A flexible intelligent sensor for patients with amyotrophic lateral sclerosis

[Display omitted] •The polymer show ed self-healing, high tensile properties, tear resistance, puncture resistance, strong adhesion, and damage tolerance;•The flexible smart sensor captures subtle movement changes in ALS patients, enabling real-time human body monitoring;•The poly(thioctic acid) sen...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 515; p. 163765
Main Authors Duan, Lei, Li, Zhi, Jiang, Fan, Chen, Zong-Ju, Zhang, Wei-Song, Zhao, Pei-Chen, Wang, Li-Chun, Luo, Yan-Long, Zhao, Che, Li, Cheng-Hui
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2025
Subjects
Amyotrophic lateral sclerosis
Dynamic bonds
Flexible sensors
Poly(thioctic acid)
Amyotrophic lateral sclerosis
Poly(thioctic acid)
Dynamic bonds
Flexible sensors
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Abstract [Display omitted] •The polymer show ed self-healing, high tensile properties, tear resistance, puncture resistance, strong adhesion, and damage tolerance;•The flexible smart sensor captures subtle movement changes in ALS patients, enabling real-time human body monitoring;•The poly(thioctic acid) sensor demonstrates high temperature sensitivity for personal temperature monitoring and sensing;•The flexible smart sensor features Morse code communication capabilities, enabling signal conversion to digital information. Flexible wearable devices are favorable for monitoring the physiological parameters of amyotrophic lateral sclerosis (ALS) patients, facilitating early diagnosis and subsequent treatment. However, developing multifunctional flexible sensors that possess high mechanical strength and sensitivity, while ensuring stable health monitoring and efficient communication, remains a significant challenge. In this study, a poly(thioctic acid) material (TA-T-Zn) is synthesized via a one-pot method. The as-prepared poly(thioctic acid) exhibited outstanding room-temperature self-healing capabilities, ultra-high tensile properties, tear resistance, puncture resistance, strong adhesion, and exceptional damage tolerance. The flexible smart sensor based on TA-T-Zn not only accurately captures subtle movement changes in ALS patients, including finger and wrist movements and minute facial expressions, enabling real-time human body monitoring, but also demonstrates high sensitivity within the temperature range of 35°C to 50°C, making it suitable for personal temperature monitoring and temperature sensing. More importantly, in the advanced stages of ALS, the sensor can facilitate communication through Morse code, converting signals into digital information such as “1314520″ and ”π“ using Python software, thereby accurately interpreting the patient’s intentions and significantly enhancing treatment and care outcomes. This study offers a practical approach to the development of flexible multifunctional smart sensors, particularly for ALS patients.
AbstractList [Display omitted] •The polymer show ed self-healing, high tensile properties, tear resistance, puncture resistance, strong adhesion, and damage tolerance;•The flexible smart sensor captures subtle movement changes in ALS patients, enabling real-time human body monitoring;•The poly(thioctic acid) sensor demonstrates high temperature sensitivity for personal temperature monitoring and sensing;•The flexible smart sensor features Morse code communication capabilities, enabling signal conversion to digital information. Flexible wearable devices are favorable for monitoring the physiological parameters of amyotrophic lateral sclerosis (ALS) patients, facilitating early diagnosis and subsequent treatment. However, developing multifunctional flexible sensors that possess high mechanical strength and sensitivity, while ensuring stable health monitoring and efficient communication, remains a significant challenge. In this study, a poly(thioctic acid) material (TA-T-Zn) is synthesized via a one-pot method. The as-prepared poly(thioctic acid) exhibited outstanding room-temperature self-healing capabilities, ultra-high tensile properties, tear resistance, puncture resistance, strong adhesion, and exceptional damage tolerance. The flexible smart sensor based on TA-T-Zn not only accurately captures subtle movement changes in ALS patients, including finger and wrist movements and minute facial expressions, enabling real-time human body monitoring, but also demonstrates high sensitivity within the temperature range of 35°C to 50°C, making it suitable for personal temperature monitoring and temperature sensing. More importantly, in the advanced stages of ALS, the sensor can facilitate communication through Morse code, converting signals into digital information such as “1314520″ and ”π“ using Python software, thereby accurately interpreting the patient’s intentions and significantly enhancing treatment and care outcomes. This study offers a practical approach to the development of flexible multifunctional smart sensors, particularly for ALS patients.
ArticleNumber 163765
Author Zhao, Pei-Chen
Zhang, Wei-Song
Wang, Li-Chun
Li, Zhi
Chen, Zong-Ju
Luo, Yan-Long
Li, Cheng-Hui
Duan, Lei
Zhao, Che
Jiang, Fan
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  surname: Luo
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  email: chli@nju.edu.cn
  organization: State Key Laboratory of Coordination Chemistry, School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210023, China
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Poly(thioctic acid)
Dynamic bonds
Flexible sensors
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SubjectTerms Amyotrophic lateral sclerosis
Dynamic bonds
Flexible sensors
Poly(thioctic acid)
Title A flexible intelligent sensor for patients with amyotrophic lateral sclerosis
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