Efficient drop reactor processing of methylene blue degradation with silver nanowire catalysts

Dwayne Chung Kim Chung; Eric Shen Lin; Linghui Peng; Xuchuan Jiang; Jian Wern Ong; Hassan Ali Abid; Zhixiong Song; Oi Wah Liew; Tuck Wah Ng

doi:10.1016/j.colsurfa.2020.125749

Efficient drop reactor processing of methylene blue degradation with silver nanowire catalysts

Dwayne Chung Kim Chung, Eric Shen Lin, Linghui Peng, Xuchuan Jiang, Jian Wern Ong, Hassan Ali Abid, Zhixiong Song, Oi Wah Liew, Tuck Wah Ng^*

^*Corresponding author for this work

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

5 Scopus citations

Abstract

A drop-based approach to facilitate the remediation of methylene blue (MB) solution via catalytic degradation with silver nanowires on a superhydrophobic substrate with a 2 mm hole without fouling is presented here. Studies on the dynamical response of drop removal via pressure rate perturbation, showed greater elapsed times at the 7.61 μL/s air flowrate with 25 μL and 30 μL volume drops than at higher air flowrates used. These results are accounted for by the rate of air flow through the plastron, used to equilibrate the lowering of pressure in the transparent receptacle that tends to prevent drop dislodgement, being only able to operate up to a specific upper limit. A method that calculates the absorbance values based on the intensity spectrum of the nanowire solution as reference was found to reveal the time progress degradation of MB solution by spectrometry. It showed that a 25 μL drop of the MB solution could be degraded within 15 s using 0.25 mg of the silver nanowire.

Original language	English
Article number	125749
Journal	Colloids and Surfaces A: Physicochemical and Engineering Aspects
Volume	610
DOIs	https://doi.org/10.1016/j.colsurfa.2020.125749
State	Published - 5 Feb 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020

Keywords

Superhydrophobic
catalysis
drop reactor
methylene blue
silver nanowire

ASJC Scopus subject areas

Surfaces and Interfaces
Physical and Theoretical Chemistry
Colloid and Surface Chemistry

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10.1016/j.colsurfa.2020.125749

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title = "Efficient drop reactor processing of methylene blue degradation with silver nanowire catalysts",

abstract = "A drop-based approach to facilitate the remediation of methylene blue (MB) solution via catalytic degradation with silver nanowires on a superhydrophobic substrate with a 2 mm hole without fouling is presented here. Studies on the dynamical response of drop removal via pressure rate perturbation, showed greater elapsed times at the 7.61 μL/s air flowrate with 25 μL and 30 μL volume drops than at higher air flowrates used. These results are accounted for by the rate of air flow through the plastron, used to equilibrate the lowering of pressure in the transparent receptacle that tends to prevent drop dislodgement, being only able to operate up to a specific upper limit. A method that calculates the absorbance values based on the intensity spectrum of the nanowire solution as reference was found to reveal the time progress degradation of MB solution by spectrometry. It showed that a 25 μL drop of the MB solution could be degraded within 15 s using 0.25 mg of the silver nanowire.",

keywords = "Superhydrophobic, catalysis, drop reactor, methylene blue, silver nanowire",

author = "Chung, \{Dwayne Chung Kim\} and Lin, \{Eric Shen\} and Linghui Peng and Xuchuan Jiang and Ong, \{Jian Wern\} and Abid, \{Hassan Ali\} and Zhixiong Song and Liew, \{Oi Wah\} and Ng, \{Tuck Wah\}",

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year = "2021",

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day = "5",

doi = "10.1016/j.colsurfa.2020.125749",

language = "English",

volume = "610",

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T1 - Efficient drop reactor processing of methylene blue degradation with silver nanowire catalysts

AU - Chung, Dwayne Chung Kim

AU - Lin, Eric Shen

AU - Peng, Linghui

AU - Jiang, Xuchuan

AU - Ong, Jian Wern

AU - Abid, Hassan Ali

AU - Song, Zhixiong

AU - Liew, Oi Wah

AU - Ng, Tuck Wah

PY - 2021/2/5

Y1 - 2021/2/5

N2 - A drop-based approach to facilitate the remediation of methylene blue (MB) solution via catalytic degradation with silver nanowires on a superhydrophobic substrate with a 2 mm hole without fouling is presented here. Studies on the dynamical response of drop removal via pressure rate perturbation, showed greater elapsed times at the 7.61 μL/s air flowrate with 25 μL and 30 μL volume drops than at higher air flowrates used. These results are accounted for by the rate of air flow through the plastron, used to equilibrate the lowering of pressure in the transparent receptacle that tends to prevent drop dislodgement, being only able to operate up to a specific upper limit. A method that calculates the absorbance values based on the intensity spectrum of the nanowire solution as reference was found to reveal the time progress degradation of MB solution by spectrometry. It showed that a 25 μL drop of the MB solution could be degraded within 15 s using 0.25 mg of the silver nanowire.

AB - A drop-based approach to facilitate the remediation of methylene blue (MB) solution via catalytic degradation with silver nanowires on a superhydrophobic substrate with a 2 mm hole without fouling is presented here. Studies on the dynamical response of drop removal via pressure rate perturbation, showed greater elapsed times at the 7.61 μL/s air flowrate with 25 μL and 30 μL volume drops than at higher air flowrates used. These results are accounted for by the rate of air flow through the plastron, used to equilibrate the lowering of pressure in the transparent receptacle that tends to prevent drop dislodgement, being only able to operate up to a specific upper limit. A method that calculates the absorbance values based on the intensity spectrum of the nanowire solution as reference was found to reveal the time progress degradation of MB solution by spectrometry. It showed that a 25 μL drop of the MB solution could be degraded within 15 s using 0.25 mg of the silver nanowire.

KW - Superhydrophobic

KW - catalysis

KW - drop reactor

KW - methylene blue

KW - silver nanowire

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DO - 10.1016/j.colsurfa.2020.125749

M3 - Article

AN - SCOPUS:85095728128

SN - 0927-7757

VL - 610

JO - Colloids and Surfaces A: Physicochemical and Engineering Aspects

JF - Colloids and Surfaces A: Physicochemical and Engineering Aspects

M1 - 125749

ER -

Efficient drop reactor processing of methylene blue degradation with silver nanowire catalysts

Abstract

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Keywords

ASJC Scopus subject areas

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