{"_id":"66488","publisher":"Deutsche Bunsen-Gesellschaft für physikalische Chemie e.V.","page":"81-84","user_id":"116779","conference":{"name":"Bunsen Conference 2026","start_date":"2026-03-30","location":"Dresden","end_date":"2026-04-01"},"status":"public","oa":"1","citation":{"mla":"Linnemann, Julia, and Christian Leppin. “The Catalyst That Stores Charge First.” Bunsen-Magazin, no. 4, Deutsche Bunsen-Gesellschaft für physikalische Chemie e.V., 2026, pp. 81–84, doi:10.26125/6G4P-8386.","ama":"Linnemann J, Leppin C. The catalyst that stores charge first. Bunsen-Magazin. 2026;(4):81-84. doi:10.26125/6G4P-8386","bibtex":"@article{Linnemann_Leppin_2026, title={The catalyst that stores charge first}, DOI={10.26125/6G4P-8386}, number={4}, journal={Bunsen-Magazin}, publisher={Deutsche Bunsen-Gesellschaft für physikalische Chemie e.V.}, author={Linnemann, Julia and Leppin, Christian}, year={2026}, pages={81–84} }","apa":"Linnemann, J., & Leppin, C. (2026). The catalyst that stores charge first. Bunsen-Magazin, 4, 81–84. https://doi.org/10.26125/6G4P-8386","ieee":"J. Linnemann and C. Leppin, “The catalyst that stores charge first,” Bunsen-Magazin, no. 4, pp. 81–84, 2026, doi: 10.26125/6G4P-8386.","short":"J. Linnemann, C. Leppin, Bunsen-Magazin (2026) 81–84.","chicago":"Linnemann, Julia, and Christian Leppin. “The Catalyst That Stores Charge First.” Bunsen-Magazin, no. 4 (2026): 81–84. https://doi.org/10.26125/6G4P-8386."},"popular_science":"1","language":[{"iso":"eng"}],"main_file_link":[{"open_access":"1","url":"https://bunsen.de/bmo/the-catalyst-that-stores-charge-first"}],"doi":"10.26125/6G4P-8386","author":[{"id":"116779","first_name":"Julia","orcid":"0000-0001-6883-5424","last_name":"Linnemann","full_name":"Linnemann, Julia"},{"first_name":"Christian","last_name":"Leppin","full_name":"Leppin, Christian","id":"117722"}],"title":"The catalyst that stores charge first","year":"2026","article_type":"review","date_updated":"2026-07-14T15:02:05Z","date_created":"2026-07-14T14:59:31Z","department":[{"_id":"985"}],"keyword":["electrocatalysis","oxygen evolution reaction","cobalt spinel","operando characterization","spectroelectrochemistry"],"type":"journal_article","publication":"Bunsen-Magazin","issue":"4","abstract":[{"text":"Alkaline oxygen evolution on Co3O4 involves more than adsorption and electron transfer at a fixed surface. The article draws on operando electrochemical quartz crystal microbalance with dissipation monitoring (EQCM-D), surface X-ray diffraction (SXRD), Raman, UV/Vis and impedance spectroscopy. On this basis, it discusses pseudocapacitive oxidation of cobalt ion sites, electrolyte uptake and near-surface transformation, and asks which of these changes are kinetically coupled to electrocatalysis.","lang":"eng"}]}