Profitable exploitation of biodegradable polymer including chitosan blended potato peels’ starch waste as an alternative source of petroleum plastics

Humans are extensively using synthetic plastic products for multiple life purposes. Non-degradability of these products affected the nature and extremely harms the environment. Herein, biodegradable membranes with different ratios of chitosan/starch waste have been prepared. These membranes have bee...

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Veröffentlicht in:	Biomass conversion and biorefinery 2024, Vol.14 (1), p.207-215
Hauptverfasser:	Taha, Tarek H., Abu-Saied, M. A., Elnouby, Mohamed, Hashem, Mohamed, Alamri, Saad, Desouky, E. A. El, Morsy, Kareem
Format:	Artikel
Sprache:	eng
Schlagworte:	Biodegradation Biotechnology Chitosan Contact angle Energy Membranes Original Article Photomicrographs Raman spectra Renewable and Green Energy Surface roughness
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creator	Taha, Tarek H. Abu-Saied, M. A. Elnouby, Mohamed Hashem, Mohamed Alamri, Saad Desouky, E. A. El Morsy, Kareem
description	Humans are extensively using synthetic plastic products for multiple life purposes. Non-degradability of these products affected the nature and extremely harms the environment. Herein, biodegradable membranes with different ratios of chitosan/starch waste have been prepared. These membranes have been submitted for in vitro enzymatic biodegradation followed by examination by SEM, FTIR, Raman scattering spectral analyses, surface roughness measurement, degree of swelling, and contact angle. The obtained membranes showed biodegradability significant features which increased by increasing starch ratio and has been confirmed by the formation of holes that were demonstrated by SEM micrographs. Both of surface roughness and water uptake values of the prepared membranes have been increased in all prepared membranes after the enzymatic treatment to the maximum measured value of 0.87 µm and 200%, respectively. However, water contact angle values of the prepared membranes have been decreased after the enzymatic treatment to reach 25 θ as the lowest measured value. These results suggest the application of chitosan-blended starch membranes as alternatives for petroleum plastics with more environmental safety.
doi_str_mv	10.1007/s13399-021-02244-9
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subjects	Biodegradation Biotechnology Chitosan Contact angle Energy Membranes Original Article Photomicrographs Raman spectra Renewable and Green Energy Surface roughness
title	Profitable exploitation of biodegradable polymer including chitosan blended potato peels’ starch waste as an alternative source of petroleum plastics
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