{"id":5639,"global_id":"remade-project.eu?id=5639","global_id_lineage":["remade-project.eu?id=5639"],"author":"3","status":"publish","date":"2025-05-14 10:49:41","date_utc":"2025-05-14 08:49:41","modified":"2025-06-27 14:35:13","modified_utc":"2025-06-27 12:35:13","url":"https:\/\/remade-project.eu\/index.php\/event\/electrostatic-potential-of-latex-sphere-using-off-axis-electron-holography\/","rest_url":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/events\/5639","title":"Electrostatic potential of latex sphere using off-axis electron holography","description":"<div class=\"tribe-events-single-event-description tribe-events-content\">\n<h5 style=\"text-align: center;\"><a href=\"https:\/\/ill.zoom.us\/j\/93861953973?pwd=T05rWW5WcldNdWFaaWpwa2tUQ29ZUT09\" target=\"_blank\" rel=\"noopener\">Zoom webinar<\/a> | <a href=\"https:\/\/youtu.be\/XUG9DdAJTLA\">Replay on Youtube<\/a><\/h5>\n<p><strong>Yan Lu , <\/strong><\/p>\n<p><strong>FZJ, Germany<\/strong><\/p>\n<p>Electrostatic potential, including both that contributed by electron-beam-induced specimen charging and intrinsic material-related mean inner potential (MIP), is crucial because it is influence the reaction between charged particles, chemical reactivity, and dielectric properties. Off-axis electron holography is a powerful TEM technique that can be used to map local variations in electron optical phase shift, which are in turn sensitive to electrostatic potentials and magnetic fields. In the absence of magnetic contributions to the phase shift, the recorded phase is proportional to the projected electrostatic potential within and outside the specimen. Insulating nanoparticles with simple geometries are ideal objects for the study of specimen charging in the TEM. To demonstrate this technique and methodology for analyzing electrostatic potential, two examples will be presented.<\/p>\n<p>Polystyrene latex beads were examined temperature-dependent behavior of the MIP and electron-beam-induced charge from room temperature down to 5.3 K. The diameter of latex spheres is in the range of 230 nm to 600 nm. By isolating the electrostatic potential contributed by the electron-beam-induced charge which was detected in vacuum surrounding the sphere, the MIP was obtained at high precision, revealing a significant increase of 16.8%\u00b14.2% as temperature decreases.<\/p>\n<p>In addition, this talk will present the quantification of electron-beam-induced charge on MgO nanocubes reflecting the amount of oxygen vacancies on the surface, which is essential for catalytical reaction.<\/p>\n<\/div>","excerpt":"","slug":"electrostatic-potential-of-latex-sphere-using-off-axis-electron-holography","image":{"url":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu.jpg","id":5640,"extension":"jpg","width":1280,"height":720,"filesize":126007,"sizes":{"medium":{"width":300,"height":169,"mime-type":"image\/jpeg","filesize":10743,"url":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu-300x169.jpg"},"large":{"width":1024,"height":576,"mime-type":"image\/jpeg","filesize":61098,"url":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu-1024x576.jpg"},"thumbnail":{"width":150,"height":150,"mime-type":"image\/jpeg","filesize":5605,"url":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu-150x150.jpg"},"medium_large":{"width":768,"height":432,"mime-type":"image\/jpeg","filesize":40289,"url":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu-768x432.jpg"}}},"all_day":false,"start_date":"2025-06-27 10:00:00","start_date_details":{"year":"2025","month":"06","day":"27","hour":"10","minutes":"00","seconds":"00"},"end_date":"2025-06-27 11:00:00","end_date_details":{"year":"2025","month":"06","day":"27","hour":"11","minutes":"00","seconds":"00"},"utc_start_date":"2025-06-27 08:00:00","utc_start_date_details":{"year":"2025","month":"06","day":"27","hour":"08","minutes":"00","seconds":"00"},"utc_end_date":"2025-06-27 09:00:00","utc_end_date_details":{"year":"2025","month":"06","day":"27","hour":"09","minutes":"00","seconds":"00"},"timezone":"Europe\/Paris","timezone_abbr":"CEST","cost":"","cost_details":{"currency_symbol":"$","currency_code":"USD","currency_position":"prefix","values":[]},"website":"","show_map":false,"show_map_link":true,"hide_from_listings":false,"sticky":false,"featured":false,"categories":[{"name":"Seminar","slug":"seminar","term_group":0,"term_taxonomy_id":36,"taxonomy":"tribe_events_cat","description":"","parent":0,"count":46,"filter":"raw","id":36,"urls":{"self":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/categories\/36","collection":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/categories"}}],"tags":[{"name":"Organised by ReMade@ARI","slug":"organised-by-remadeari","term_group":0,"term_taxonomy_id":40,"taxonomy":"post_tag","description":"This event is organised by the consortium of partners working together within the framework of the ReMade@ARI project","parent":0,"count":45,"filter":"raw","id":40,"urls":{"self":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags\/40","collection":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags"}},{"name":"recyclable materials","slug":"recyclable-materials","term_group":0,"term_taxonomy_id":47,"taxonomy":"post_tag","description":"","parent":0,"count":12,"filter":"raw","id":47,"urls":{"self":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags\/47","collection":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags"}},{"name":"synchrotron science","slug":"synchrotron-science","term_group":0,"term_taxonomy_id":63,"taxonomy":"post_tag","description":"","parent":0,"count":11,"filter":"raw","id":63,"urls":{"self":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags\/63","collection":"https:\/\/remade-project.eu\/index.php\/wp-json\/tribe\/events\/v1\/tags"}}],"venue":[],"organizer":[],"custom_fields":[],"json_ld":{"@context":"http:\/\/schema.org","@type":"Event","name":"Electrostatic potential of latex sphere using off-axis electron holography","description":"&lt;p&gt;Zoom webinar | Replay on Youtube Yan Lu , FZJ, Germany Electrostatic potential, including both that contributed by electron-beam-induced specimen charging and intrinsic material-related mean inner potential (MIP), is crucial [&hellip;]&lt;\/p&gt;\\n","image":"https:\/\/remade-project.eu\/wp-content\/uploads\/2025\/05\/250627_ReMade@ARI-seminar_Lu.jpg","url":"https:\/\/remade-project.eu\/index.php\/event\/electrostatic-potential-of-latex-sphere-using-off-axis-electron-holography\/","eventAttendanceMode":"https:\/\/schema.org\/OfflineEventAttendanceMode","eventStatus":"https:\/\/schema.org\/EventScheduled","startDate":"2025-06-27T10:00:00+02:00","endDate":"2025-06-27T11:00:00+02:00","performer":"Organization"},"is_virtual":false,"virtual_url":null,"virtual_video_source":""}