Acousto-Pi: An Opto-Acoustofluidic System Using Surface Acoustic Waves Controlled With Open-Source Electronics for Integrated In-Field Diagnostics

Vernon, Jethro; Canyelles-Pericas, Pep; Torun, Hamdi; Dai, Xuewu; Ng, Wai Pang; Binns, Richard; Busawon, Krishna; Fu, Yong Qing

doi:10.1109/tuffc.2021.3113173

Cited by 5 publications

(1 citation statement)

References 50 publications

(49 reference statements)

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“…The acoustic method is characterized by its simplicity, speed, and sensitivity [88][89][90][91][92]. Acoustic biosensors use differences in acoustic wave velocity, frequency, and amplitude induced by piezoelectric materials to detect the target analyte [93].…”

Section: Applications Of Bio-chemical Electrochemical Sensors Using A...mentioning

confidence: 99%

Smartphone-Based Portable Bio-Chemical Sensors: Exploring Recent Advancements

Bui,

Thangavel,

Sharipov

et al. 2023

Chemosensors

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Traditionally, analytical chemistry and diagnosis relied on wet laboratories and skilled professionals utilizing sophisticated instruments for sample handling and analysis. However, with the development of novel materials and sensing techniques, there has been a significant shift towards the use of standalone sensors, allowing tests to be conducted on-site or even in real time, leading to cost- and time-efficiency. With their widespread adoption globally, smartphones have emerged as an ideal platform for such sensors, boasting extensive sensor capabilities, advanced processing power, and communication functionalities. Smartphone-based assays make use of optical and electrochemical sensors, utilizing built-in cameras, ambient light sensors, and other features for optical sensing, while the micro-USB port, Bluetooth, and wireless connection facilitate data transmission and analog voltage application for electrochemical sensing. Previous overview papers have explored smartphone-based sensing in specific domains; this review provides a comprehensive examination of recent advancements in smartphone-based sensors, encompassing both optical and electrochemical sensing methods. The review provides the fundamental principles of these sensors and their implementation using smartphones, showcases recent applications, and presents innovative designs that take advantage of the inherent functionalities and sensor capabilities of smartphones. The review concludes by offering an outlook on the prospects of smartphone-based sensing and includes a reflective section emphasizing the potential impact of sensors in chemical and biological analyses. This comprehensive resource aims to provide information to researchers and practitioners interested in using smartphones for cutting-edge analytical methodologies.

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Section: Applications Of Bio-chemical Electrochemical Sensors Using A...mentioning

confidence: 99%

Smartphone-Based Portable Bio-Chemical Sensors: Exploring Recent Advancements

Bui,

Thangavel,

Sharipov

et al. 2023

Chemosensors

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Sample–to-answer sensing technologies for nucleic acid preparation and detection in the field

Liu

Tsutsui

2023

SLAS Technology

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Breath monitoring, sleep disorder detection, and tracking using thin-film acoustic waves and open-source electronics

Vernon

Canyelles-Pericas

Torun

et al. 2022

Nanotechnology and Precision Engineering

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Apnoea, a major sleep disorder, affects many adults and causes several issues, such as fatigue, high blood pressure, liver conditions, increased risk of type II diabetes, and heart problems. Therefore, advanced monitoring and diagnosing tools of apnoea disorders are needed to facilitate better treatment, with advantages such as accuracy, comfort of use, cost effectiveness, and embedded computation capabilities to recognise, store, process, and transmit time series data. In this work we present an adaptation of our apnoea-Pi open-source surface acoustic wave (SAW) platform (Apnoea-Pi) to monitor and recognise apnoea in patients. The platform is based on a thin-film SAW device using bimorph ZnO and Al structures, including those fabricated as Al foils or plates, to achieve breath tracking based on humidity and temperature changes. We applied open-source electronics and provided embedded computing characteristics for signal processing, data recognition, storage, and transmission of breath signals. We show that the thin-film SAW device out-performed standard and off-the-shelf capacitive electronic sensors in terms of their response and accuracy for human breath-tracking purposes. This in combination with embedded electronics makes a suitable platform for human breath monitoring and sleep disorder recognition.

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Acousto-Pi: An Opto-Acoustofluidic System Using Surface Acoustic Waves Controlled With Open-Source Electronics for Integrated In-Field Diagnostics

Cited by 5 publications

References 50 publications

Smartphone-Based Portable Bio-Chemical Sensors: Exploring Recent Advancements

Smartphone-Based Portable Bio-Chemical Sensors: Exploring Recent Advancements

Sample–to-answer sensing technologies for nucleic acid preparation and detection in the field

Breath monitoring, sleep disorder detection, and tracking using thin-film acoustic waves and open-source electronics

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