An overview of biodegradable packaging in food industry

Shaikh, Salman Ahmed; Yaqoob, Mudasir; Aggarwal, Poonam

doi:10.1016/j.crfs.2021.07.005

Cited by 217 publications

(133 citation statements)

References 132 publications

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“…In the past decade, conventional rigid substrates have been replaced by flexible, light weight, stretchable biodegradable polymers [112], but most commercial PCBs still use FR4 (rigid) or PI (flexible). The primary limitations of current biodegradable polymers are: 1) lower glass transition temperature [113,114] of the polymers (see Table VI); 2) their lack of fire retardancy; and, 3) the incompatibility with existing PCB manufacturing processes. Therefore, while selecting a suitable substrate for a biodegradable PCB, it is also important to consider the ways to improve critical parameters such as mechanical stability, thermal stability, dissolution, and swelling rate, and ability to withstand harsh environments [115,116].…”

Section: A Substratesmentioning

confidence: 99%

Electronic Waste Reduction Through Devices and Printed Circuit Boards Designed for Circularity

Chakraborty

Kettle

Dahiya

2022

IEEE Flex. Electron.

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The development of Printed Circuit boards (PCBs) has so far followed a traditional linear economy value chain, leading to high volumes of waste production and loss of value at the end-of-life. Consequentially, the electronics industry requires a transition to more sustainable practices. This review article presents an overview of the potential solutions and new opportunities that may arise from the greater use of emerging sustainable materials and resource-efficient manufacturing. A brief contextual summary about how the international management of Waste PCBs (WPCBs) and legalization have evolved over the past 20 years is presented along with a review of the existing materials used in PCBs. The environmental and human health assessment of these materials relative to their usage with PCBs is also explained. This enables the identification of which eco-friendly materials and new technologies will be needed to improve the sustainability of the industry. Following this, a comprehensive analysis of existing WPCB processing is presented. Finally, a detailed review of potential solutions is provided, which has been partitioned by the use of emerging sustainable materials and resource-efficient manufacturing. It is hoped that this discussion will transform existing manufacturing facilities and inform policies, which currently focus on waste management towards waste reduction and zero waste.

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Section: A Substratesmentioning

confidence: 99%

Electronic Waste Reduction Through Devices and Printed Circuit Boards Designed for Circularity

Chakraborty

Kettle

Dahiya

2022

IEEE Flex. Electron.

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“…However, it has generated major environmental difficulties, notably for the ocean, which has become a home for discarded plastic packets (Lombardi et al 2021;Walker et al 2021). To solve this issue, biodegradable packaging was designed to replace the use of plastic packaging because it helps to reduce environmental impact and waste management costs (Shaikh et al 2021). Biodegradable packaging is also known as ecologically friendly packaging since it may be degraded into carbon dioxide, water, inorganic chemicals, and biomass by microbes, algae, fungus, as well as enzyme catalysts.…”

Section: Pva As An Alternative To Plastic Packagingmentioning

confidence: 99%

Plastic Waste in India: overview, impact, and measures to mitigate: Review

et al. 2022

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India is one of the world’s large and fastest-growing economies. With the expanding development, the usage of plastic for anthropogenic activities has expanded many folds and India alone generated around 3.3 million metric tonnes of plastic in the financial year 2019. 79 percent of the plastic generated worldwide enters our land, water, and environment as waste; part of it also enters our bodies through the food chain. The industry in India states that 60 percent of what is generated is recycled and we had assumed that we had solved the problem of plastic waste by recycling, or burying it in landfills. But we were incorrect. Plastic garbage is omnipresent today. It is filling up our oceans and harming marine life and affecting all organisms in the food chain. With the development of economic growth of the country per capita consumption of plastic will only increase in the coming years and we will end up generating more plastic waste The review paper aimed to examine the major impact of plastic waste in India and how to reduce plastic consumption, considering measures such as phasing out or banning multilayered plastics that cannot be recycled, contemplating renewable raw materials, promoting the use of bioplastics, incentivizing the recycling business, and making the rules and guidelines for Extended Producer Responsibility (EPR) simple and enforceable.

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“…In food packaging, corn-starch is used as thermoplastic starch and is commercially available under brand names such as EcoframTM (National starch), solanylTM (Rodenburg biopolymers), BiocoolTM (Novamont), BioplastTM (Biotec) and PlanticTM from Plantic Tecnhologies [69]. Table 2 summarizes the uses of starch-based edible films and its benefits in food packaging.…”

Section: Starches Used In Food Packagingmentioning

confidence: 99%

Bioactive Edible Films and Coatings Based in Gums and Starch: Phenolic Enrichment and Foods Application

et al. 2021

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Edible films and coatings allow preserving fresh and processed food, maintaining quality, preventing microbial contamination and/or oxidation reactions and increasing the shelf life of food products. The structural matrix of edible films and coatings is mainly constituted by proteins, lipids or polysaccharides. However, it is possible to increase the bioactive potential of these polymeric matrices by adding phenolic compounds obtained from plant extracts. Phenolic compounds are known to possess several biological properties such as antioxidant and antimicrobial properties. Incorporating phenolic compounds enriched plant extracts in edible films and coatings contribute to preventing food spoilage/deterioration and the extension of shelf life. This review is focused on edible films and coatings based on gums and starch. Special attention is given to bioactive edible films and coatings incorporating plant extracts enriched in phenolic compounds.

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An overview of biodegradable packaging in food industry

Cited by 217 publications

References 132 publications

Electronic Waste Reduction Through Devices and Printed Circuit Boards Designed for Circularity

Electronic Waste Reduction Through Devices and Printed Circuit Boards Designed for Circularity

Plastic Waste in India: overview, impact, and measures to mitigate: Review

Bioactive Edible Films and Coatings Based in Gums and Starch: Phenolic Enrichment and Foods Application

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