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  4. Enzyme immobilization on stimuli-responsive hydrogels - Part B. Impact of carrier responsiveness on reactor performance
 
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Enzyme immobilization on stimuli-responsive hydrogels - Part B. Impact of carrier responsiveness on reactor performance

Citation Link: https://doi.org/10.15480/882.17371
Publikationstyp
Journal Article
Date Issued
2026-06-25
Sprache
English
Author(s)
Eckert, Kathrin Marina  
Thermische Verfahrenstechnik V-8  
Dittmer, Kayla Reata  
Technische Biokatalyse V-6  
Setiawan, Sherliana  
Technische Biokatalyse V-6  
Ohde, Daniel  orcid-logo
Technische Biokatalyse V-6  
Liese, Andreas  orcid-logo
Technische Biokatalyse V-6  
Smirnova, Irina  orcid-logo
Thermische Verfahrenstechnik V-8  
TORE-DOI
10.15480/882.17371
TORE-URI
https://hdl.handle.net/11420/63659
Journal
Industrial & engineering chemistry research  
Citation
Industrial & Engineering Chemistry Research (in Press): (2026)
Publisher DOI
10.1021/acs.iecr.6c00960
Publisher
American Chemical Society (ACS)
Stimuli-responsive gels, known as smart materials, undergo reversible changes through solvent uptake or expulsion. Building on prior material characterization (Paper A), this study evaluates their performance in a plug-flow reactor under changing temperature (25–40 °C) and pH (8–4) conditions using formate dehydrogenase for NADH regeneration from NAD+. Temperature changes caused transient increases in activity at elevated temperatures, followed by partial or pronounced loss after returning to mild conditions, indicating limited effects of gel responsiveness. In contrast, under pH changes, activity decreased under acidic conditions but fully recovered for responsive hydrogels, maintaining high residual activity (93.3 ± 26.3% for pH-responsive and 91.0 ± 9.8% for dual-responsive carriers), whereas non-responsive silica carriers showed irreversible loss, retaining only 27.6 ± 10.2% of the initial yield. This behavior is attributed to gel shrinkage, which restricts mass transport and reduces enzyme exposure to the surrounding environment. These results demonstrate the potential of responsive hydrogels as adaptive enzyme carriers for biocatalysis.
DDC Class
660.6: Biotechnology
572: Biochemistry
Funding(s)
SFB 1615 - SMARTe Reaktoren für die Verfahrenstechnik der Zukunft  
SFB 1615 - Teilprojekt A01: Stimuli-responsive Polymere für selbstregulierende Reaktoren: Von grundlegenden Phänomenen zum Reaktordesign  
SFB 1615 - Teilprojekt A04: Selbstregulierende optimierte Oberflächen für autonom betriebene Bioprozesse  
SFB 1615 - Teilprojekt C02: SMARTe kontinuierliche bioelektrochemische Prozesse  
Lizenz
https://creativecommons.org/licenses/by/4.0/
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