953 43 13755 4 43349 document 13755 GOx Beads paper Bath DATABASE.zip application/zip 9a9d6939dcee1b65b1cb8fc098b91858 MD5 12754506 2020-12-30 10:39:44 https://researchdata.bath.ac.uk/953/1/GOx%20Beads%20paper%20Bath%20DATABASE.zip 953 1 1 application/zip other The document contains all raw data used for the publication of the paper "Multi-Enzyme Cellulose Films as Sustainable and Self-Degradable Hydrogen Peroxide Producing Material" en public cc_by

GOx Beads paper Bath DATABASE.zip

data archive 9055 disk0/00/00/09/53 2021-01-13 10:05:38 2024-07-04 14:49:12 2021-01-13 10:05:38 data_collection show Califano Davide D.Califano@bath.ac.uk 0000-0002-9416-2021 University of Bath TRUE BV0050 BV0070 BY0060 BY0070 BY0100 BY0120 CA0010 CA0040 GE0020 GS0010 GS0050 GV0040 GV0050 dept_chem Cellulose, Glucose oxidase, enzyme immobilization, antimicrobial material, biodegradable, beads, hydrogen peroxide, H2O2, antibiotic resistance This dataset contains data obtained by Enzyme activity measurements (Cellobiohydrolase and Cellobiose dehydrogenase), rheological analysis of cellulose films (uniaxial large deformation studies), H2O2 evolution in films (short term and long term), and adsorption kinetic studies of the enzymes into cellulose films. Moreover, the dataset includes a word document with the microphotographs and figures of the published paper. 2021-01-06 University of Bath public RightsHolder University of Bath University of Bath https://doi.org/10.13039/501100000835 GCRF - Bio-inspired, Smart, Stable Enzymatically Driven Antimicrobials, Designed not to Increase Antimicrobial Resistance (BioSSEA) The obtained data were obtained with different techniques: 1. Scanning electron microscopy 2. Rheometry analysis 3. Imaging analysis 4. Spectrophotometry 5. Growth inhibition (Kirby-Bauer Test) Technical details and requirements: Microsoft office and any image viewer. en 1 10.15125/BATH-00953 https://doi.org/10.1021/acs.biomac.0c01536 pub