical-controls-on--2", "visual_url": "https://memento.epfl.ch/image/32237/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/32237/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/32237/max-size.jpg", "lang": "en", "start_date": "2026-04-28", "end_date": "2026-04-28", "start_time": "12:15:00", "end_time": "13:15:00", "description": "<strong>Abstract:</strong>\r\n<div class=\"page\">\r\n<div class=\"layoutArea\">\r\n<div class=\"column\">Arsenic methylation and demethylation reactions influence arsenic speciation and fate in rice paddy soils, and understanding the balance between methylation and demethylation is important for assessing risks of arsenic toxicity in rice. Rice paddy soils are rich in organic carbon, and the conventional understanding has been that organic carbon enhances microbial arsenic methylation by fueling microbial activity. This presentation will describe a series of recent investigations — spanning pure culture to greenhouse-scale experiments — that challenge this conceptual model. First, the presentation will describe the role of carbon catabolite repression (CCR) in regulating cellular uptake and subsequent enzymatic methylation of arsenite. A combination of biosensor, gene expression, and arsenic speciation analyses demonstrate that sugars lead to CCR and a decrease in arsenic methylation, while low molecular weight organic acids do not impact arsenite uptake. The presentation will then examine couplings between methanogenesis and arsenic demethylation, wherein a greater abundance of methylotrophic carbon substrates (methanol, methylamines) promote arsenic demethylation by methanogens and limit the accumulation of methylated arsenic compounds. A genome-resolved metatranscriptomic analysis of anaerobic soil slurry experiments resolved links between methylotrophic substrate utilization and arsenic demethylation, while greenhouse experiments showed that higher levels of methanogenesis in soils were associated with lower concentrations of methylated arsenic in rice grains. Taken together, these results provide a more nuanced understanding of how utilization of distinct carbon substrates impacts arsenic methylation-demethylation dynamics, and provides mechanistic insights into how paddy soil management practices influence arsenic speciation in rice.</div>\r\n</div>\r\n</div>\r\n<br>\r\n<br>\r\n<br>\r\n<strong>Biography:</strong>\r\n\r\n<div class=\"page\">\r\n<div class=\"layoutArea\">\r\n<div class=\"column\">Dr. Matthew Reid is an associate professor in the School of Civil and Environmental Engineering at Cornell University and directs the Biogeochemistry and Ecosystem Engineering Research Group. His research program focuses on biogeochemical element cycling in natural and nature-based systems with applications to water quality. Research in the Reid Group spans physical scales and integrates mechanistic and molecular-level investigation with field-scale observation to build quantitative models for contaminant dynamics in complex biogeochemical systems. Dr. Reid's research has been recognized with early career awards from NSF and DOE. Dr. Reid was a postdoctoral scientist in the Environmental Microbiology Laboratory at EPFL, and completed his Ph.D. in Civil and Environmental Engineering at Princeton University.</div>\r\n</div>\r\n</div>", "image_description": "", "creation_date": "2026-01-12T14:34:48", "last_modification_date": "2026-02-25T14:38:54", "link_label": "", "link_url": "", "canceled": "False", "cancel_reason": "", "place_and_room": "GC B1 10", "url_place_and_room": "https://plan.epfl.ch/?room==GC%20B1%2010", "url_online_room": "https://epfl.zoom.us/j/69011077410", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Prof. <a href=\"https://www.engineering.cornell.edu/people/matthew-charles-reid/\">Matthew Reid</a>, Cornell University ", "organizer": "EESS - IIE", "contact": "Prof. Rizlan Latmani, <a href=\"https://www.epfl.ch/labs/eml/\">EML</a>", "is_internal": "True", "theme": "", "vulgarization": { "id": 1, "fr_label": "Tout public", "en_label": "General public" }, "registration": { "id": 3, "fr_label": "Entrée libre", "en_label": "Free" }, "keywords": "Arsenic, Methylation, Demethylation, Rice paddy soil, Carbon catabolite repression, Methanogenesis", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/119269/", "category": { "id": 1, "code": "CONF", "fr_label": "Conférences - Séminaires", "en_label": "Conferences - Seminars", "activated": true }, "academic_calendar_category": null, "domains": [], "mementos": [ "https://memento.epfl.ch/api/v1/mementos/110/?format=api", "https://memento.epfl.ch/api/v1/mementos/4/?format=api", "https://memento.epfl.ch/api/v1/mementos/44/?format=api" ] } ] }
