Evaluation of the ZnO Nanopillar Surface for Disinfection Applications

Siti Nurhanna Riduan; Guangshun Yi; Shujun Gao; Jeremy Pang Kern Tan; Yee Lin Tan; Yuan Yuan; Hongfang Lu; Shuyun Chng; Jin Ting Ong; Pei Yun Hon; Mohammad Yazid Abdad; Shawn Vasoo; Brenda S.P. Ang; Yi Yan Yang; Jackie Y. Ying; Yugen Zhang

doi:10.1021/acsabm.1c00767

Evaluation of the ZnO Nanopillar Surface for Disinfection Applications

Siti Nurhanna Riduan
, Guangshun Yi
, Shujun Gao
, Jeremy Pang Kern Tan
, Yee Lin Tan
, Yuan Yuan
, Hongfang Lu
, Shuyun Chng
, Jin Ting Ong
, Pei Yun Hon
, Mohammad Yazid Abdad
, Shawn Vasoo^*
, Brenda S.P. Ang
, Yi Yan Yang^*
, Jackie Y. Ying^*
, Yugen Zhang^*

^*Corresponding author for this work

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

6 Scopus citations

Abstract

Much attention has been devoted to the synthesis and antimicrobial studies of nanopatterned surfaces. However, factors contributing to their potential and eventual application, such as large-scale synthesis, material durability, and biocompatibility, are often neglected in such studies. In this paper, the ZnO nanopillar surface is found to be amenable to synthesis in large forms and stable upon exposure to highly accelerated lifetime tests (HALT) without any detrimental effect on its antimicrobial activity. Additionally, the material is effective against clinically isolated pathogens and biocompatible in vivo. These findings illustrate the broad applicability of ZnO nanopillar surfaces in the common equipment used in health-care and consumer industries.

Original language	English
Pages (from-to)	7524-7531
Number of pages	8
Journal	ACS Applied Bio Materials
Volume	4
Issue number	10
DOIs	https://doi.org/10.1021/acsabm.1c00767
State	Published - 18 Oct 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society.

Keywords

antimicrobial materials
durability
nanopillar surfaces
reactive oxygen species
zinc oxide

ASJC Scopus subject areas

Biomaterials
General Chemistry
Biomedical Engineering
Biochemistry, medical

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10.1021/acsabm.1c00767

Cite this

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title = "Evaluation of the ZnO Nanopillar Surface for Disinfection Applications",

abstract = "Much attention has been devoted to the synthesis and antimicrobial studies of nanopatterned surfaces. However, factors contributing to their potential and eventual application, such as large-scale synthesis, material durability, and biocompatibility, are often neglected in such studies. In this paper, the ZnO nanopillar surface is found to be amenable to synthesis in large forms and stable upon exposure to highly accelerated lifetime tests (HALT) without any detrimental effect on its antimicrobial activity. Additionally, the material is effective against clinically isolated pathogens and biocompatible in vivo. These findings illustrate the broad applicability of ZnO nanopillar surfaces in the common equipment used in health-care and consumer industries.",

keywords = "antimicrobial materials, durability, nanopillar surfaces, reactive oxygen species, zinc oxide",

author = "Riduan, \{Siti Nurhanna\} and Guangshun Yi and Shujun Gao and Tan, \{Jeremy Pang Kern\} and Tan, \{Yee Lin\} and Yuan Yuan and Hongfang Lu and Shuyun Chng and Ong, \{Jin Ting\} and Hon, \{Pei Yun\} and Abdad, \{Mohammad Yazid\} and Shawn Vasoo and Ang, \{Brenda S.P.\} and Yang, \{Yi Yan\} and Ying, \{Jackie Y.\} and Yugen Zhang",

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year = "2021",

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day = "18",

doi = "10.1021/acsabm.1c00767",

language = "English",

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journal = "ACS Applied Bio Materials",

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T1 - Evaluation of the ZnO Nanopillar Surface for Disinfection Applications

AU - Riduan, Siti Nurhanna

AU - Yi, Guangshun

AU - Gao, Shujun

AU - Tan, Jeremy Pang Kern

AU - Tan, Yee Lin

AU - Yuan, Yuan

AU - Lu, Hongfang

AU - Chng, Shuyun

AU - Ong, Jin Ting

AU - Hon, Pei Yun

AU - Abdad, Mohammad Yazid

AU - Vasoo, Shawn

AU - Ang, Brenda S.P.

AU - Yang, Yi Yan

AU - Ying, Jackie Y.

AU - Zhang, Yugen

PY - 2021/10/18

Y1 - 2021/10/18

N2 - Much attention has been devoted to the synthesis and antimicrobial studies of nanopatterned surfaces. However, factors contributing to their potential and eventual application, such as large-scale synthesis, material durability, and biocompatibility, are often neglected in such studies. In this paper, the ZnO nanopillar surface is found to be amenable to synthesis in large forms and stable upon exposure to highly accelerated lifetime tests (HALT) without any detrimental effect on its antimicrobial activity. Additionally, the material is effective against clinically isolated pathogens and biocompatible in vivo. These findings illustrate the broad applicability of ZnO nanopillar surfaces in the common equipment used in health-care and consumer industries.

AB - Much attention has been devoted to the synthesis and antimicrobial studies of nanopatterned surfaces. However, factors contributing to their potential and eventual application, such as large-scale synthesis, material durability, and biocompatibility, are often neglected in such studies. In this paper, the ZnO nanopillar surface is found to be amenable to synthesis in large forms and stable upon exposure to highly accelerated lifetime tests (HALT) without any detrimental effect on its antimicrobial activity. Additionally, the material is effective against clinically isolated pathogens and biocompatible in vivo. These findings illustrate the broad applicability of ZnO nanopillar surfaces in the common equipment used in health-care and consumer industries.

KW - antimicrobial materials

KW - durability

KW - nanopillar surfaces

KW - reactive oxygen species

KW - zinc oxide

UR - https://www.scopus.com/pages/publications/85117854433

U2 - 10.1021/acsabm.1c00767

DO - 10.1021/acsabm.1c00767

M3 - Article

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AN - SCOPUS:85117854433

SN - 2576-6422

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EP - 7531

JO - ACS Applied Bio Materials

JF - ACS Applied Bio Materials

IS - 10

ER -

Evaluation of the ZnO Nanopillar Surface for Disinfection Applications

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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