Preparation and characterisation of cellulose ZnO hybrid film by blending method and its glucose biosensor application

Mun, Seongcheonl; Maniruzzaman, Mohammed; Ko, Hyun‐U; Kafy, Abdullahil; Kim, J.

doi:10.1179/1753555714y.0000000197

Cited by 18 publications

(7 citation statements)

References 24 publications

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“…Mun et al [ 120 ] studied the feasibility of cellulose ZnO hybrid film for a conductometric glucose biosensor. The glucose biosensor was linearly sensitive to the glucose concentration up to 12 mM.…”

Section: Applicationsmentioning

confidence: 99%

Recent Progress on Cellulose-Based Electro-Active Paper, Its Hybrid Nanocomposites and Applications

Khan

Abas

Kim

et al. 2016

Sensors

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We report on the recent progress and development of research into cellulose-based electro-active paper for bending actuators, bioelectronics devices, and electromechanical transducers. The cellulose electro-active paper is characterized in terms of its biodegradability, chirality, ample chemically modifying capacity, light weight, actuation capability, and ability to form hybrid nanocomposites. The mechanical, electrical, and chemical characterizations of the cellulose-based electro-active paper and its hybrid composites such as blends or coatings with synthetic polymers, biopolymers, carbon nanotubes, chitosan, and metal oxides, are explained. In addition, the integration of cellulose electro-active paper is highlighted to form various functional devices including but not limited to bending actuators, flexible speaker, strain sensors, energy harvesting transducers, biosensors, chemical sensors and transistors for electronic applications. The frontiers in cellulose paper devices are reviewed together with the strategies and perspectives of cellulose electro-active paper and cellulose nanocomposite research and applications.

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Section: Applicationsmentioning

confidence: 99%

Recent Progress on Cellulose-Based Electro-Active Paper, Its Hybrid Nanocomposites and Applications

Khan

Abas

Kim

et al. 2016

Sensors

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“…Cellulose hybrids with titanium oxides have also been studied in food packaging, [ 69 ] nano sorbent systems, [ 70 ] biomedical applications [ 71 ] and sensors, [ 72 ] although to a lesser degree. A large number of cellulose hybrids with zinc oxide nanoparticles have been reported recently, [ 73 ] with applications ranged from antibacterial materials for food processing, [ 74 ] water purification systems, [ 75 ] UV‐absorbing materials, [ 76 ] sensors, [ 77 ] photocatalysis, [ 78 ] biomedical applications, [ 79 ] operational textiles [ 80 ] materials, sensors, [ 81 ] insulation [ 82 ] and flame retardant, [ 83 ] and drug delivery. [ 84 ] The applications of cellulose hybrids with silica oxide nanoparticles have been widely investigated in recent years.…”

Section: Polysaccharide‐based Hybrid Materials For Bio and Non‐bio Se...mentioning

confidence: 99%

Polysaccharides‐Based Nano‐Hybrid Biomaterial Platforms for Tissue Engineering, Drug Delivery, and Food Packaging Applications

et al. 2022

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Polysaccharides have received immense interest in recent years for outstanding properties, including biocompatibility, biodegradability, renewable origin, and ease of modification. Owing to their considerable bioactivities, natural abundance, immunoactivity, and chemical modifiability in a variety of applications, they are considered potential biomaterials for the biomedical, biotechnological, and industrial sectors of the modern world. Polysaccharide‐based novel nanocomposites from starch, chitin and chitosan, alginates, cellulose, dextran, and hyaluronic acid with unique functional and structural attributes have been the subject of extensive study to promote their usage in a variety of fields, including biomedicine, food industry, and nonbiological sectors. Furthermore, polysaccharide‐based metal and nonmetal oxides, graphene, and carbon nanotubes have been used with various combinations in diverse fields of research. This review spotlights the application prospects of polysaccharides‐based hybrid nano‐biomaterials in tissue engineering, drug delivery, and food packaging concerning the biological and chemical properties, cross‐linking membranes, and focuses on the relationship between their composition and properties.

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“…This was attributed to the composite surface morphology and the increased crystallinity of ZnO in the composite film, which led to increasing the current level, consequently increasing the enzyme activity in the biosensor. The ZnO/cellulose composite film was capable of monitoring glucose in the concentration range of 1-12 mM [144]. To assess the electrochemical properties, a cell was assembled consisting of a gold wire with a diameter of 0.3 as one electrode and the ZnO/cellulose composite layer as the reference electrode.…”

Section: Cellulose-bbased Electrochemical Sensorsmentioning

confidence: 99%

“…Aqueous solutions of glucose were prepared at different concentrations (1-20 mM) to be employed as an electrolyte. The current slope vs. potential (I-V) curve (∆I/∆V) was applied as an indicator for the enzyme reactivity [144].…”

Section: Cellulose-bbased Electrochemical Sensorsmentioning

confidence: 99%

Recent Advances in Cellulose-Based Biosensors for Medical Diagnosis

2020

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Cellulose has attracted much interest, particularly in medical applications such as advanced biosensing devices. Cellulose could provide biosensors with enhanced biocompatibility, biodegradability and non-toxicity, which could be useful for biosensors. Thus, they play a significant role in environmental monitoring, medical diagnostic tools, forensic science, and foodstuff processing safety applications. This review summarizes the recent developments in cellulose-based biosensors targeting the molecular design principles toward medical detection purposes. The recognition/detection mechanisms of cellulose-based biosensors demonstrate two major classes of measurable signal generation, including optical and electrochemical cellulosic biosensors. As a result of their simplicity, high sensitivity, and low cost, cellulose-based optical biosensors are particularly of great interest for including label-free and label-driven (fluorescent and colorimetric) biosensors. There have been numerous types of cellulose substrates employed in biosensors, including several cellulose derivatives, nano-cellulose, bacterial cellulose, paper, gauzes, and hydrogels. These kinds of cellulose-based biosensors were discussed according to their preparation procedures and detection principle. Cellulose and its derivatives with their distinctive chemical structure have demonstrated to be versatile materials, affording a high-quality platform for accomplishing the immobilization process of biologically active molecules into biosensors. Cellulose-based biosensors exhibit a variety of desirable characteristics, such as sensitivity, accuracy, convenience, quick response, and low-cost. For instance, cellulose paper-based biosensors are characterized as being low-cost and easy to operate, while nano-cellulose biosensors are characterized as having a good dispersion, high absorbance capacity, and large surface area. Cellulose and its derivatives have been promising materials in biosensors which could be employed to monitor various bio-molecules, such as urea, glucose, cell, amino acid, protein, lactate, hydroquinone, gene, and cholesterol. The future interest will focus on the design and construction of multifunctional, miniaturized, low-cost, environmentally friendly, and integrated biosensors. Thus, the production of cellulose-based biosensors is very important.

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Preparation and characterisation of cellulose ZnO hybrid film by blending method and its glucose biosensor application

Cited by 18 publications

References 24 publications

Recent Progress on Cellulose-Based Electro-Active Paper, Its Hybrid Nanocomposites and Applications

Recent Progress on Cellulose-Based Electro-Active Paper, Its Hybrid Nanocomposites and Applications

Polysaccharides‐Based Nano‐Hybrid Biomaterial Platforms for Tissue Engineering, Drug Delivery, and Food Packaging Applications

Recent Advances in Cellulose-Based Biosensors for Medical Diagnosis

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