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        <identifier>oai:researchdata.tuwien.ac.at:apber-w6165</identifier>
        <datestamp>2025-08-27T11:39:57Z</datestamp>
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              <identifier identifierType="DOI">10.48436/apber-w6165</identifier>
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                  <creatorName nameType="Personal">Ehrmann, Katharina</creatorName>
                  <givenName>Katharina</givenName>
                  <familyName>Ehrmann</familyName>
                  <nameIdentifier nameIdentifierScheme="ORCID">0000-0002-0161-0527</nameIdentifier>
                  <affiliation affiliationIdentifier="https://ror.org/04d836q62" affiliationIdentifierScheme="ROR">TU Wien</affiliation>
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              <titles>
                <title>Data Management Plan for the FWF-project "Photoenzymatic Additive Manufacturing"</title>
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              <publisher>TU Wien</publisher>
              <publicationYear>2025</publicationYear>
              <subjects>
                <subject subjectScheme="FOS">Chemical sciences</subject>
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                <date dateType="Issued">2025-07-06</date>
                <date dateType="Updated">2025-08-27</date>
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                <description descriptionType="Abstract">Technical details

The included file (DMP_ELSA_1000Ideas-FWF_20250706_V1.0) is the approved version of the Data Management Plan for the Project "Photoenzymatic Additive Manufacturing" funded by the Austrian Science Fund (FWF). It will be maintained and updated if required throughout the project duration. Version management will be conducted via this platform (TU Wien Research Data), under the same DOI.

Project context

Enzymes are molecules in living organisms that accelerate chemical reactions by selectively binding with the reactants, allowing these reactions to occur very quickly and selectively at body temperature. Enzymes are not only naturally found in living organisms but are also widely used in chemistry, for example, in the production of medications. As catalysts, they participate in reactions to accelerate the production of medications without being consumed in the process. They convert specific chemical motifs in molecules or link two building blocks together. Enzymes are also frequently used as catalysts for the breakdown of molecules or materials, inducing bond cleavage. These reactions are now to be explored for the first time in a completely new environment: the 3D printer.</description>
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                  <funderName>FWF Austrian Science Fund</funderName>
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                  <awardNumber>TAI1267025</awardNumber>
                  <awardTitle>1000 Ideas</awardTitle>
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