Recent Development and Environmental Applications of Nanocellulose-Based Membranes

Jaffar, Syafiqah Syazwani; Saallah, Suryani; Misson, Mailin; Siddiquee, Shafiquzzaman; Roslan, Jumardi; Saalah, Sariah; Lenggoro, Wuled

doi:10.3390/membranes12030287

Cited by 39 publications

(28 citation statements)

References 161 publications

(199 reference statements)

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“…Nanocellulose has sparked a lot of attention in the last several decades as a potential reinforcement for various polymeric materials in numerous advanced applications. Nanocellulose are available in a multitude of forms, sizes, surface chemistries, and characteristics, which can be isolated from a variety of sources, including woody/non-woody, tunicates, algae, and bacteria [165][166][167][168][169]. The resulting nanocellulose exhibits varying degrees of crystallinity, aspect ratios, and morphologies due to the differences in biosynthesis of these sources.…”

Section: Nanocellulose-based Nanocomposites Processingmentioning

confidence: 99%

Nanocellulose-Based Nanocomposites for Sustainable Applications: A Review

et al. 2022

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Nanocellulose has emerged in recent years as one of the most notable green materials available due to its numerous appealing factors, including its non-toxic nature, biodegradability, high aspect ratio, superior mechanical capabilities, remarkable optical properties, anisotropic shape, high mechanical strength, excellent biocompatibility and tailorable surface chemistry. It is proving to be a promising material in a range of applications pertinent to the material engineering to biomedical applications. In this review, recent advances in the preparation, modification, and emerging application of nanocellulose, especially cellulose nanocrystals (CNCs), are described and discussed based on the analysis of the latest investigations. This review presents an overview of general concepts in nanocellulose-based nanocomposites for sustainable applications. Beginning with a brief introduction of cellulose, nanocellulose sources, structural characteristics and the extraction process for those new to the area, we go on to more in-depth content. Following that, the research on techniques used to modify the surface properties of nanocellulose by functionalizing surface hydroxyl groups to impart desirable hydrophilic–hydrophobic balance, as well as their characteristics and functionalization strategies, were explained. The usage of nanocellulose in nanocomposites in versatile fields, as well as novel and foreseen markets of nanocellulose products, are also discussed. Finally, the difficulties, challenges and prospects of materials based on nanocellulose are then discussed in the last section for readers searching for future high-end eco-friendly functional materials.

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Section: Nanocellulose-based Nanocomposites Processingmentioning

confidence: 99%

Nanocellulose-Based Nanocomposites for Sustainable Applications: A Review

et al. 2022

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“…Additionally, functionalization using other molecules onto nanocellulose surfaces has been extensively described [ 72 , 77 , 78 , 80 , 81 ]. Another very relevant example of surface modification involves polymer-grafting methods onto the nanocellulose.…”

Section: Nanocellulose’s Unique Characteristics As a Chemical Sensormentioning

confidence: 99%

The Frontiers of Functionalized Nanocellulose-Based Composites and Their Application as Chemical Sensors

et al. 2022

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Chemical sensors are a rapidly developing technology that has received much attention in diverse industries such as military, medicine, environmental surveillance, automotive power and mobility, food manufacturing, infrastructure construction, product packaging and many more. The mass production of low-cost devices and components for use as chemical sensors is a major driving force for improvements in each of these industries. Recently, studies have found that using renewable and eco-friendly materials would be advantageous for both manufacturers and consumers. Thus, nanotechnology has led to the investigation of nanocellulose, an emerging and desirable bio-material for use as a chemical sensor. The inherent properties of nanocellulose, its high tensile strength, large specific surface area and good porous structure have many advantages in its use as a composite material for chemical sensors, intended to decrease response time by minimizing barriers to mass transport between an analyte and the immobilized indicator in the sensor. Besides which, the piezoelectric effect from aligned fibers in nanocellulose composites is beneficial for application in chemical sensors. Therefore, this review presents a discussion on recent progress and achievements made in the area of nanocellulose composites for chemical sensing applications. Important aspects regarding the preparation of nanocellulose composites using different functionalization with other compounds are also critically discussed in this review.

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“…Cellulose is a highly reactive biopolymer with a large amount of hydroxyl group in its structure [ 94 , 95 , 96 , 97 ], which can be chemically modified through various reactions such as esterification, etherification and oxidation to give cellulose new properties while ensuring its degradable properties [ 98 , 99 ]. As a packaging material, cellulose also has good biodegradability and excellent physical and mechanical properties, which makes it one of the most suitable natural polymers for use in films [ 98 , 100 ].…”

Section: Biodegradable Film Materialsmentioning

confidence: 99%

Progress in the Degradability of Biodegradable Film Materials for Packaging

Guo

2022

Membranes

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In today’s world, the problem of “white pollution” is becoming more and more serious, and many countries have paid special attention to this problem, and it has become one of the most important tasks to reduce polymer waste and to protect the environment. Due to the degradability, safety, economy and practicality of biodegradable packaging film materials, biodegradable packaging film materials have become a major trend in the packaging industry to replace traditional packaging film materials, provided that the packaging performance requirements are met. This paper reviews the degradation mechanisms and performance characteristics of biodegradable packaging film materials, such as photodegradation, hydrodegradation, thermo-oxidative degradation and biodegradation, focuses on the research progress of the modification of biodegradable packaging film materials, and summarizes some challenges and bottlenecks of current biodegradable packaging film materials.

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Recent Development and Environmental Applications of Nanocellulose-Based Membranes

Cited by 39 publications

References 161 publications

Nanocellulose-Based Nanocomposites for Sustainable Applications: A Review

Nanocellulose-Based Nanocomposites for Sustainable Applications: A Review

The Frontiers of Functionalized Nanocellulose-Based Composites and Their Application as Chemical Sensors

Progress in the Degradability of Biodegradable Film Materials for Packaging

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