IECON 2020 the 46th Annual Conference of the IEEE Industrial Electronics Society 2020
DOI: 10.1109/iecon43393.2020.9254701
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SStat: Wi-Fi and Bluetooth integrated Multimodal "Do-It-Yourself" Electrochemical Potentiostat

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Cited by 11 publications
(5 citation statements)
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“…Our prototype has also carried out tests for 6 different measurement methods. [3] Unreported USB C8051F005 CV 1 [4] 50 Bluetooth, Wifi ESP 32, Arduino Uno CV, LSV, CA 1 [5] Unreported USB ATxmega32E5 CV, LSV, SWV, ASV, CA 1 [7] Unreported USB ATmega328 LSV 1 [8] 40 USB Arduino Uno CV, LSV, CA 1 [9] 55 USB Arduino Teensy 3.2 CV, LSV, CA, CC 1 [10] Unreported USB STM32F103RCT6 Unreported 1 [19] While in the CA, the graph pattern was appropriate, indicating the same measurement characteristics as the Emstat Pico potentiostat with its module only integrated with the USB module. We can also see that, in general, potentiostats have one measurement channel, while in this study, we show that three measurement channels can be run semi-parallelly.…”
Section: Electrochemical Measurements and Performance Comparisonmentioning
confidence: 99%
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“…Our prototype has also carried out tests for 6 different measurement methods. [3] Unreported USB C8051F005 CV 1 [4] 50 Bluetooth, Wifi ESP 32, Arduino Uno CV, LSV, CA 1 [5] Unreported USB ATxmega32E5 CV, LSV, SWV, ASV, CA 1 [7] Unreported USB ATmega328 LSV 1 [8] 40 USB Arduino Uno CV, LSV, CA 1 [9] 55 USB Arduino Teensy 3.2 CV, LSV, CA, CC 1 [10] Unreported USB STM32F103RCT6 Unreported 1 [19] While in the CA, the graph pattern was appropriate, indicating the same measurement characteristics as the Emstat Pico potentiostat with its module only integrated with the USB module. We can also see that, in general, potentiostats have one measurement channel, while in this study, we show that three measurement channels can be run semi-parallelly.…”
Section: Electrochemical Measurements and Performance Comparisonmentioning
confidence: 99%
“…Huang et al conducted a study by integrating their homemade potentiostat using Labview [3]. Sarkar et al integrated their electrochemical potentiostat via Bluetooth and WiFi, where the GUI was developed based on Matlab [4]. Ministat, according to research by Adams et al, uses the R environment for the graphical user interface (GUI) [5], while Pansodtee uses Python [6].…”
Section: Introductionmentioning
confidence: 99%
“…This instrument plays a critical role by precisely controlling the applied voltage and capturing the electrical signals generated from redox reactions during analysis. While numerous reports detail laboratory-built potentiostats [48][49][50][51][52], they are typically designed specifically for EC measurements. Conversely, most PEC studies utilize expensive, multifunctional commercial potentiostats with separate, non-integrated excitation light sources.…”
Section: Introductionmentioning
confidence: 99%
“…To help students understand these interrelated and complex topics, electrochemical experiments in laboratory classes play a significant role since experiments can visualize the electrical effect(s) on a material of interest (e.g., Faradaic efficiency for the evolution of continuous bubbles of hydrogen gas from an electrode). On this basis, various groups have reported potentiostats, galvanostats, and/or electrochemical impedance spectrometers (EIS) as task-specific devices for their respective (educational) topics. These structures of devices are generalized to a system consisting of three functionalities, a view, a controller, and core analog circuit(s), as depicted in Scheme , where the view represents a graphical user interface prepared by programming language(s), the analog circuit represents an electrical interface converting chemical response(s) from an electrochemical cell of interest to the form of electrical response(s), and the controller, which is typically a general-purpose microprocessor with peripheral task-specific integrated circuits, mediates between the view and analog circuit(s). The balance between functionality, capability, and cost of a device depends on how the three functionalities are purposefully configured.…”
Section: Introductionmentioning
confidence: 99%
“…The balance between functionality, capability, and cost of a device depends on how the three functionalities are purposefully configured. Accordingly, these reported devices are categorized into four classes: (1) wireless electrochemical detector as an IoT device; ,,,,,, (2) stand-alone device not requiring an external computer; ,,,,, (3) single-chip to miniaturize a device; ,,, and (4) electric-topologically multifunctional device as general-purpose equipment in a laboratory ,, (see the Supporting Information for the detailed classification of low-cost (<1000 USD) electrochemical devices reported previously). Among these categories, the multifunctional device can play a vital role for students investigating various dimensions of a subject of interest and understand the subject multidirectionally.…”
Section: Introductionmentioning
confidence: 99%