{"id":784,"date":"2020-04-22T17:39:12","date_gmt":"2020-04-22T15:39:12","guid":{"rendered":"https:\/\/nanociencia.imdea.org\/sographmem\/?page_id=784"},"modified":"2020-04-24T11:52:53","modified_gmt":"2020-04-24T09:52:53","slug":"namlab","status":"publish","type":"page","link":"https:\/\/nanociencia.imdea.org\/sographmem\/namlab\/","title":{"rendered":"NaMLab"},"content":{"rendered":"

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NaMLab GmbH<\/span><\/p>\n

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NaMLab GmbH<\/a>\u00a0is a research organization and associated institute of the Technical University Dresden. NaMLab provides industry oriented and basic research in material science forelectron devices. It concentrates on new and promising nano-electronic materials for tomorrow\u2019s semiconductor and energy conversion applications. This includes the integration of these new materials into future devices with nano-scale dimensions. NaMLab has an industry experienced staff. It combines basic research with methodologies that are proven in semiconductor industry. Working out a clear view of the target application and its specification is an integral part of NaMLab\u00b4s material research. Major expertise of NaMLab is in the field of electrical characterization, devices (especially for memory applications) and integration of new materials into semiconductor technology.<\/p>\n

Since 2009 NaMLab is continuously involved in the research in that field and partners with many international research organizations and major industry players. NaMLab concentrates expertise in the fields of material and device development with focus on dielectrics, physical and electrical characterization as well as modeling and simulation.<\/p>\n

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NaMLab Group<\/strong><\/p>\n

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NaMLab<\/a> will focus on two research and development topics within the project: the investigation of multiferroic properties of doped HfO2 on material at capacitor level and the development of voltage-controlled resistive and magnetic switching devices.<\/p>\n