نبذة مختصرة : Producción Científica ; The poor management of citrus wastes as a result of their low compostability and value for animal feeding greatly hinders the disposal of this waste. Nowadays, the incorporation of vegetable biomass into a polymer matrix is widely considered as an emerging approach to reduce the environmental problem related to the accumulation and management of food wastes. However, the fibrillar morphology and chemical heterogeneity of biomass usually restrains the compatibility with polymer matrices. Despite that, starch composites containing up to 40 wt% of the neat/hydrolyzed orange peel with excellent mechanical, and moisture resistant features were successfully fabricated in this research. The compatibility between both components was improved by using a simple and scalable process based on the acid hydrolysis of the biomass. Indeed, it was demonstrated that the final properties of these biocomposites were tuned by modifying the acid conditions (type and concentration of acid). For example, composites treated with chlorohydric acid displayed superior Young’s modulus values (about 30% more) and slightly greater elongation than the composites composed by 40 wt% of neat orange peel. Moreover, the exposure of vegetable biomass to moderate acid conditions (0.1 and 1 M chlorohydric acid) resulted into the generation of highly-value products, such as organic acids or humic substances, able to form ester bonds with the starch matrix strengthening the water resistance and mechanical features of the composites. ; Ministerio de Ciencia e Innovación y Ministerio de Universidades (RTI2018 - 098749-B-I00, PID2021-127108OB-I00, TED2021-130965B-I00 y PDC2022-133391-I00) ; Junta de Castilla y León - EU-FEDER (CLU-2019-04 y VA202P20) ; Ministerio de Ciencia e Innovación - AEI- Proyecto BIOPAGRO (RTC2019-006989-5) ; Ministerio de Universidades de España - Next Generation EU-beca postdoctoral “Margarita Salas” (CONVREC-2022-63)
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