@misc{dai_electrospinning_of_2011, author={Dai, T.,Miletic, N.,Loos, K.,Elbahri, M.,Abetz, V.}, title={Electrospinning of Poly[acrylonitrile-co-(glycidyl methacrylate)] Nanofibrous Mats for the Immobilization of Candida Antarctica Lipase B}, year={2011}, howpublished = {journal article}, doi = {https://doi.org/10.1002/macp.201000536}, abstract = {PANGMA nanofibers and nanomats with fiber diameters of 200–300 nanometers were fabricated by electrospinning. Cal-B was covalently immobilized onto the PANGMA nanomats via three different immobilization routes. The properties of the Cal-B-immobilized PANGMA nanomats were assayed and compared with the free Cal-B. The observed Cal-B loading on these nanomats is up to ≈50mg·g−1, and their hydrolytic activity is up to ≈2500 nmol·min−1·mg−1, much higher than free enzyme powder and also slightly higher than Novozyme 435. Cal-B immobilized PANGMA nanomats have better reusability, thermal stability, and storage ability than free Cal-B. They retain over 50% of their initial activity after 15 cycles, over 65% after 10h heat incubation, and over 75% after 30 d storage.}, note = {Online available at: \url{https://doi.org/10.1002/macp.201000536} (DOI). Dai, T.; Miletic, N.; Loos, K.; Elbahri, M.; Abetz, V.: Electrospinning of Poly[acrylonitrile-co-(glycidyl methacrylate)] Nanofibrous Mats for the Immobilization of Candida Antarctica Lipase B. Macromolecular Chemistry and Physics. 2011. vol. 212, no. 4, 319-327. DOI: 10.1002/macp.201000536}}