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GET /api/v1/mementos/314/events/?format=api
{ "count": 6, "next": null, "previous": null, "results": [ { "id": 72074, "title": "IMX Talks - Interplay of Cooper Quartets, Finite Momentum Pairing, and Josephson Diode Effect in 1T Transition Metal Dichalcogenides", "slug": "imx-talks-interplay-of-cooper-quartets-finite-mo-2", "event_url": "https://memento.epfl.ch/event/imx-talks-interplay-of-cooper-quartets-finite-mo-2", "visual_url": "https://memento.epfl.ch/image/33366/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33366/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33366/max-size.jpg", "lang": "en", "start_date": "2026-06-15", "end_date": "2026-06-15", "start_time": "11:00:00", "end_time": "12:00:00", "description": "<p>Supercurrent diode effects have recently attracted much attention for their potential applications in superconducting logic circuits, rectification applications and also in the study of fundamental symmetries of the underlying superconducting order parameter. In this talk, I’ll introduce the idea of finite momentum Cooper pairing (FMCP) in systems with strong helical spin-momentum locking and how this can naturally give rise to non-reciprocity in superconducting critical currents namely the Josephson diode effect (JDE). I’ll describe our work establishing the presence of a large JDE due to FMCP in lateral Josephson junctions formed from centrosymmetric van der Waals type-II Dirac semimetals 1T-NiTe<sub>2</sub> and 1T-PtTe<sub>2</sub>. A theoretical analysis based on a Ginzburg-Landau type model suggests that the FMCP introduces a phase difference between the first (Cooper pair) and second (Cooper quartet) harmonic supercurrents, which manifests as the JDE. Measurements of the JDE as a function of the in-plane magnetic field and half-flux quantum oscillations in the JDE are in good agreement with the predictions, indicating the presence of large second harmonic supercurrents in the junction. Surface modifications are shown to strongly enhance the supercurrents in the junction, nearly by a factor of two, indicating the strong contribution of the topological surface states to the supercurrent transport. Overall, 1T systems provide an interesting platform for exploring the interplay of FMCP, JDE and topological superconductivity.<br>\r\n<br>\r\nBio: Dr. Pranava Keerthi Sivakumar completed his Bachelors and Masters in Chemistry with a minor in Physics from the Indian Institute of Science, Bengaluru, India in 2017. He then moved to Germany where he completed his Ph.D. at the Martin Luther University in Halle, graduating <em>summa cum laude</em>. During his Ph.D., he worked on studying the electrical transport properties of materials with non-collinear spin textures and unconventional superconductivity due to strong spin-orbit coupling. Most notably during his Ph.D., he uncovered the role of finite momentum pairing induced Josephson diode effect in topological materials with helical spin-momentum. He is currently a postdoctoral researcher at the NISE department in the Max Planck Institute of Microstructure Physics, focusing on the interplay of magnetization dynamics and supercurrent transport in superconductor-ferromagnet heterostructures.</p>", "image_description": "", "creation_date": "2026-06-09T08:05:28", "last_modification_date": "2026-06-09T08:05:47", "link_label": "Website", "link_url": "https://www.mpi-halle.mpg.de/NISE/members/152895", "canceled": "False", "cancel_reason": "", "place_and_room": "BM 3241", "url_place_and_room": "https://plan.epfl.ch/?room==BM%203241", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Dr. Pranava Keerthi Sivakumar, Department of Nano-systems from Ions, Spins and Electrons(NISE), Max Planck Institute of Microstructure Physics, Halle, Germany", "organizer": "Prof. Dirk Grundler", "contact": "Prof. Dirk Grundler", "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/121036/", "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/314/?format=api" ] }, { "id": 72052, "title": "IMX Talks - When Nature meets Nanotechnology: Development of novel materials using renewable resources", "slug": "imx-talks-when-nature-meets-nanotechnology-devel-2", "event_url": "https://memento.epfl.ch/event/imx-talks-when-nature-meets-nanotechnology-devel-2", "visual_url": "https://memento.epfl.ch/image/33345/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33345/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33345/max-size.jpg", "lang": "en", "start_date": "2026-06-15", "end_date": "2026-06-15", "start_time": "15:30:00", "end_time": "16:30:00", "description": "<p>The development of new materials from renewable resources represents a win-win for humanity, allowing us to create useful products while also addressing critical ecological and environmental challenges. Proteins are particularly promising building blocks for this purpose. From a material science perspective, they offer immense potential for developing novel structures, composites, and other advanced materials. In this talk, I will present our research on the use of proteins and marine biomass to create a wide range of new materials. I'll discuss our bottom-up technologies and demonstrate how we have applied them to develop materials for various applications, including the controlled green syntheses of various nanoparticles and metallic structures, Light-emitting devices, Photothermal materials, Smart Wound dressings, Antibacterial coatings, and more. I will also highlight the significant role that Jellyfish have played as a renewable resource in many of these applications and the unique collaboration of our group with the Israel Electric Corporation, aiming to collect Jellyfish which is clogging the cooling turbines of the electrical power stations.<br>\r\n<br>\r\nBio: Prof. Shachar Richter is a faculty member in the Department of Materials Science and Engineering at Tel Aviv University, Israel, and the head of the department. He earned his PhD in Materials Science and Chemical Physics from the Weizmann Institute of Science, Israel. After graduation, he completed a postdoctoral fellowship and was later appointed an independent staff member (MTS) at Bell Laboratories and Agere Systems in New Jersey, USA.<br>\r\nIn 2001, he joined the School of Chemistry at Tel Aviv University, and in 2013, he moved to the newly established Department of Materials Science and Engineering. He was a visiting professor at Monash University in Australia in 2017 and a distinguished visiting scientist at the Commonwealth Scientific and Industrial Research Organization (CSIRO). His diverse research area focuses in developing innovative materials from renewable resources, such as jellyfish-based composites for medical and cosmetic uses, as well as working in molecular and bioelectronics, bio-nanocomposites, and new patterning technologies.<br>\r\nProfessor Richter has held several public roles, including serving as department head, chair of the \"Advanced Materials\" Cathedra, leading the MSc program in Materials Science and Engineering at Tel Aviv University, acting as President of the Israel Vacuum Society (IVS), and chairing the chemistry committee of the Standards Institute of Israel. He also serves on the editorial boards of various journals. Some of his patents have been licensed and are in the process of being commercialized, and he has co-founded two startups.</p>", "image_description": "", "creation_date": "2026-06-08T08:59:06", "last_modification_date": "2026-06-08T08:59:29", "link_label": "Website", "link_url": "https://en-engineering.tau.ac.il/profile/srichter_73", "canceled": "False", "cancel_reason": "", "place_and_room": "MXF 312", "url_place_and_room": "https://plan.epfl.ch/?room==MXF%20312", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Prof. Shachar Richter, Department of Materials Science and Engineering, Tel Aviv University, Israel.", "organizer": "Prof. Tiffany Abitbol", "contact": "Prof. Tiffany Abitbol", "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/121002/", "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/314/?format=api" ] }, { "id": 71991, "title": "Friction-Induced Vibrations in Dry Contacts: A Matter of Dynamic Coupling Across Scales", "slug": "friction-induced-vibrations-in-dry-contacts-a-matt", "event_url": "https://memento.epfl.ch/event/friction-induced-vibrations-in-dry-contacts-a-matt", "visual_url": "https://memento.epfl.ch/image/33294/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33294/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33294/max-size.jpg", "lang": "en", "start_date": "2026-06-17", "end_date": "2026-06-17", "start_time": "11:00:00", "end_time": "12:00:00", "description": "<strong>Abstract: </strong>Whenever contact occurs, part of the mechanical energy is radiated as acoustic energy, inducing vibrations in the mechanical system with varying levels of intensity. The resulting dynamic response arises from a complex interaction across different spatial and temporal scales, leading to a wide range of frictional and vibrational behaviours.<br>\r\nStarting from a general overview of the characteristic time and length scales involved in the problem, different frictional scenarios will be discussed, with a particular focus on the onset of macroscopic stick-slip and to the interface dynamics governing the overall contact response.<br>\r\n<br>\r\n<strong>Bio: </strong>Francesco Massi is currently Full Professor at the Department of Mechanical and Aerospace Engineering of Sapienza University of Rome. Between 2007 and 2012, he held the position of Lecturer at LaMCoS, INSA Lyon. He has been Visiting Professor at the Tribology Research Institute of Southwest Jiaotong University, the Laboratoire de Neurosciences Cognitives at Aix-Marseille Université, and the LaMcube laboratory at Centrale Lille.<br>\r\nHe is a member of the Steering Committee of the Italian Association of Tribology and serves on the Editorial Boards of several international journals in the field of tribology. He has coordinated several research projects on both fundamental and applied topics. His research activities focus on tribology, dynamics, and biomechanics.", "image_description": "", "creation_date": "2026-06-01T10:57:19", "last_modification_date": "2026-06-02T09:08:41", "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": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "<a href=\"https://phd.uniroma1.it/web/FRANCESCO-MASSI_nC644_EN.aspx\">Prof. Francesco Massi</a> ( Department of Mechanical and Aerospace Engineering, <a href=\"https://www.uniroma1.it/en/pagina-strutturale/home\">Sapienza University of Rome</a>)", "organizer": "<a href=\"https://www.epfl.ch/labs/lsms/\">LSMS</a>", "contact": "<a href=\"http://[email protected]/\">Jean-François Molinari</a>, <a href=\"http://[email protected]/\">Jacopo Bilotto</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": "Dynamic friction, mechanical vibrations", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/120920/", "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/191/?format=api", "https://memento.epfl.ch/api/v1/mementos/232/?format=api", "https://memento.epfl.ch/api/v1/mementos/314/?format=api", "https://memento.epfl.ch/api/v1/mementos/435/?format=api" ] }, { "id": 72054, "title": "IMX Talks - The Geography of Biological Matter: From Cells to Sustainable Material Systems", "slug": "imx-talks-the-geography-of-biological-matter-fro-2", "event_url": "https://memento.epfl.ch/event/imx-talks-the-geography-of-biological-matter-fro-2", "visual_url": "https://memento.epfl.ch/image/33349/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33349/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33349/max-size.jpg", "lang": "en", "start_date": "2026-07-06", "end_date": "2026-07-06", "start_time": "11:00:00", "end_time": "12:00:00", "description": "<p>The availability, diversity, and function of biological matter are inherently shaped by geography. Climate, ecosystems, agriculture, and food systems determine not only which biomass resources emerge across regions, but also the biological architectures and material opportunities they embody. In this presentation, biological matter is explored as a materials platform spanning plant tissues, fungal networks, marine organisms, and biomass-derived colloidal systems, with emphasis placed on how the organization and composition of such natural precursors can guide their engineering into sustainable material systems.<br>\r\nThemes of (i) biofabrication, using microbial precursors to generate guided assemblies across scales, (ii) natural fiber and bio-colloidal systems, considering their isolation and assembly into functional materials, and (iii) ecosystem integration, considering opportunities to address climatic and other environmental challenges, will be covered. Regarding the latter, examples including arid soil restoration, marine infrastructure remediation, and hybrid living materials are presented as case studies toward deployable systems. For bio-colloidal systems, their inherent advantages and limitations relative to synthetic colloidal systems will also be discussed.<br>\r\nUltimately, introducing sustainability into the material sector extends beyond precursor selection alone, as ecosystem integration and supply-chain considerations become increasingly critical – particularly as the regionalization of biomass circularization gains importance. The seminar concludes with a brief perspective on technology transfer and innovation as extensions of scientific research toward broader societal impact.<br>\r\n<br>\r\nDr. Blaise Tardy joined Khalifa University in January 2022 as an Assistant Professor. After graduating from École Polytechnique Fédérale de Lausanne in 2009, he obtained his Ph.D. in Chemical and Biomolecular Engineering from The University of Melbourne in 2015 and was subsequently a research fellow at Aalto University from 2016 to 2022. His research bridges colloidal and interfacial sciences, bioengineering, and sustainable materials, with an emphasis on biological matter as a platform for engineering multiscale material systems. His work spans biofabrication, biomass-derived colloids, natural fibers, and sustainable materials obtained from biotechnology, agriculture, aquaculture, and food-system side streams, with applications linked to the growing circular bioeconomy. This interdisciplinary combination of expertise has led to highly recognized publications featured in international press releases and published in leading journals in materials and nanoscience. His broader objective is to connect fundamental science, innovation, and technology transfer toward deployable material systems with impact beyond the laboratory.<br>\r\n </p>", "image_description": "", "creation_date": "2026-06-08T11:19:15", "last_modification_date": "2026-06-08T11:44:06", "link_label": "Website", "link_url": "https://www.ku.ac.ae/college-people/blaise-tardy", "canceled": "False", "cancel_reason": "", "place_and_room": "MXF 312", "url_place_and_room": "https://plan.epfl.ch/?room==MXF%20312", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Prof. Blaise Tardy, Khalifa University, UAE", "organizer": "Prof. Tiffany Abitbol", "contact": "Prof. Tiffany Abitbol", "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/121007/", "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/314/?format=api" ] }, { "id": 72055, "title": "IMX Talks - General route to the design of 3D printable Pickering emulsions", "slug": "imx-talks-general-route-to-the-design-of-3d-prin-2", "event_url": "https://memento.epfl.ch/event/imx-talks-general-route-to-the-design-of-3d-prin-2", "visual_url": "https://memento.epfl.ch/image/33368/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33368/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33368/max-size.jpg", "lang": "en", "start_date": "2026-07-06", "end_date": "2026-07-06", "start_time": "13:00:00", "end_time": "14:00:00", "description": "<p>Pickering emulsions (PEs) have emerged as attractive platforms for the fabrication of porous and other novel functional materials. In this talk, I will first discuss strategies that can be exploited to drive particles to the interface. Thereafter, rules for the designing Pickering emulsions and their printability will be discussed. In particular, we will focus on hetero-aggregation-driven particle adsorption to fluid interfaces, which is crucial for to ensure stability of Pickering emulsions. By controlling particle interactions through parameters such as pH and particle concentration, the microstructure and rheological properties of PEs can be tailored to achieve excellent printability and shape retention during direct ink writing. Thereafter, printable PEs are used to fabricate three-dimensional architectures that are subsequently dried and sintered to obtain hierarchically porous ceramics. The resulting porous structures are characterized in terms of their microstructure, pore size, and porosity. As a demonstration, the porous ceramics are employed as supports for gold nanoparticles and evaluated in the catalytic reduction of 4-nitrophenol. The proposed approach provides a simple, scalable, and versatile framework for designing 3D-printable Pickering emulsions and developing functional porous materials for diverse applications.<br>\r\nKEYWORDS:<strong> </strong><em>3D Printing, Pickering Emulsions, Porous Materials, Catalyst Support </em><br>\r\nReferences:\r\n</p><ol>\r\n\t<li>Nithin Madhavan, Manas Mukherjee, Madivala G. Basavaraj. Porous Ceramics Prepared from 3D Printed Pickering Emulsions as Gold Nanoparticle Supports for Reduction Reactions. ACS Applied Nano Materials, 6, 22, 21201–21215 (2023).</li>\r\n\t<li>Nithin Madhavan, Manas Mukherjee, Madivala G. Basavaraj. Porous ceramics via processable Pickering emulsion stabilised by oppositely charged colloids. Langmuir, 36 (39), 11645−11654 (2020).</li>\r\n\t<li>Venkateshwar Rao Dugyala, Jyothi Sri Muthukuru , Ethayaraja Mani and Madivala G. Basavaraj. Role of electrostatic interactions in the adsorption kinetics of nanoparticles at fluid–fluid interfaces, Phys. Chem. Chem. Phys., 18, 5499-5508 (2016)</li>\r\n</ol>\r\nBio: Madivala G. Basavaraj is a professor in the Department of Chemical Engineering at the Indian Institute of Technology Madras. He received his Ph.D. from KU Leuven, Belgium. Following postdoctoral research at the University of Delaware, he joined IIT Madras in 2011. His research interests are in the area of experimental soft matter. His group focuses on the study of particle-laden interfaces, colloidal self-assembly, Pickering emulsions, spreading and wetting, interfacial catalysis, the development of porous materials, and the application of colloids and interface principles in food and agricultural technology.", "image_description": "", "creation_date": "2026-06-08T11:19:48", "last_modification_date": "2026-06-09T10:14:42", "link_label": "Website", "link_url": "https://csbm.iitm.ac.in/profbasa/", "canceled": "False", "cancel_reason": "", "place_and_room": "MXF 312", "url_place_and_room": "https://plan.epfl.ch/?room==MXF%20312", "url_online_room": "", "spoken_languages": [ "https://memento.epfl.ch/api/v1/spoken_languages/2/?format=api" ], "speaker": "Prof. Madivala G. Basavaraj, Centre of Excellence in Soft and Biological Matter (CSBM) IIT Madras, India ", "organizer": "Prof. Esther Amstad", "contact": "Prof. Esther Amstad", "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/121008/", "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/314/?format=api" ] }, { "id": 71995, "title": "BioEngineering Day 2026", "slug": "bioengineering-day-2026", "event_url": "https://memento.epfl.ch/event/bioengineering-day-2026", "visual_url": "https://memento.epfl.ch/image/33291/200x112.jpg", "visual_large_url": "https://memento.epfl.ch/image/33291/720x405.jpg", "visual_maxsize_url": "https://memento.epfl.ch/image/33291/max-size.jpg", "lang": "en", "start_date": "2026-08-31", "end_date": "2026-08-31", "start_time": "11:30:00", "end_time": "21:00:00", "description": "<p>Join us for the Annual BioEngineering Day, the flagship event of the EPFL Institute of BioEngineering.<br>\r\n<br>\r\nBioEngineering Day brings together researchers, students, alumni, and partners for a day of scientific exchange featuring keynote lectures, poster presentations, award finalist talks, and networking opportunities.<br>\r\n<br>\r\n<u><strong>Preliminary Program</strong></u><br>\r\n<br>\r\n11:30 – Registration<br>\r\n<br>\r\n12:00 – Lunch and Poster Session<br>\r\n<br>\r\n13:50 – Welcome and Introductory Remarks<br>\r\n<br>\r\n14:00 – <strong>Keynote Lecture: Smita Krishnaswamy, Yale University</strong><br>\r\nLearning Data-Driven Geometry and Dynamics for Lab-in-the-Loop AI Scientists<br>\r\n<br>\r\n15:00 –<strong> 2026 Jeffrey Hubbell and Melody Swartz Young Bioengineer Award: </strong>Presentations by the 4 Finalists<br>\r\n<br>\r\n16:00 – Coffee Break<br>\r\n<br>\r\n16:30 – <strong>Keynote Lecture:</strong> <strong>Bozhi Tian, The University of Chicago</strong><br>\r\nRethinking Bioelectronic Interfaces: Living, Simple, Sustainable<br>\r\n<br>\r\n17:30 – Award Ceremony<br>\r\n<br>\r\n18:30 – Networking, beer & wine, dinner buffet<br>\r\n<br>\r\nCome and discover the latest advances in bioengineering while connecting with the EPFL BioEngineering community!<br>\r\n<br>\r\n<strong>Registration</strong><br>\r\nEvent is free – registration required.<br>\r\nPlease <strong><a href=\"https://forms.gle/7vUnDa9S7C4nnDLW6\">REGISTER HERE</a> </strong>by 15 August 2026. <br>\r\n </p>", "image_description": "", "creation_date": "2026-06-01T15:05:22", "last_modification_date": "2026-06-04T11:42:12", "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": "Various speakers", "organizer": "EPFL Institute of BioEngineering", "contact": "<a href=\"https://people.epfl.ch/fiorella.ghisays\">Fiorella Ghisays</a>, Deputy, Institute of BioEngineering", "is_internal": "False", "theme": "", "vulgarization": { "id": 2, "fr_label": "Public averti", "en_label": "Informed public" }, "registration": { "id": 1, "fr_label": "Sur inscription", "en_label": "Registration required" }, "keywords": "", "file": null, "icalendar_url": "https://memento.epfl.ch/event/export/120926/", "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/5/?format=api", "https://memento.epfl.ch/api/v1/mementos/6/?format=api", "https://memento.epfl.ch/api/v1/mementos/8/?format=api", "https://memento.epfl.ch/api/v1/mementos/9/?format=api", "https://memento.epfl.ch/api/v1/mementos/14/?format=api", "https://memento.epfl.ch/api/v1/mementos/27/?format=api", "https://memento.epfl.ch/api/v1/mementos/111/?format=api", "https://memento.epfl.ch/api/v1/mementos/314/?format=api" ] } ] }
