Polytec Magazin Deutschland

{"topArticles":[],"articles":[{"authors":[{"fullName":"Melanie Colditz","fullOfficialName":" Melanie Colditz"},{"fullName":"Romy Kronstein-Wiedemann","fullOfficialName":" Romy Kronstein-Wiedemann"}],"description":"

Die auf akustischen Oberflächenwellen (SAW - Surface acoustic wave) basierende Akustofluidik kombiniert Mikrofluidik mit aktiven mikroakustischen Feldern. Damit lassen sich zahlreiche Lab-on-a-Chip-Funktionen realisieren, die von der Flüssigkeitsmanipulation einschließlich Mischen, Tröpfchen- und ...<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_410638478d.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_410638478d.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/blood-cell-sorting.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/blood-cell-sorting.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_40f8af8b07.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_40f8af8b07.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/manipulation-komplexer-fluide-anhand-saw-basierter-akustofluidik","origUid":6844,"readingTime":"3 min","subline":"Probenvorbereitung für die Biomedizin","tags":[{"title":"Akustik & Ultraschall","uid":78},{"title":"Biologie & Medizin","uid":80},{"title":"Mikro- & Nanotechnologie","uid":82},{"title":"Forschung & Entwicklung","uid":86}],"technologies":[{"title":"Vibrometrie","uid":232}],"title":"Manipulation komplexer Fluide anhand SAW-basierter Akustofluidik","uid":6844,"visits":421},{"authors":[{"fullName":"Robert Weser et al.","fullOfficialName":" Robert Weser et al."},{"fullName":"SAWLab Saxony","fullOfficialName":" SAWLab Saxony"}],"description":"

Akustofluidik ist die aktive Beeinflussung von Flüssigkeiten sowie von darin enthaltenen Partikeln oder Zellen im Mikro- und Nanobereich und ist eine Schlüsseltechnologie innerhalb der Biowissenschaften. Akustische Wellen, genauer gesagt, Ultraschallwellen mit hohen Frequenzen weit außerhalb des hörbaren Bereichs...<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_7c48b4dcc1.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_7c48b4dcc1.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_a5a8957241.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_a5a8957241.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_e02974d77b.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_e02974d77b.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_caf392babf.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_caf392babf.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_7c48b4dcc1.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/selektive-polarisationsumwandlung-von-akustischen-oberflaechenwellen","origUid":6723,"readingTime":"5 min","subline":"Selektive Polarisationsumwandlung von akustischen Oberflächenwellen","tags":[{"title":"Mikro- & Nanotechnologie","uid":82},{"title":"Akustik & Ultraschall","uid":78},{"title":"Forschung & Entwicklung","uid":86}],"technologies":[{"title":"Vibrometrie","uid":232}],"title":"Ein neuer Antriebsmechanismus für die Akustofluidik*","uid":6723,"visits":1314},{"authors":[{"fullName":"Jan Carstens","fullOfficialName":"Dipl.-Phys. Jan Carstens"}],"description":"

Die thermisch-stochastische Anregung einer Multi-Cantilever-MEMS-Struktur durch Brownsche Molekularbewegung wird mittels ultrahochauflösender optischer Vibrometrie untersucht. Dieser neuartige Ansatz ermöglicht technisch relevante Anwendungen wie die Kalibrierung von AFM-Spitzen.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_ea804d9097.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_ea804d9097.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_ec774a07d6.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_ec774a07d6.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_ea804d9097.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/charakterisierung-einer-thermisch-selbsterregten-multi-cantilever-mems-struktur-mittels-laser-doppler-vibrometrie","origUid":6995,"readingTime":"4 min","subline":"Exciting vibration","tags":[{"title":"Mikro- & Nanotechnologie","uid":82}],"technologies":[{"title":"Vibrometrie","uid":232}],"title":"Charakterisierung einer thermisch selbsterregten Multi-Cantilever-MEMS-Struktur mittels Laser-Doppler-Vibrometrie","uid":6995,"visits":2994},{"authors":[{"fullName":"Özgür Tan","fullOfficialName":"Dr. Özgür Tan"}],"description":"

Viele Aufgaben der Oberflächenmesstechnik, bei denen taktile Messverfahren in den letzten Jahren an ihre Grenzen kommen, werden bereits heute durch berührungslos arbeitende optische Messtechnik gelöst.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_c19daa5f98.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_c19daa5f98.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_dc6fa2e482.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_dc6fa2e482.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/precision-surfaces.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/precision-surfaces.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_50211e5069.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_50211e5069.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_c19daa5f98.jpg","alt":"precision surfaces","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/komplementaere-verfahren-der-optischen-oberflaechenmesstechnik","origUid":6327,"readingTime":"5 min","subline":"Fokus auf Präzisionsoberflächen","tags":[{"title":"Elektronik, Halbleiter, Solar","uid":87},{"title":"Maschinenbau & Feinwerktechnik","uid":84},{"title":"Mikro- & Nanotechnologie","uid":82}],"technologies":[{"title":"Oberflächenmesstechnik","uid":230}],"title":"Komplementäre Verfahren der optischen Oberflächenmesstechnik","uid":6327,"visits":1145},{"authors":[{"fullName":"Greenlay B. et al.","fullOfficialName":" Greenlay B. et al."}],"description":"

Forschungs- und Entwicklungsaktivitäten zur medizinischen Ultraschallbildgebung der nächsten Generation konzentrieren sich auf eine neue Wandlertechnologie, die große Arrays kleiner elektrostatisch aktivierter (kapazitiver) Membranwandler verwendet. Die präzise Funktion solcher Wandler kann ...<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_91addd3a98.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_91addd3a98.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_5ae0f8b4c1.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_5ae0f8b4c1.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/cmut-ultrasound.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/cmut-ultrasound.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_88de47a4fd.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_88de47a4fd.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_91addd3a98.jpg","alt":"cmut ultrasound","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/funktionspruefung-von-cmut-ultraschallwandlern","origUid":6322,"readingTime":"4 min","subline":"Diagnose im Handumdrehen","tags":[{"title":"Mikro- & Nanotechnologie","uid":82}],"technologies":[{"title":"Vibrometrie","uid":232}],"title":"Funktionsprüfung von CMUT Ultraschallwandlern","uid":6322,"visits":838},{"authors":[{"fullName":"Philipp Wollmann","fullOfficialName":"Dr. Philipp Wollmann"}],"description":"

Bisher war Hyperspectral Imaging etwas für militärische Aufklärung oder für Anwendungen in der satelliten- oder luftgestützten Fernerkundung.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_cd5588ec04.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_cd5588ec04.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_569f4c5a1e.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_569f4c5a1e.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/optical-systems\/image\/spektroskopie-hsi.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/optical-systems\/image\/spektroskopie-hsi.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_d679f52a0b.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_d679f52a0b.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/e\/4\/csm_spektroskopie-hsi_cd5588ec04.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/spektroskopie-in-neuen-dimensionen","origUid":6290,"readingTime":"4 min","subline":"Spektroskopie in neuen Dimensionen","tags":[{"title":"Forschung & Entwicklung","uid":86},{"title":"Mikro- & Nanotechnologie","uid":82}],"technologies":[{"title":"Optische Systeme","uid":228}],"title":"Hyperspectral Imaging in Labor und Prozessanwendungen","uid":6290,"visits":743},{"authors":[{"fullName":"S.P. Mao et al.","fullOfficialName":" S.P. Mao et al."},{"fullName":"Xavier Rottenberg et al.","fullOfficialName":"Dr. Xavier Rottenberg et al."}],"description":"

Wichtige Hilfsmittel in der bildgebenden Diagnostik sind Ultraschall-Verfahren, die auch als (diagnostische) Sonographie bezeichnet werden. Die Weiterentwicklung der Wandlertechnologie zur Erzeugung von Ultraschallwellen ist für die medizintechnische Forschung und Entwicklung ein wichtiges Thema.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/0\/csm_fem-ultrasound-transducers_b4f45914e1.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/0\/csm_fem-ultrasound-transducers_b4f45914e1.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/fem-ultrasound-transducers.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/fem-ultrasound-transducers.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/fem-ultrasound-transducers.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/fem-ultrasound-transducers.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/0\/csm_fem-ultrasound-transducers_eab18513ee.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/0\/csm_fem-ultrasound-transducers_eab18513ee.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/0\/csm_fem-ultrasound-transducers_b4f45914e1.jpg","alt":"ultrasound transducers","title":""}},"link":"https:\/\/magazine.polytec.com\/de\/fem-simulation-und-messtechnische-untersuchung-eines-ultraschallwandlers","origUid":6310,"readingTime":"6 min","subline":"Simulation vs. Messung","tags":[{"title":"Mikro- & Nanotechnologie","uid":82}],"technologies":[{"title":"Vibrometrie","uid":232}],"title":"FEM-Simulation und messtechnische Untersuchung eines Ultraschallwandlers","uid":6310,"visits":757},{"authors":[{"fullName":"Albert Weckenmann","fullOfficialName":"Prof. Dr.-Ing. Prof. h.c. mult. Dr.-Ing. E.h. Dr. h.c. mult. Albert Weckenmann"}],"description":"

Wir unterhielten uns mit Prof. Dr. Albert Weckenmann von der Universität Erlangen-Nürnberg über die Grenzen der taktilen Oberflächenmesstechnik und die Chancen berührungsloser Verfahren.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/2\/6\/csm_prof-dr-weckenmann_5877087837.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/2\/6\/csm_prof-dr-weckenmann_5877087837.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/prof-dr-weckenmann.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/prof-dr-weckenmann.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/prof-dr-weckenmann.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/prof-dr-weckenmann.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/2\/6\/csm_prof-dr-weckenmann_0bd8caf160.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/2\/6\/csm_prof-dr-weckenmann_0bd8caf160.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/2\/6\/csm_prof-dr-weckenmann_5877087837.jpg","alt":"Prof. 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