Outcomes revealed a significant enhancement in noise absorption for many addressed examples, specifically at 60 min. The procedure also improved surface roughness, environment permeability, porosity, and pore sizes, contributing to better sound consumption. This suggested treatment solution addresses ecological consciousness and improves the lasting use and usage of coconut wood.This study aimed to do a bibliometric evaluation of starch films with nanocellulose, utilizing the Scopus database and VOSviewer and Bibliometrix pc software. An overall total of 258 papers were identified between 2019 and 2023, showing an evergrowing desire for study, especially in journals such as the Global Journal of Biological Macromolecules, Polymers, and Carbohydrate Polymers. The most typical terms had been “starch” (349 occurrences), “cellulose” (207), and “tensile power” (175). Asia (58 articles), Brazil (38), and Asia (33) led clinical manufacturing, with authors like Ilyas (13 articles) and Sapuan (10) during the forefront. Approximately 41.7 % regarding the researches utilized corn starch. The analysis revealed that 66 % for the researches examined films with cellulose nanofibrils (CNF), 32 % with cellulose nanocrystals (CNC), and 2 per cent with microbial nanocellulose (CB). Nearly all studies (94.1 %) used the casting way for film manufacturing VVD-214 in vitro . Furthermore, 35.44 % focused on reinforcing films with nanocellulose, while 7 % developed blends along with other biopolymers. About 59.44 % analyzed the performance of starch films for meals packaging, 11.25 % explored lower respiratory infection useful applications in a variety of foods. Also, 7.94 % included active agents to enhance antioxidant and antimicrobial properties, 1.30 % examined active packaging. More over, 2.36 percent explored the usage of movies in products engineering, and 2.36 % investigated biomedical potential. Just 0.40 % assessed the effect of films on wastewater treatment. The evaluation shows the potential of starch films with nanocellulose, showing their diverse programs plus the developing desire for the field.Hibiscus plant displays considerable anti-oxidant activity and a top anthocyanin content, which suggesting possible health benefits. But, these compounds tend to be very susceptible to environmental aspects. The goal of this study was to establish the optimal problems when it comes to encapsulation of Hibiscus sabdariffa extract (HSE) making use of blended porous maize starch-gum Arabic to enhance the stability of bioactive substances under accelerated aging problems. Reaction surface methodology (RSM) was utilized to optimize microencapsulation circumstances through squirt drying. The optimal circumstances for microencapsulation of HSE by RSM were determined is 126 °C at the inlet temperature (IT) and 8.5 per cent in the total solid content (TSC). Using these circumstances, the total amount of bioactive substances in enhanced microcapsules (OMs) had been 2368 mg GAE/100 g, 694 mg QE/100 g, and 930 mg EC3G/100 g, of phenolic substances, flavonoids, and anthocyanin, correspondingly. The production price of anthocyanins during in vitro food digestion had been much more efficiently controlled when you look at the OM sample, which retained up to 40 per cent of anthocyanins compared with 10 % when you look at the HSE. The experimental values in this study display high assertiveness, which renders the optimization model technologically and financially medication overuse headache viable when it comes to encapsulation of bioactive substances with possible use in the meals and pharmaceutical industries.Monitoring of food freshness is known as one of the vital challenges both for customers/consumers in addition to food sectors. In this research, we developed a curcumin-based starch movie (F1) for pH-sensitive smart food packaging application. The starch was acquired from waste seeds of Artocarpus lakoocha (NS-MJF). The indigenous starch underwent various real and chemical improvements to yield altered starches (S1 [Autoclave heat treated], S2 [osmotic-pressure treated], S3 [citric acid treated]). The local starch ended up being used more when it comes to development of curcumin (2.5 percent w/w)-based film (F1). We had examined these starches for solubility, colour analysis, biodegradability, oil consumption capacity, and moisture content, etc. Scanning electron microscopy (SEM) and atomic power microscopy (AFM) revealed favorable microstructures. The inclusion of curcumin towards the starch enhanced the contact perspective and elongation at the break associated with resulting films. Antioxidant and antimicrobial assays, along with real time freshness track of chicken fillets, were additionally conducted. Thus, our findings may contribute to the optimization of pH-responsive biopolymer-based films for smart poultry packaging, promising advancements in food conservation and safety.Textiles with self-cleaning and anti-icing capabilities in cool climates are necessary for outside employees and enthusiasts. Superhydrophobic customization of textile surfaces is beneficial in imparting these faculties. Even though there are wide ranging methods designed for manufacturing superhydrophobic textiles, consideration is warranted for environmental issues over fluorochemicals, stability of superhydrophobic coatings, and textile breathability. In this work, we applied biomass resources such tung-oil and behenic acid, along with zeolitic imidazolate framework (ZIF-8), to modify cotton textiles, therefore creating an innovative behenic acid/tung oil/ZIF-8 altered cotton fiber (BTZC) textile with anti-icing and self-cleaning features. This material exhibits a unique nanoflower-shaped surface morphology, demonstrating exceptional superhydrophobicity with a static liquid contact angle (CA) of 162° and a sliding angle (SA) of 2°. More over, BTZC excels with its thermal security, breathability, and resistance to icing. Equally impressive is its powerful stability, as evidenced through thorough screening under continuous washing and scratching, sustained high and reasonable temperatures, extreme pH surroundings, and immersion in a variety of chemical solvents. BTZC presents as a fluorine-free, durable, economically viable alternative for outside textile applications, establishing significant development when you look at the usage of biomass and metal-organic framework products when you look at the textile industry and promising ramifications for price enhancement.Cracker is a favorite treat, and their high quality is dependent on the rheological properties associated with dough during manufacturing.