AI Article Synopsis
- The study explored how starch can be fully converted using enzymes for useful applications in the food industry, leading to the creation of nano-sized particles.
- These nano-sized starch particles can be used for producing biodegradable and edible packaging, enhancing properties like moisture control and thermal stability.
- Additionally, the glucose syrup produced from starch hydrolysis serves as a sugar alternative in confectionery, showing similar qualities to commercially available glucose syrup from sucrose.
Article Abstract
This study demonstrated the feasibility of comprehensive enzymatic conversion of starch for non-waste applications in food industry. Enzymatic conversion of starch gives rise to nano-sized particles that can be used for manufacturing biodegradable and edible packaging materials and glucose syrup for replacing sugar in confectionery formulations. The 96 h enzymatic hydrolysis yielded starch nanoparticles smaller than 100 nm. Films based on nano-sized starch particles have promising physicochemical properties for manufacturing biodegradable and edible packaging materials. Such properties as reduced moisture content, increased homogeneity, crystallinity, and high initial thermal stability improve the mechanical and performance characteristics of the final food packaging materials. During film formation from starch subjected to preliminary mechanical amorphization, the polymer chain is recrystallized. The -type crystal structure of starch is converted to the -type structure. The supernatant obtained by starch hydrolysis can be used for producing glucose syrup. The resulting glucose syrup can be used as a sugar substitute in production of confectionery products. No objective technological differences in properties of glucose syrup obtained by comprehensive conversion of starch and the commercially available glucose syrup derived from sucrose were revealed.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9656788 | PMC |
| http://dx.doi.org/10.3390/polym14214575 | DOI Listing |
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