Wireless, smartphone controlled potentiostat integrated with lab-on-disc platform

Chung-Hsiang Cheng; Kinga Zor; Jen-Hung Wang; Kuldeep Sanger; Wei-Min Wang; Alessandro M.  Capria; Anja Boisen; Kuang_Yuh Huang; En Te Hwu

Wireless, smartphone controlled potentiostat integrated with lab-on-disc platform

Chung-Hsiang Cheng, Kinga Zor, Jen-Hung Wang, Kuldeep Sanger, Wei-Min Wang, Alessandro M. Capria, Anja Boisen, Kuang_Yuh Huang, En Te Hwu

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Abstract

A smartphone controlled wireless data transmitting and inductive powering Power Lab-on-disc (PLoD) platform is developed based on 2.4 GHz Bluetooth and 205 kHz Qi techniques, respectively. A potentiostat is integrated on the PLoD platform, and amperometric measurements are performed. The wireless potentiostat can provide -3~3 V with 14-bit resolution for amperometry in a range of -300~300 μA with a readout noise floor of 1.2 μA (p-p) in a static condition. A 0~3000 rpm spinning test shows that a phosphate buffer saline (400 mV potential) baseline noise is proportional to spinning acceleration and deceleration.

Original language	English
Publication date	2017
Number of pages	2
Publication status	Published - 2017
Event	21st International Conference on Miniaturized Systems for Chemistry and Life Sciences - Savannah International Trade & Convention Center, Savannah, United States Duration: 22 Oct 2017 → 26 Oct 2017 Conference number: 21 https://microtasconferences.org/microtas2017/

Conference

Conference	21st International Conference on Miniaturized Systems for Chemistry and Life Sciences
Number	21
Location	Savannah International Trade & Convention Center
Country/Territory	United States
City	Savannah
Period	22/10/2017 → 26/10/2017
Internet address	https://microtasconferences.org/microtas2017/

Keywords

Wireless
Smartphone
Potentiostat
Bluetooth
Qi
Android
Arduino

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title = "Wireless, smartphone controlled potentiostat integrated with lab-on-disc platform",

abstract = "A smartphone controlled wireless data transmitting and inductive powering Power Lab-on-disc (PLoD) platform is developed based on 2.4 GHz Bluetooth and 205 kHz Qi techniques, respectively. A potentiostat is integrated on the PLoD platform, and amperometric measurements are performed. The wireless potentiostat can provide -3~3 V with 14-bit resolution for amperometry in a range of -300~300 μA with a readout noise floor of 1.2 μA (p-p) in a static condition. A 0~3000 rpm spinning test shows that a phosphate buffer saline (400 mV potential) baseline noise is proportional to spinning acceleration and deceleration.",

keywords = "Wireless, Smartphone, Potentiostat, Bluetooth, Qi, Android, Arduino",

author = "Chung-Hsiang Cheng and Kinga Zor and Jen-Hung Wang and Kuldeep Sanger and Wei-Min Wang and Capria, {Alessandro M.} and Anja Boisen and Kuang_Yuh Huang and Hwu, {En Te}",

year = "2017",

language = "English",

note = "21st International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2017 ; Conference date: 22-10-2017 Through 26-10-2017",

url = "https://microtasconferences.org/microtas2017/",

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TY - CONF

T1 - Wireless, smartphone controlled potentiostat integrated with lab-on-disc platform

AU - Cheng, Chung-Hsiang

AU - Zor, Kinga

AU - Wang, Jen-Hung

AU - Sanger, Kuldeep

AU - Wang, Wei-Min

AU - Capria, Alessandro M.

AU - Boisen, Anja

AU - Huang, Kuang_Yuh

AU - Hwu, En Te

N1 - Conference code: 21

PY - 2017

Y1 - 2017

N2 - A smartphone controlled wireless data transmitting and inductive powering Power Lab-on-disc (PLoD) platform is developed based on 2.4 GHz Bluetooth and 205 kHz Qi techniques, respectively. A potentiostat is integrated on the PLoD platform, and amperometric measurements are performed. The wireless potentiostat can provide -3~3 V with 14-bit resolution for amperometry in a range of -300~300 μA with a readout noise floor of 1.2 μA (p-p) in a static condition. A 0~3000 rpm spinning test shows that a phosphate buffer saline (400 mV potential) baseline noise is proportional to spinning acceleration and deceleration.

AB - A smartphone controlled wireless data transmitting and inductive powering Power Lab-on-disc (PLoD) platform is developed based on 2.4 GHz Bluetooth and 205 kHz Qi techniques, respectively. A potentiostat is integrated on the PLoD platform, and amperometric measurements are performed. The wireless potentiostat can provide -3~3 V with 14-bit resolution for amperometry in a range of -300~300 μA with a readout noise floor of 1.2 μA (p-p) in a static condition. A 0~3000 rpm spinning test shows that a phosphate buffer saline (400 mV potential) baseline noise is proportional to spinning acceleration and deceleration.

KW - Wireless

KW - Smartphone

KW - Potentiostat

KW - Bluetooth

KW - Qi

KW - Android

KW - Arduino

M3 - Paper

T2 - 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences

Y2 - 22 October 2017 through 26 October 2017

ER -

Wireless, smartphone controlled potentiostat integrated with lab-on-disc platform

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