@inproceedings{4209, abstract = {In unserem interaktiven Beitrag mit reichlich Raum für Austausch und Diskussionen beleuchten wir die zentrale Frage, wie Hochschulen ein wichtiger Katalysator in offenen Innovationsökosystemen sein können.}, author = {Kampe, Tim and Rössler, Uwe}, booktitle = {OIC.Progress – Innovations-Konferenz und Summit zum Projektabschluss Open Innovation City, Bielefeld, 17.11.}, keywords = {Open Innovation, Transfer, Wissenschaftsdialog, Wissenschaftskommunikation, forschungsbasierte Kooperation, Entrepreneurship}, location = {Bielefeld}, title = {{Transfer als 3rd Mission – die Rolle der Hochschulen in der Open Innovation City}}, year = {2023}, } @inproceedings{2146, author = {Dellmann, Sarah and Drescher, Katharina and Hofmann, Andrea and Hulin, Sylvia and Jung, Jakob and Kobusch, Alexander and Kuhlmeier, Antje and Matuszkiewicz, Kai and Pfeifer, Mats and Schneider, Corinna and Slavcheva, Adriana and Steinecke, Mascha and Ziegler, Barbara}, keywords = {Zweitveröffentlichung, Open Access, Workflow, OAT 2022}, location = {Bern, Swirtzerland}, title = {{In wenigen Schritten zur Zweitveröffentlichung. Workflows für Publikationsservices}}, doi = {10.5281/zenodo.6974272}, year = {2022}, } @techreport{3010, author = {Kobusch, Alexander}, keywords = {Open Access, Zweitveröffentlichung, Workflow, Bibliothek, Formular}, title = {{Formular für ein Deckblatt für Zweitveröffentlichungen}}, doi = {10.5281/zenodo.7308326}, year = {2022}, } @techreport{2148, abstract = {Zielgruppe dieser Checkliste sind Lehrende, die offene Bildungsmaterialien (Open Educational Resources, kurz: OER) erstellen wollen. Der Zweck dieses Leitfadens ist, Ihnen als Lehrende eine Orientierung zu geben, welche rechtlichen Maßgaben Sie einhalten müssen und nach welchen Qualitätsmerkmalen Sie OER-Materialien entwickeln und beurteilen können.}, author = {Kobusch, Alexander and Halm, Linda}, keywords = {Open Educational Resources, Persönlichkeitsrecht, Urheberrecht, Handreichung, ORCA.nrw}, pages = {11}, publisher = {Fachhochschule Bielefeld}, title = {{Checkliste. Open Educational Resources erstellen (v1.0)}}, doi = {10.57720/2148}, year = {2021}, } @inproceedings{1016, author = {Schulz, Katharina and Ehrmann, Andrea}, keywords = {Open Access, Wissenschaftlicher Nachwuchs, Open-Access-Tage 2020, Workshop, Studierende}, location = {Bielefeld/online}, title = {{Open Access für den wissenschaftlichen Nachwuchs}}, doi = {10.5281/zenodo.4043493}, year = {2020}, } @inproceedings{751, author = {Schulz, Katharina and Krone, Nadja and Ilg, Karin}, keywords = {Open-Access-Services, openaccess.nrw, Landesinitiative NRW}, location = {Bielefeld, Germany}, title = {{openaccess.nrw – auf dem Weg zu einer landesweiten Servicestruktur für Open Access}}, doi = {10.5281/zenodo.4011890}, year = {2020}, } @article{645, abstract = {PbS (lead sulfide) colloidal quantum dots consist of crystallites with diameters in the nanometer range with organic molecules on their surfaces, partly with additional metal complexes as ligands. These surface molecules are responsible for solubility and prevent aggregation, but the interface between semiconductor quantum dots and ligands also influences the electronic structure. PbS quantum dots are especially interesting for optoelectronic applications and spectroscopic techniques, including photoluminescence, photodiodes and solar cells. Here we concentrate on the latter, giving an overview of the optical properties of solar cells prepared with PbS colloidal quantum dots, produced by different methods and combined with diverse other materials, to reach high efficiencies and fill factors.}, author = {Blachowicz, Tomasz and Ehrmann, Andrea}, issn = {2076-3417}, journal = {Applied Sciences}, keywords = {colloidal PbS quantum dots, quantum dot solar cells, semiconductor, heterojunction, ligand, open-circuit voltage, short-circuit current, power conversion efficiency, fill factor}, number = {5}, title = {{Recent Developments of Solar Cells from PbS Colloidal Quantum Dots}}, doi = {10.3390/app10051743}, volume = {10}, year = {2020}, }