전자빔 표면처리를 통한 Ti3C2Tx MXene의 유기물 흡착성능 향상

Yun Jae Hwang; Min Hyeok Lim; Changung Paeng; Hyung Wook Park; Jisoo Kim

doi:10.7736/jkspe.022.147

전자빔 표면처리를 통한 Ti₃C₂T_x MXene의 유기물 흡착성능 향상

Translated title of the contribution: Enhanced Adsorption Performance for Organic Materials by Electron Beam-Treated Ti₃C₂T_x MXene

Yun Jae Hwang, Min Hyeok Lim, Changung Paeng, Hyung Wook Park, Jisoo Kim

Research output: Contribution to journal › Article › peer-review

Abstract

MXene is one of the most fascinating 2D materials owing to its great electrical properties and unique performance. Among various application areas, the performance of organic material adsorption has been highlighted with the growing interest in the biocompatible applications of MXene. Although previous research revealed that the huge surface area of this 2D nanomaterial could lead to superior organic material adsorption performance, surface functional groups were usually controlled by changing the pH, and the MXene was generally produced by HF etchant. In this study, a surface modification method of Ti₃C₂T_x MXene film was proposed to enhance organic material adsorption by irradiating the pulsed plasma electron beam (EB). Methylene blue (MB)-dispersed DI water was prepared, and pristine MXene was prepared at pH 7. The MB concentration was only reduced by 20% by pristine MXene. However, EB-treated MXene adsorbed about 75% of the MB within 20 min and over 90% within 80 min when the MXene film was ground to powder form. The results showed that the increased surface area and formation of hydrophilic functional groups successfully modified MB adsorption following EB irradiation under optimal processing conditions.

Translated title of the contribution	Enhanced Adsorption Performance for Organic Materials by Electron Beam-Treated Ti₃C₂T_x MXene
Original language	Korean
Pages (from-to)	189-196
Number of pages	8
Journal	Journal of the Korean Society for Precision Engineering
Volume	40
Issue number	3
DOIs	https://doi.org/10.7736/jkspe.022.147
State	Published - Mar 2023

Keywords

2D nanomaterials
Electron beam
MXene
Organic materials adsorption
TiCT

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title = "전자빔 표면처리를 통한 Ti3C2Tx MXene의 유기물 흡착성능 향상",

abstract = "MXene is one of the most fascinating 2D materials owing to its great electrical properties and unique performance. Among various application areas, the performance of organic material adsorption has been highlighted with the growing interest in the biocompatible applications of MXene. Although previous research revealed that the huge surface area of this 2D nanomaterial could lead to superior organic material adsorption performance, surface functional groups were usually controlled by changing the pH, and the MXene was generally produced by HF etchant. In this study, a surface modification method of Ti3C2Tx MXene film was proposed to enhance organic material adsorption by irradiating the pulsed plasma electron beam (EB). Methylene blue (MB)-dispersed DI water was prepared, and pristine MXene was prepared at pH 7. The MB concentration was only reduced by 20% by pristine MXene. However, EB-treated MXene adsorbed about 75% of the MB within 20 min and over 90% within 80 min when the MXene film was ground to powder form. The results showed that the increased surface area and formation of hydrophilic functional groups successfully modified MB adsorption following EB irradiation under optimal processing conditions.",

keywords = "2D nanomaterials, Electron beam, MXene, Organic materials adsorption, TiCT",

author = "Hwang, {Yun Jae} and Lim, {Min Hyeok} and Changung Paeng and Park, {Hyung Wook} and Jisoo Kim",

note = "Publisher Copyright: Copyright {\textcopyright} The Korean Society for Precision Engineering.",

year = "2023",

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doi = "10.7736/jkspe.022.147",

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T1 - 전자빔 표면처리를 통한 Ti3C2Tx MXene의 유기물 흡착성능 향상

AU - Hwang, Yun Jae

AU - Lim, Min Hyeok

AU - Paeng, Changung

AU - Park, Hyung Wook

AU - Kim, Jisoo

PY - 2023/3

Y1 - 2023/3

N2 - MXene is one of the most fascinating 2D materials owing to its great electrical properties and unique performance. Among various application areas, the performance of organic material adsorption has been highlighted with the growing interest in the biocompatible applications of MXene. Although previous research revealed that the huge surface area of this 2D nanomaterial could lead to superior organic material adsorption performance, surface functional groups were usually controlled by changing the pH, and the MXene was generally produced by HF etchant. In this study, a surface modification method of Ti3C2Tx MXene film was proposed to enhance organic material adsorption by irradiating the pulsed plasma electron beam (EB). Methylene blue (MB)-dispersed DI water was prepared, and pristine MXene was prepared at pH 7. The MB concentration was only reduced by 20% by pristine MXene. However, EB-treated MXene adsorbed about 75% of the MB within 20 min and over 90% within 80 min when the MXene film was ground to powder form. The results showed that the increased surface area and formation of hydrophilic functional groups successfully modified MB adsorption following EB irradiation under optimal processing conditions.

AB - MXene is one of the most fascinating 2D materials owing to its great electrical properties and unique performance. Among various application areas, the performance of organic material adsorption has been highlighted with the growing interest in the biocompatible applications of MXene. Although previous research revealed that the huge surface area of this 2D nanomaterial could lead to superior organic material adsorption performance, surface functional groups were usually controlled by changing the pH, and the MXene was generally produced by HF etchant. In this study, a surface modification method of Ti3C2Tx MXene film was proposed to enhance organic material adsorption by irradiating the pulsed plasma electron beam (EB). Methylene blue (MB)-dispersed DI water was prepared, and pristine MXene was prepared at pH 7. The MB concentration was only reduced by 20% by pristine MXene. However, EB-treated MXene adsorbed about 75% of the MB within 20 min and over 90% within 80 min when the MXene film was ground to powder form. The results showed that the increased surface area and formation of hydrophilic functional groups successfully modified MB adsorption following EB irradiation under optimal processing conditions.

KW - 2D nanomaterials

KW - Electron beam

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KW - Organic materials adsorption

KW - TiCT

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전자빔 표면처리를 통한 Ti₃C₂T_x MXene의 유기물 흡착성능 향상

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