Speech Encryption by Graphene-Based Acoustic Sensors

Guo Peng Li; Lu Yu Zhao; Peng Hui Shen; Tong Xuan Li; Yi Wen Wu; Hang Liu; Hao Yuan Shen; Zhao Jie Zhang; Xiao Liang Guo; Yu Tao Li; Tian Ling Ren; Yeliang Wang

doi:10.1021/acsanm.5c01287

Speech Encryption by Graphene-Based Acoustic Sensors

Guo Peng Li, Lu Yu Zhao, Peng Hui Shen, Tong Xuan Li, Yi Wen Wu, Hang Liu, Hao Yuan Shen, Zhao Jie Zhang, Xiao Liang Guo^*, Yu Tao Li^*, Tian Ling Ren^*, Yeliang Wang

^*Corresponding author for this work

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

Abstract

Graphene is a popular nanomaterial with excellent electrical and mechanical properties, and its nanosensor applications in the field of acoustics have been extensively researched. With the popularization of intelligent terminals and human-computer interaction, the personal privacy and security issues caused by information leakage have attracted public attention. Data encryption is an effective means to protect data, and the growth of data brought by nanoacoustic sensors makes it meaningful to research the encryption effect of data. In this paper, a resistive acoustic sensor is prepared by laser-induced graphene (LIG) to achieve data encryption during the acquisition process, which can better reduce the threat of data leakage in the process of information transmission and storage. The recognition and confusion ability of the data processed by the Tiny Encryption Algorithm (TEA) and chaotic encryption algorithm are verified by the neural network. Different encryption algorithms are fuzzily characterized by using the data density scatter plot after encryption, and the potential mechanism of their different distribution and the influence on the encryption effect are analyzed.

Original language	English
Pages (from-to)	11389-11396
Number of pages	8
Journal	ACS Applied Nano Materials
Volume	8
Issue number	22
DOIs	https://doi.org/10.1021/acsanm.5c01287
Publication status	Published - 6 Jun 2025
Externally published	Yes

Keywords

Tiny Encryption Algorithm
acoustic sensors
chaotic encryption
data encryption
graphene

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10.1021/acsanm.5c01287

Cite this

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title = "Speech Encryption by Graphene-Based Acoustic Sensors",

abstract = "Graphene is a popular nanomaterial with excellent electrical and mechanical properties, and its nanosensor applications in the field of acoustics have been extensively researched. With the popularization of intelligent terminals and human-computer interaction, the personal privacy and security issues caused by information leakage have attracted public attention. Data encryption is an effective means to protect data, and the growth of data brought by nanoacoustic sensors makes it meaningful to research the encryption effect of data. In this paper, a resistive acoustic sensor is prepared by laser-induced graphene (LIG) to achieve data encryption during the acquisition process, which can better reduce the threat of data leakage in the process of information transmission and storage. The recognition and confusion ability of the data processed by the Tiny Encryption Algorithm (TEA) and chaotic encryption algorithm are verified by the neural network. Different encryption algorithms are fuzzily characterized by using the data density scatter plot after encryption, and the potential mechanism of their different distribution and the influence on the encryption effect are analyzed.",

keywords = "Tiny Encryption Algorithm, acoustic sensors, chaotic encryption, data encryption, graphene",

author = "Li, {Guo Peng} and Zhao, {Lu Yu} and Shen, {Peng Hui} and Li, {Tong Xuan} and Wu, {Yi Wen} and Hang Liu and Shen, {Hao Yuan} and Zhang, {Zhao Jie} and Guo, {Xiao Liang} and Li, {Yu Tao} and Ren, {Tian Ling} and Yeliang Wang",

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year = "2025",

month = jun,

day = "6",

doi = "10.1021/acsanm.5c01287",

language = "English",

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AU - Li, Guo Peng

AU - Zhao, Lu Yu

AU - Shen, Peng Hui

AU - Li, Tong Xuan

AU - Wu, Yi Wen

AU - Liu, Hang

AU - Shen, Hao Yuan

AU - Zhang, Zhao Jie

AU - Guo, Xiao Liang

AU - Li, Yu Tao

AU - Ren, Tian Ling

AU - Wang, Yeliang

PY - 2025/6/6

Y1 - 2025/6/6

N2 - Graphene is a popular nanomaterial with excellent electrical and mechanical properties, and its nanosensor applications in the field of acoustics have been extensively researched. With the popularization of intelligent terminals and human-computer interaction, the personal privacy and security issues caused by information leakage have attracted public attention. Data encryption is an effective means to protect data, and the growth of data brought by nanoacoustic sensors makes it meaningful to research the encryption effect of data. In this paper, a resistive acoustic sensor is prepared by laser-induced graphene (LIG) to achieve data encryption during the acquisition process, which can better reduce the threat of data leakage in the process of information transmission and storage. The recognition and confusion ability of the data processed by the Tiny Encryption Algorithm (TEA) and chaotic encryption algorithm are verified by the neural network. Different encryption algorithms are fuzzily characterized by using the data density scatter plot after encryption, and the potential mechanism of their different distribution and the influence on the encryption effect are analyzed.

AB - Graphene is a popular nanomaterial with excellent electrical and mechanical properties, and its nanosensor applications in the field of acoustics have been extensively researched. With the popularization of intelligent terminals and human-computer interaction, the personal privacy and security issues caused by information leakage have attracted public attention. Data encryption is an effective means to protect data, and the growth of data brought by nanoacoustic sensors makes it meaningful to research the encryption effect of data. In this paper, a resistive acoustic sensor is prepared by laser-induced graphene (LIG) to achieve data encryption during the acquisition process, which can better reduce the threat of data leakage in the process of information transmission and storage. The recognition and confusion ability of the data processed by the Tiny Encryption Algorithm (TEA) and chaotic encryption algorithm are verified by the neural network. Different encryption algorithms are fuzzily characterized by using the data density scatter plot after encryption, and the potential mechanism of their different distribution and the influence on the encryption effect are analyzed.

KW - Tiny Encryption Algorithm

KW - acoustic sensors

KW - chaotic encryption

KW - data encryption

KW - graphene

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DO - 10.1021/acsanm.5c01287

M3 - Article

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SP - 11389

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JO - ACS Applied Nano Materials

JF - ACS Applied Nano Materials

IS - 22

ER -

Speech Encryption by Graphene-Based Acoustic Sensors

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Keywords

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