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셀룰로오스 기반 신선도 센서 개발 (II) - 다층 구조 신선도 센서 제조 및 색상 발현 평가 -Development of a Cellulose-Based Freshness Sensor (II) - Manufacture of Multilayer Freshness Sensor Using Cellulose-based Materials and Evaluation of Its Color Expression -

Other Titles
Development of a Cellulose-Based Freshness Sensor (II) - Manufacture of Multilayer Freshness Sensor Using Cellulose-based Materials and Evaluation of Its Color Expression -
Authors
이연희조해민김도훈이수현이지영
Issue Date
2021
Publisher
한국펄프·종이공학회
Keywords
Intelligent packaging; freshness sensor; cellulose nanofiber; filter paper; pH sensitive dye; biowax
Citation
펄프종이기술, v.53, no.5, pp 82 - 89
Pages
8
Indexed
SCOPUS
KCI
Journal Title
펄프종이기술
Volume
53
Number
5
Start Page
82
End Page
89
URI
https://scholarworks.gnu.ac.kr/handle/sw.gnu/4919
DOI
10.7584/JKTAPPI.2021.10.53.5.82
ISSN
0253-3200
Abstract
Lately, the increase in consumers’ demand for food packaging safety standards to be fol- lowed has spurred a general interest in intelligent packaging technology that can monitor the status of the products in the packaging system. Commercialized sensors can indicate the freshness of food by expressing the colors based on the concentration levels of carbon dioxide (CO2) in the food item. However, most of the freshness sensors are manufactured from synthetic polymer materials; therefore, it is necessary to develop an eco-friendly freshness sensor that uses biodegradable and recyclable cellulose-based materials. In this study, a multilayer freshness sensor was manufactured using cellulose-based ma- terials such as commercial filter papers and cellulose nanofibers (CNFs) prepared in a labo- ratory. The filter paper with small pore size and large number of pores (No. 3) was selected by observing the color change of the immersed filter paper in a pH-sensitive dye, and used as a matrix expressing the specific color according to the CO2 concentration. The top layer was prepared using enzyme-pretreated CNF (EN-CNF) to make a transparent film, and the middle and bottom layers were prepared using the biowax-coated filter papers with the lowest air permeability due to the largest pore size (No. 4). Finally, a eco-friendly freshness sensor was assembled using the matrix, CNF film, and biowax-coated filter papers, whose color expressions clearly differed based on their CO2 concentration levels.
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농업생명과학대학 > Department of Environmental Materials Science > Journal Articles

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농업생명과학대학 (환경재료과학과)
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