Roughness Study of Hydroxypropyl Cellulose Film Surface Loaded with Cinnamaldehyde/ Lauric Arginate by Atomic Force Microscopy

Ata Aditya Wardana; Laras Putri Wigati; Xi Rui Yan; Francis Ngwane Nkede; Jakia Sultana Jothi; Fumina Tanaka; Fumihiko Tanaka

doi:10.1051/e3sconf/202343200006

Roughness Study of Hydroxypropyl Cellulose Film Surface Loaded with Cinnamaldehyde/ Lauric Arginate by Atomic Force Microscopy

Ata Aditya Wardana, Laras Putri Wigati, Xi Rui Yan, Francis Ngwane Nkede, Jakia Sultana Jothi, Fumina Tanaka, Fumihiko Tanaka

生産環境科学

研究成果: ジャーナルへの寄稿 › 会議記事 › 査読

抄録

In this work, atomic force microscopy (AFM) technique was used to study the microstructure properties of hydroxypropylcellulose/ cinnamaldehyde (CDH) composite biofilm. The solution was emulsified by cationic surfactant, lauric arginate (LAE). Zetasizer analysis found that the addition of CDH-emulsified LAE increased the zeta potential of HPCbased solution from -1.31 to 10.47 (mV). Furthermore, the increasing trend was showed by the roughness of surface properties. AFM analysis revealed that the arithmetical mean deviation from the mean (Ra) and root mean square deviation from the mean (Rq) of HPC film surface enhanced by 1.7 nm and 3.63 nm respectively as addition of CDH-emulsified LAE. Any deformation in the surface properties of the biofilm might affect its barrier properties such as water resistance and light transmission.

本文言語	英語
論文番号	00006
ジャーナル	E3S Web of Conferences
巻	432
DOI	https://doi.org/10.1051/e3sconf/202343200006
出版ステータス	出版済み - 10月 5 2023
イベント	2nd International Conference on Bioenergy and Environmentally Sustainable Agriculture Technology, ICoN BEAT 2021 - Virtual 継続期間: 7月 28 2021 → 7月 29 2021

!!!All Science Journal Classification (ASJC) codes

環境科学一般
エネルギー一般
地球惑星科学一般

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10.1051/e3sconf/202343200006

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title = "Roughness Study of Hydroxypropyl Cellulose Film Surface Loaded with Cinnamaldehyde/ Lauric Arginate by Atomic Force Microscopy",

abstract = "In this work, atomic force microscopy (AFM) technique was used to study the microstructure properties of hydroxypropylcellulose/ cinnamaldehyde (CDH) composite biofilm. The solution was emulsified by cationic surfactant, lauric arginate (LAE). Zetasizer analysis found that the addition of CDH-emulsified LAE increased the zeta potential of HPCbased solution from -1.31 to 10.47 (mV). Furthermore, the increasing trend was showed by the roughness of surface properties. AFM analysis revealed that the arithmetical mean deviation from the mean (Ra) and root mean square deviation from the mean (Rq) of HPC film surface enhanced by 1.7 nm and 3.63 nm respectively as addition of CDH-emulsified LAE. Any deformation in the surface properties of the biofilm might affect its barrier properties such as water resistance and light transmission.",

author = "Wardana, {Ata Aditya} and Wigati, {Laras Putri} and Yan, {Xi Rui} and Nkede, {Francis Ngwane} and Jothi, {Jakia Sultana} and Fumina Tanaka and Fumihiko Tanaka",

note = "Publisher Copyright: {\textcopyright} The Authors, published by EDP Sciences.; 2nd International Conference on Bioenergy and Environmentally Sustainable Agriculture Technology, ICoN BEAT 2021 ; Conference date: 28-07-2021 Through 29-07-2021",

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T1 - Roughness Study of Hydroxypropyl Cellulose Film Surface Loaded with Cinnamaldehyde/ Lauric Arginate by Atomic Force Microscopy

AU - Wardana, Ata Aditya

AU - Wigati, Laras Putri

AU - Yan, Xi Rui

AU - Nkede, Francis Ngwane

AU - Jothi, Jakia Sultana

AU - Tanaka, Fumina

AU - Tanaka, Fumihiko

PY - 2023/10/5

Y1 - 2023/10/5

N2 - In this work, atomic force microscopy (AFM) technique was used to study the microstructure properties of hydroxypropylcellulose/ cinnamaldehyde (CDH) composite biofilm. The solution was emulsified by cationic surfactant, lauric arginate (LAE). Zetasizer analysis found that the addition of CDH-emulsified LAE increased the zeta potential of HPCbased solution from -1.31 to 10.47 (mV). Furthermore, the increasing trend was showed by the roughness of surface properties. AFM analysis revealed that the arithmetical mean deviation from the mean (Ra) and root mean square deviation from the mean (Rq) of HPC film surface enhanced by 1.7 nm and 3.63 nm respectively as addition of CDH-emulsified LAE. Any deformation in the surface properties of the biofilm might affect its barrier properties such as water resistance and light transmission.

AB - In this work, atomic force microscopy (AFM) technique was used to study the microstructure properties of hydroxypropylcellulose/ cinnamaldehyde (CDH) composite biofilm. The solution was emulsified by cationic surfactant, lauric arginate (LAE). Zetasizer analysis found that the addition of CDH-emulsified LAE increased the zeta potential of HPCbased solution from -1.31 to 10.47 (mV). Furthermore, the increasing trend was showed by the roughness of surface properties. AFM analysis revealed that the arithmetical mean deviation from the mean (Ra) and root mean square deviation from the mean (Rq) of HPC film surface enhanced by 1.7 nm and 3.63 nm respectively as addition of CDH-emulsified LAE. Any deformation in the surface properties of the biofilm might affect its barrier properties such as water resistance and light transmission.

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