Highly efficient cash sterilization with ultrafast and flexible Joule-heating strategy by laser patterning

Yang Xu; Jing Lin; Yi Chen; Haosong Zhong; Connie Kong Wai Lee; Min Tan; Siyu Chen; Minseong Kim; Elizabeth Wing Yan Poon; Timothy Yee Him Chan; Aidan Qiaoyaxiao Yuan; Miao Tang; Rongliang Yang; Yexin Pan; Ying Fu; Mitch Guijun Li

doi:10.1002/admi.202400045

Highly efficient cash sterilization with ultrafast and flexible Joule-heating strategy by laser patterning

Yang Xu, Jing Lin, Yi Chen, Haosong Zhong, Connie Kong Wai Lee, Min Tan, Siyu Chen, Minseong Kim, Elizabeth Wing Yan Poon, Timothy Yee Him Chan, Aidan Qiaoyaxiao Yuan, Miao Tang, Rongliang Yang, Yexin Pan, Ying Fu, Mitch Guijun Li^*

^*Corresponding author for this work

Pure And Applied Chemistry

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

2 Citations (Scopus)

13 Downloads (Pure)

Abstract

Since ancient times, humans have learned to use fire and other heating methods to fight against dangerous pathogens, like cooking raw food, sterilizing surgical tools, and disinfecting other pathogen transmission media. However, it remains difficult for current heating methods to achieve extremely fast and highly efficient sterilization simultaneously. Herein, an ultrafast and uniform heating‐based strategy with outstanding bactericidal performance is proposed. Ultra‐precise laser manufacturing is used to fabricate the Joule heater which can be rapidly heated to 90 °C in 5 s with less than 1 °C fluctuation in a large area by real‐time temperature feedback control. An over 98% bactericidal efficiency on S. aureus for 30 s and on E. coli for merely 5 s is shown. The heating strategy shows a 360 times faster acceleration compared to the commonly used steam sterilization from the suggested guidelines by the Centers for Disease Control and Prevention (CDC), indicating that high temperatures with short duration can effectively disinfect microorganisms. As a proof of concept, this heating strategy can be widely applied to sterilizing cash and various objects to help protect the public from bacteria in daily life.

Original language	English
Article number	2400045
Journal	Advanced Materials Interfaces
Volume	11
Issue number	16
Early online date	9 Apr 2024
DOIs	https://doi.org/10.1002/admi.202400045
Publication status	Published - 6 Jun 2024

Funding

Hong Kong Research Grants Council. Grant Numbers: 25201620, C6001-22Y Hong Kong Innovation Technology Commission. Grant Number: MHP/060/21 Hong Kong Branch of Chinese National Engineering Research Center for Tissue Restoration and Reconstruction. Grant Number: ITC-CNERC14SC01 Materials Characterization and Preparation Facility Royal Society. Grant Number: RGS/R2/222050 Royal Society of Chemistry. Grant Number: E22-4714717313 State Key Laboratory of Advanced Displays and Optoelectronics Technologies, Hong Kong University of Science and Technology

Keywords

anti‐bacteria
cash disinfection
laser patterning
Joule heating

Access to Document

10.1002/admi.202400045Licence: CC BY 4.0

Xu-etal-AMI-2024-Highly-efficient-cash-sterilization-with-ultrafast-and-flexible-Joule-heatingFinal published version, 6.19 MBLicence: CC BY 4.0

Cite this

Xu, Y., Lin, J., Chen, Y., Zhong, H., Lee, C. K. W., Tan, M., Chen, S., Kim, M., Poon, E. W. Y., Chan, T. Y. H., Yuan, A. Q., Tang, M., Yang, R., Pan, Y., Fu, Y., & Li, M. G. (2024). Highly efficient cash sterilization with ultrafast and flexible Joule-heating strategy by laser patterning. Advanced Materials Interfaces, 11(16), Article 2400045. https://doi.org/10.1002/admi.202400045

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title = "Highly efficient cash sterilization with ultrafast and flexible Joule-heating strategy by laser patterning",

abstract = "Since ancient times, humans have learned to use fire and other heating methods to fight against dangerous pathogens, like cooking raw food, sterilizing surgical tools, and disinfecting other pathogen transmission media. However, it remains difficult for current heating methods to achieve extremely fast and highly efficient sterilization simultaneously. Herein, an ultrafast and uniform heating‐based strategy with outstanding bactericidal performance is proposed. Ultra‐precise laser manufacturing is used to fabricate the Joule heater which can be rapidly heated to 90 °C in 5 s with less than 1 °C fluctuation in a large area by real‐time temperature feedback control. An over 98% bactericidal efficiency on S. aureus for 30 s and on E. coli for merely 5 s is shown. The heating strategy shows a 360 times faster acceleration compared to the commonly used steam sterilization from the suggested guidelines by the Centers for Disease Control and Prevention (CDC), indicating that high temperatures with short duration can effectively disinfect microorganisms. As a proof of concept, this heating strategy can be widely applied to sterilizing cash and various objects to help protect the public from bacteria in daily life.",

keywords = "anti‐bacteria, cash disinfection, laser patterning, Joule heating",

author = "Yang Xu and Jing Lin and Yi Chen and Haosong Zhong and Lee, {Connie Kong Wai} and Min Tan and Siyu Chen and Minseong Kim and Poon, {Elizabeth Wing Yan} and Chan, {Timothy Yee Him} and Yuan, {Aidan Qiaoyaxiao} and Miao Tang and Rongliang Yang and Yexin Pan and Ying Fu and Li, {Mitch Guijun}",

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AU - Xu, Yang

AU - Lin, Jing

AU - Chen, Yi

AU - Zhong, Haosong

AU - Lee, Connie Kong Wai

AU - Tan, Min

AU - Chen, Siyu

AU - Kim, Minseong

AU - Poon, Elizabeth Wing Yan

AU - Chan, Timothy Yee Him

AU - Yuan, Aidan Qiaoyaxiao

AU - Tang, Miao

AU - Yang, Rongliang

AU - Pan, Yexin

AU - Fu, Ying

AU - Li, Mitch Guijun

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N2 - Since ancient times, humans have learned to use fire and other heating methods to fight against dangerous pathogens, like cooking raw food, sterilizing surgical tools, and disinfecting other pathogen transmission media. However, it remains difficult for current heating methods to achieve extremely fast and highly efficient sterilization simultaneously. Herein, an ultrafast and uniform heating‐based strategy with outstanding bactericidal performance is proposed. Ultra‐precise laser manufacturing is used to fabricate the Joule heater which can be rapidly heated to 90 °C in 5 s with less than 1 °C fluctuation in a large area by real‐time temperature feedback control. An over 98% bactericidal efficiency on S. aureus for 30 s and on E. coli for merely 5 s is shown. The heating strategy shows a 360 times faster acceleration compared to the commonly used steam sterilization from the suggested guidelines by the Centers for Disease Control and Prevention (CDC), indicating that high temperatures with short duration can effectively disinfect microorganisms. As a proof of concept, this heating strategy can be widely applied to sterilizing cash and various objects to help protect the public from bacteria in daily life.

AB - Since ancient times, humans have learned to use fire and other heating methods to fight against dangerous pathogens, like cooking raw food, sterilizing surgical tools, and disinfecting other pathogen transmission media. However, it remains difficult for current heating methods to achieve extremely fast and highly efficient sterilization simultaneously. Herein, an ultrafast and uniform heating‐based strategy with outstanding bactericidal performance is proposed. Ultra‐precise laser manufacturing is used to fabricate the Joule heater which can be rapidly heated to 90 °C in 5 s with less than 1 °C fluctuation in a large area by real‐time temperature feedback control. An over 98% bactericidal efficiency on S. aureus for 30 s and on E. coli for merely 5 s is shown. The heating strategy shows a 360 times faster acceleration compared to the commonly used steam sterilization from the suggested guidelines by the Centers for Disease Control and Prevention (CDC), indicating that high temperatures with short duration can effectively disinfect microorganisms. As a proof of concept, this heating strategy can be widely applied to sterilizing cash and various objects to help protect the public from bacteria in daily life.

KW - anti‐bacteria

KW - cash disinfection

KW - laser patterning

KW - Joule heating

U2 - 10.1002/admi.202400045

DO - 10.1002/admi.202400045

M3 - Article

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JO - Advanced Materials Interfaces

JF - Advanced Materials Interfaces

IS - 16

M1 - 2400045

ER -

Highly efficient cash sterilization with ultrafast and flexible Joule-heating strategy by laser patterning

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