[{"date_updated":"2026-06-08T08:33:01Z","publisher":"AIP Publishing","doi":"10.1063/5.0332728","intvolume":"       128","status":"public","citation":{"ieee":"M. Gaerner <i>et al.</i>, “Cubic magneto-optic Kerr effect in Co(111) thin films,” <i>Applied Physics Letters</i>, vol. 128, no. 22, 2026.","bibtex":"@article{Gaerner_Silber_Schäffer_Hamrle_Ehrmann_Wortmann_Kuschel_2026, title={Cubic magneto-optic Kerr effect in Co(111) thin films}, volume={128}, DOI={<a href=\"https://doi.org/10.1063/5.0332728\">10.1063/5.0332728</a>}, number={22221106}, journal={Applied Physics Letters}, publisher={AIP Publishing}, author={Gaerner, Maik and Silber, Robin and Schäffer, Malte and Hamrle, Jaroslav  and Ehrmann, Andrea and Wortmann, Martin and Kuschel, Timo}, year={2026} }","apa":"Gaerner, M., Silber, R., Schäffer, M., Hamrle, J., Ehrmann, A., Wortmann, M., &#38; Kuschel, T. (2026). Cubic magneto-optic Kerr effect in Co(111) thin films. <i>Applied Physics Letters</i>, <i>128</i>(22). <a href=\"https://doi.org/10.1063/5.0332728\">https://doi.org/10.1063/5.0332728</a>","alphadin":"<span style=\"font-variant:small-caps;\">Gaerner, Maik</span> ; <span style=\"font-variant:small-caps;\">Silber, Robin</span> ; <span style=\"font-variant:small-caps;\">Schäffer, Malte</span> ; <span style=\"font-variant:small-caps;\">Hamrle, Jaroslav </span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Andrea</span> ; <span style=\"font-variant:small-caps;\">Wortmann, Martin</span> ; <span style=\"font-variant:small-caps;\">Kuschel, Timo</span>: Cubic magneto-optic Kerr effect in Co(111) thin films. In: <i>Applied Physics Letters</i> Bd. 128, AIP Publishing (2026), Nr. 22","chicago":"Gaerner, Maik, Robin Silber, Malte Schäffer, Jaroslav  Hamrle, Andrea Ehrmann, Martin Wortmann, and Timo Kuschel. “Cubic Magneto-Optic Kerr Effect in Co(111) Thin Films.” <i>Applied Physics Letters</i> 128, no. 22 (2026). <a href=\"https://doi.org/10.1063/5.0332728\">https://doi.org/10.1063/5.0332728</a>.","short":"M. Gaerner, R. Silber, M. Schäffer, J. Hamrle, A. Ehrmann, M. Wortmann, T. Kuschel, Applied Physics Letters 128 (2026).","ama":"Gaerner M, Silber R, Schäffer M, et al. Cubic magneto-optic Kerr effect in Co(111) thin films. <i>Applied Physics Letters</i>. 2026;128(22). doi:<a href=\"https://doi.org/10.1063/5.0332728\">10.1063/5.0332728</a>","mla":"Gaerner, Maik, et al. “Cubic Magneto-Optic Kerr Effect in Co(111) Thin Films.” <i>Applied Physics Letters</i>, vol. 128, no. 22, 221106, AIP Publishing, 2026, doi:<a href=\"https://doi.org/10.1063/5.0332728\">10.1063/5.0332728</a>."},"author":[{"first_name":"Maik","last_name":"Gaerner","full_name":"Gaerner, Maik"},{"first_name":"Robin","full_name":"Silber, Robin","last_name":"Silber"},{"last_name":"Schäffer","full_name":"Schäffer, Malte","first_name":"Malte"},{"last_name":"Hamrle","full_name":"Hamrle, Jaroslav ","first_name":"Jaroslav "},{"id":"223776","orcid_put_code_url":"https://api.orcid.org/v2.0/0000-0003-0695-3905/work/216524852","first_name":"Andrea","full_name":"Ehrmann, Andrea","orcid":"0000-0003-0695-3905","last_name":"Ehrmann"},{"last_name":"Wortmann","full_name":"Wortmann, Martin","first_name":"Martin"},{"full_name":"Kuschel, Timo","last_name":"Kuschel","first_name":"Timo"}],"article_number":"221106","language":[{"iso":"eng"}],"_id":"6980","year":"2026","volume":128,"date_created":"2026-06-02T17:41:05Z","article_type":"original","title":"Cubic magneto-optic Kerr effect in Co(111) thin films","quality_controlled":"1","publication":"Applied Physics Letters","issue":"22","publication_status":"published","user_id":"220548","project":[{"name":"Institut für Technische Energie-Systeme","_id":"0ec202b7-cd76-11ed-89f4-a9e1a6dbdaa7"}],"type":"journal_article","publication_identifier":{"eissn":["1077-3118"],"issn":["0003-6951"]}},{"issue":"2","publication_status":"published","urn":"urn:nbn:de:hbz:bi10-69017","keyword":["photopolymerization","tunable micro-optical freeform elements","two-photon polymerization","multiphoton lithography","direct laser writing","diamond turning"],"tmp":{"short":"CC BY (4.0)","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","image":"/images/cc_by.png"},"has_accepted_license":"1","oa":"1","project":[{"_id":"0ec202b7-cd76-11ed-89f4-a9e1a6dbdaa7","name":"Institut für Technische Energie-Systeme"}],"article_type":"review","language":[{"iso":"eng"}],"_id":"6901","publisher":"MDPI AG","date_updated":"2026-05-12T05:18:08Z","citation":{"ieee":"T. Blachowicz, G. Ehrmann, J. Fiedler, R. Kaschuba, and A. Ehrmann, “Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges,” <i>Micro</i>, vol. 6, no. 2, 2026.","apa":"Blachowicz, T., Ehrmann, G., Fiedler, J., Kaschuba, R., &#38; Ehrmann, A. (2026). Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges. <i>Micro</i>, <i>6</i>(2). <a href=\"https://doi.org/10.3390/micro6020035\">https://doi.org/10.3390/micro6020035</a>","bibtex":"@article{Blachowicz_Ehrmann_Fiedler_Kaschuba_Ehrmann_2026, title={Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges}, volume={6}, DOI={<a href=\"https://doi.org/10.3390/micro6020035\">10.3390/micro6020035</a>}, number={235}, journal={Micro}, publisher={MDPI AG}, author={Blachowicz, Tomasz and Ehrmann, Guido and Fiedler, Johannes and Kaschuba, Reinhard and Ehrmann, Andrea}, year={2026} }","alphadin":"<span style=\"font-variant:small-caps;\">Blachowicz, Tomasz</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Guido</span> ; <span style=\"font-variant:small-caps;\">Fiedler, Johannes</span> ; <span style=\"font-variant:small-caps;\">Kaschuba, Reinhard</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Andrea</span>: Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges. In: <i>Micro</i> Bd. 6, MDPI AG (2026), Nr. 2","short":"T. Blachowicz, G. Ehrmann, J. Fiedler, R. Kaschuba, A. Ehrmann, Micro 6 (2026).","chicago":"Blachowicz, Tomasz, Guido Ehrmann, Johannes Fiedler, Reinhard Kaschuba, and Andrea Ehrmann. “Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges.” <i>Micro</i> 6, no. 2 (2026). <a href=\"https://doi.org/10.3390/micro6020035\">https://doi.org/10.3390/micro6020035</a>.","ama":"Blachowicz T, Ehrmann G, Fiedler J, Kaschuba R, Ehrmann A. Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges. <i>Micro</i>. 2026;6(2). doi:<a href=\"https://doi.org/10.3390/micro6020035\">10.3390/micro6020035</a>","mla":"Blachowicz, Tomasz, et al. “Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges.” <i>Micro</i>, vol. 6, no. 2, 35, MDPI AG, 2026, doi:<a href=\"https://doi.org/10.3390/micro6020035\">10.3390/micro6020035</a>."},"author":[{"last_name":"Blachowicz","full_name":"Blachowicz, Tomasz","first_name":"Tomasz"},{"last_name":"Ehrmann","full_name":"Ehrmann, Guido","first_name":"Guido"},{"last_name":"Fiedler","full_name":"Fiedler, Johannes","first_name":"Johannes"},{"full_name":"Kaschuba, Reinhard","last_name":"Kaschuba","first_name":"Reinhard"},{"orcid_put_code_url":"https://api.orcid.org/v2.0/0000-0003-0695-3905/work/214321986","id":"223776","first_name":"Andrea","last_name":"Ehrmann","full_name":"Ehrmann, Andrea","orcid":"0000-0003-0695-3905"}],"publication":"Micro","user_id":"220548","file":[{"date_updated":"2026-05-11T20:34:29Z","success":1,"date_created":"2026-05-11T20:34:29Z","creator":"aehrmann","file_size":6220358,"file_name":"_2026_Blachowicz_Micro6_35.pdf","content_type":"application/pdf","file_id":"6902","relation":"main_file","access_level":"open_access"}],"publication_identifier":{"eissn":["2673-8023"]},"type":"journal_article","volume":6,"file_date_updated":"2026-05-11T20:34:29Z","title":"Freeform Micro-Optical Elements—Recent Production Techniques, Opportunities and Challenges","date_created":"2026-05-11T20:35:02Z","quality_controlled":"1","article_number":"35","abstract":[{"text":"Freeform optics belong to the increasingly important elements in optical research and industry, which pose several challenges regarding design and highly precise manufacturing. First being used in cameras and for focusing, nowadays freeform optics are used in a broad range of applications, from lighting to LiDAR, from endoscopy to photovoltaics, and from astronomical instruments to quantum cryptography. Designing freeform optics can be based on different theories and methods. Fabrication is possible by mechanical methods, such as diamond turning or high-precision milling, often followed by different polishing techniques, as well as laser-based techniques, mainly applying different lithographic techniques. Here, we give an overview of recent design and optimization methods, production methods used during the last years, and applications of freeform optics, including the possibility to combine freeform optics with tunability for different applications. We describe the opportunities of new applications as well as common problems and give an outlook towards future directions of research and development.","lang":"eng"}],"year":"2026","intvolume":"         6","doi":"10.3390/micro6020035","status":"public"},{"citation":{"ieee":"T. Blachowicz, G. Ehrmann, E. Stepula, and A. Ehrmann, “Optical Biosensors—Principles of Operation and Applications,” <i>Micromachines</i>, vol. 17, no. 5, 2026.","alphadin":"<span style=\"font-variant:small-caps;\">Blachowicz, Tomasz</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Guido</span> ; <span style=\"font-variant:small-caps;\">Stepula, Elzbieta</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Andrea</span>: Optical Biosensors—Principles of Operation and Applications. In: <i>Micromachines</i> Bd. 17, MDPI AG (2026), Nr. 5","bibtex":"@article{Blachowicz_Ehrmann_Stepula_Ehrmann_2026, title={Optical Biosensors—Principles of Operation and Applications}, volume={17}, DOI={<a href=\"https://doi.org/10.3390/mi17050579\">10.3390/mi17050579</a>}, number={5579}, journal={Micromachines}, publisher={MDPI AG}, author={Blachowicz, Tomasz and Ehrmann, Guido and Stepula, Elzbieta and Ehrmann, Andrea}, year={2026} }","apa":"Blachowicz, T., Ehrmann, G., Stepula, E., &#38; Ehrmann, A. (2026). Optical Biosensors—Principles of Operation and Applications. <i>Micromachines</i>, <i>17</i>(5). <a href=\"https://doi.org/10.3390/mi17050579\">https://doi.org/10.3390/mi17050579</a>","short":"T. Blachowicz, G. Ehrmann, E. Stepula, A. Ehrmann, Micromachines 17 (2026).","chicago":"Blachowicz, Tomasz, Guido Ehrmann, Elzbieta Stepula, and Andrea Ehrmann. “Optical Biosensors—Principles of Operation and Applications.” <i>Micromachines</i> 17, no. 5 (2026). <a href=\"https://doi.org/10.3390/mi17050579\">https://doi.org/10.3390/mi17050579</a>.","mla":"Blachowicz, Tomasz, et al. “Optical Biosensors—Principles of Operation and Applications.” <i>Micromachines</i>, vol. 17, no. 5, 579, MDPI AG, 2026, doi:<a href=\"https://doi.org/10.3390/mi17050579\">10.3390/mi17050579</a>.","ama":"Blachowicz T, Ehrmann G, Stepula E, Ehrmann A. Optical Biosensors—Principles of Operation and Applications. <i>Micromachines</i>. 2026;17(5). doi:<a href=\"https://doi.org/10.3390/mi17050579\">10.3390/mi17050579</a>"},"author":[{"first_name":"Tomasz","full_name":"Blachowicz, Tomasz","last_name":"Blachowicz"},{"first_name":"Guido","full_name":"Ehrmann, Guido","last_name":"Ehrmann"},{"id":"256452","first_name":"Elzbieta","full_name":"Stepula, Elzbieta","last_name":"Stepula"},{"first_name":"Andrea","id":"223776","orcid_put_code_url":"https://api.orcid.org/v2.0/0000-0003-0695-3905/work/214151803","last_name":"Ehrmann","orcid":"0000-0003-0695-3905","full_name":"Ehrmann, Andrea"}],"date_updated":"2026-05-11T08:25:34Z","publisher":"MDPI AG","_id":"6896","language":[{"iso":"eng"}],"article_type":"review","tmp":{"short":"CC BY (4.0)","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","image":"/images/cc_by.png"},"oa":"1","has_accepted_license":"1","project":[{"name":"Institut für Technische Energie-Systeme","_id":"0ec202b7-cd76-11ed-89f4-a9e1a6dbdaa7"}],"urn":"urn:nbn:de:hbz:bi10-68961","keyword":["portable biosensors","point-of-care diagnosis","optical sensors","microfluidics"],"publication_status":"published","issue":"5","status":"public","doi":"10.3390/mi17050579","intvolume":"        17","year":"2026","abstract":[{"text":"Biosensors have a recognition element that detects a bioanalyte as well as a transducer that transfers the measured physicochemical properties into an electric signal, which is amplified, processed, and depicted on a user interface and usually stored in a data storage system. Such biosensors can be used in a broad range of applications, from personalized medicine to drug discovery, and from food safety to plant disease diagnosis. Portable biosensors are often based on microfluidic systems or micro-electromechanical systems (MEMS), measuring physical or chemical parameters. In spite of their importance for diverse applications, there are still several limits regarding the portability of biosensors, which is often necessary. Besides the required miniaturization of the components and the limited lifetime of some biological reagents, sample preparation and handling can be problematic. This review gives an overview of recent biosensor research, concentrating on optical measurements, and shows the possibilities and limits of the biosensors developed during the last few years.","lang":"eng"}],"article_number":"579","quality_controlled":"1","date_created":"2026-05-09T10:02:15Z","title":"Optical Biosensors—Principles of Operation and Applications","file_date_updated":"2026-05-09T10:01:23Z","volume":17,"file":[{"file_name":"_2026_Blachowicz_Micromachines17_579.pdf","file_size":4327416,"content_type":"application/pdf","date_updated":"2026-05-09T10:01:23Z","success":1,"creator":"aehrmann","date_created":"2026-05-09T10:01:23Z","access_level":"open_access","file_id":"6897","relation":"main_file"}],"type":"journal_article","publication_identifier":{"eissn":["2072-666X"]},"user_id":"220548","publication":"Micromachines"},{"title":"Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications","date_created":"2026-02-09T08:07:12Z","user_id":"263827","main_file_link":[{"open_access":"1"}],"type":"conference","oa":"1","project":[{"name":"Bielefelder Institut für Angewandte Materialforschung","_id":"f89a05bb-bcea-11ed-9442-ed382659bc06"}],"publication":"ANM 2024","publication_status":"published","conference":{"name":"ANM 2024"},"status":"public","place":"Basel Switzerland","citation":{"alphadin":"<span style=\"font-variant:small-caps;\">Brockhagen, Bennet</span> ; <span style=\"font-variant:small-caps;\">Hellert, Christian</span> ; <span style=\"font-variant:small-caps;\">Grothe, Timo</span> ; <span style=\"font-variant:small-caps;\">Güth, Uwe</span> ; <span style=\"font-variant:small-caps;\">Storck, Jan Lukas</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Andrea</span> ; <span style=\"font-variant:small-caps;\">Wortmann, Martin</span>: Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications. In: <i>ANM 2024</i>. Basel Switzerland : MDPI, 2025, S. 1","apa":"Brockhagen, B., Hellert, C., Grothe, T., Güth, U., Storck, J. L., Ehrmann, A., &#38; Wortmann, M. (2025). Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications. In <i>ANM 2024</i> (p. 1). Basel Switzerland: MDPI. <a href=\"https://doi.org/10.3390/materproc2025021001\">https://doi.org/10.3390/materproc2025021001</a>","bibtex":"@inproceedings{Brockhagen_Hellert_Grothe_Güth_Storck_Ehrmann_Wortmann_2025, place={Basel Switzerland}, title={Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications}, DOI={<a href=\"https://doi.org/10.3390/materproc2025021001\">10.3390/materproc2025021001</a>}, booktitle={ANM 2024}, publisher={MDPI}, author={Brockhagen, Bennet and Hellert, Christian and Grothe, Timo and Güth, Uwe and Storck, Jan Lukas and Ehrmann, Andrea and Wortmann, Martin}, year={2025}, pages={1} }","ieee":"B. Brockhagen <i>et al.</i>, “Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications,” in <i>ANM 2024</i>, 2025, p. 1.","mla":"Brockhagen, Bennet, et al. “Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications.” <i>ANM 2024</i>, MDPI, 2025, p. 1, doi:<a href=\"https://doi.org/10.3390/materproc2025021001\">10.3390/materproc2025021001</a>.","ama":"Brockhagen B, Hellert C, Grothe T, et al. Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications. In: <i>ANM 2024</i>. Basel Switzerland: MDPI; 2025:1. doi:<a href=\"https://doi.org/10.3390/materproc2025021001\">10.3390/materproc2025021001</a>","chicago":"Brockhagen, Bennet, Christian Hellert, Timo Grothe, Uwe Güth, Jan Lukas Storck, Andrea Ehrmann, and Martin Wortmann. “Freestanding Flexible Carbon Nanofiber Mats for Energy Storage Applications.” In <i>ANM 2024</i>, 1. Basel Switzerland: MDPI, 2025. <a href=\"https://doi.org/10.3390/materproc2025021001\">https://doi.org/10.3390/materproc2025021001</a>.","short":"B. Brockhagen, C. Hellert, T. Grothe, U. Güth, J.L. Storck, A. Ehrmann, M. Wortmann, in: ANM 2024, MDPI, Basel Switzerland, 2025, p. 1."},"author":[{"first_name":"Bennet","id":"237316","full_name":"Brockhagen, Bennet","last_name":"Brockhagen"},{"last_name":"Hellert","full_name":"Hellert, Christian","id":"221135","first_name":"Christian"},{"last_name":"Grothe","orcid":"0000-0002-9099-4277","full_name":"Grothe, Timo","first_name":"Timo","id":"221330"},{"first_name":"Uwe","last_name":"Güth","full_name":"Güth, Uwe"},{"full_name":"Storck, Jan Lukas","orcid":"0000-0002-6841-8791","last_name":"Storck","id":"221157","first_name":"Jan Lukas"},{"id":"223776","first_name":"Andrea","full_name":"Ehrmann, Andrea","orcid":"0000-0003-0695-3905","last_name":"Ehrmann"},{"full_name":"Wortmann, Martin","last_name":"Wortmann","first_name":"Martin"}],"publisher":"MDPI","page":"1","date_updated":"2026-03-17T15:29:32Z","doi":"10.3390/materproc2025021001","language":[{"iso":"eng"}],"year":"2025","_id":"6590"},{"publication_identifier":{"issn":["0367-598X"],"eissn":["2217-7426"]},"file":[{"relation":"main_file","file_id":"6504","access_level":"open_access","success":1,"date_updated":"2026-02-03T10:33:38Z","date_created":"2026-02-03T10:33:38Z","creator":"aehrmann","file_size":801189,"file_name":"_2025_Kola_HemInd_online-first.pdf","content_type":"application/pdf"}],"type":"journal_article","user_id":"263827","publication":"Hemijska industrija","quality_controlled":"1","date_created":"2026-02-03T10:36:38Z","file_date_updated":"2026-02-03T10:33:38Z","title":"3D biomaterials produced by near-field electrospinning and melt electrowriting","volume":"online first","year":"2025","status":"public","doi":"10.2298/HEMIND250111013K","page":"13","project":[{"name":"Institut für Technische Energie-Systeme","_id":"0ec202b7-cd76-11ed-89f4-a9e1a6dbdaa7"}],"tmp":{"short":"CC BY (4.0)","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","image":"/images/cc_by.png"},"has_accepted_license":"1","oa":"1","main_file_link":[{"open_access":"1"}],"keyword":["3D porous scaffolds","biomedicine","nanofibers","three-dimensional shapes","biomedicine"],"urn":"urn:nbn:de:hbz:bi10-65038","issue":"00","publication_status":"published","article_type":"review","_id":"6503","language":[{"iso":"eng"}],"citation":{"short":"I. Kola, J.S. Joshi, N. Mpofu, A. Ehrmann, Hemijska Industrija online first (2025) 13.","chicago":"Kola, Ilda, Jnanada Shrikant Joshi, Nonsikelelo Mpofu, and Andrea Ehrmann. “3D Biomaterials Produced by Near-Field Electrospinning and Melt Electrowriting.” <i>Hemijska Industrija</i> online first, no. 00 (2025): 13. <a href=\"https://doi.org/10.2298/HEMIND250111013K\">https://doi.org/10.2298/HEMIND250111013K</a>.","mla":"Kola, Ilda, et al. “3D Biomaterials Produced by Near-Field Electrospinning and Melt Electrowriting.” <i>Hemijska Industrija</i>, vol. online first, no. 00, National Library of Serbia, 2025, p. 13, doi:<a href=\"https://doi.org/10.2298/HEMIND250111013K\">10.2298/HEMIND250111013K</a>.","ama":"Kola I, Joshi JS, Mpofu N, Ehrmann A. 3D biomaterials produced by near-field electrospinning and melt electrowriting. <i>Hemijska industrija</i>. 2025;online first(00):13. doi:<a href=\"https://doi.org/10.2298/HEMIND250111013K\">10.2298/HEMIND250111013K</a>","ieee":"I. Kola, J. S. Joshi, N. Mpofu, and A. Ehrmann, “3D biomaterials produced by near-field electrospinning and melt electrowriting,” <i>Hemijska industrija</i>, vol. online first, no. 00, p. 13, 2025.","alphadin":"<span style=\"font-variant:small-caps;\">Kola, Ilda</span> ; <span style=\"font-variant:small-caps;\">Joshi, Jnanada Shrikant</span> ; <span style=\"font-variant:small-caps;\">Mpofu, Nonsikelelo</span> ; <span style=\"font-variant:small-caps;\">Ehrmann, Andrea</span>: 3D biomaterials produced by near-field electrospinning and melt electrowriting. 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