10.1021/acsomega.8b00366.s001 Musab M. Aldhahri Musab M. Aldhahri Yaaser Q. Almulaiky Yaaser Q. Almulaiky Reda M. El-Shishtawy Reda M. El-Shishtawy Waleed Al-Shawafi Waleed Al-Shawafi Ahmed Alngadh Ahmed Alngadh Rayan Maghrabi Rayan Maghrabi Facile Immobilization of Enzyme via Co-Electrospinning: A Simple Method for Enhancing Enzyme Reusability and Monitoring an Activity-Based Organic Semiconductor American Chemical Society 2018 co-electrospinning Monitoring characterization stability amylase pH Method tris reuse material monitoring utilization scaffold electrospun application method Co-Electrospinning Facile regard enzyme activity efficiency reusability Simple Herein Enhancing Enzyme Reusability Activity-Based Organic Semiconductor Immobilization α- 2018-06-13 11:33:34 Journal contribution https://acs.figshare.com/articles/journal_contribution/Facile_Immobilization_of_Enzyme_via_Co-Electrospinning_A_Simple_Method_for_Enhancing_Enzyme_Reusability_and_Monitoring_an_Activity-Based_Organic_Semiconductor/6508511 The stability, reusability, and monitoring of enzyme activity have been investigated to improve their efficiency for successful utilization in a broad range of industrial and medical applications. Herein, we present a simple method for fabricating an electrospun fiber/enzyme scaffold via co-electrospinning. The characterization of soluble and immobilized α-amylases with regard to pH, thermal stability, and reusability were studied. An organic light emitting material tris­(8-hydroxyquinoline)­aluminum was incorporated to monitor the enzyme activity for several reuses.