2017
DOI: 10.1021/acs.analchem.6b02246
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Ion Sensitive Transparent-Gate Transistor for Visible Cell Sensing

Abstract: In this study, we developed an ion-sensitive transparent-gate transistor (IS-TGT) for visible cell sensing. The gate sensing surface of the IS-TGT is transparent in a solution because a transparent amorphous oxide semiconductor composed of amorphous In-Ga-Zn-oxide (a-IGZO) with a thin SiO film gate that includes an indium tin oxide (ITO) film as the source and drain electrodes is utilized. The pH response of the IS-TGT was found to be about 56 mV/pH, indicating approximately Nernstian response. Moreover, the p… Show more

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Cited by 27 publications
(44 citation statements)
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“…46 In summary, the experimental data are highly variable due to variation between silica surface preparation and electrolyte composition; however, molecular dynamics simulations and mean-field models show a qualitative agreement with some experimental data up to highly effective pH. 46 Silica often shows a sub-Nernstian response 114 in the 30-40 mV per pH range, 8,46,112,114 but the ideal Nernst response (∼59 mV per pH) has been reported 89 as shown in Fig. 6 ( pink circles).…”
Section: Electric Field and The Field-effectmentioning
confidence: 64%
See 3 more Smart Citations
“…46 In summary, the experimental data are highly variable due to variation between silica surface preparation and electrolyte composition; however, molecular dynamics simulations and mean-field models show a qualitative agreement with some experimental data up to highly effective pH. 46 Silica often shows a sub-Nernstian response 114 in the 30-40 mV per pH range, 8,46,112,114 but the ideal Nernst response (∼59 mV per pH) has been reported 89 as shown in Fig. 6 ( pink circles).…”
Section: Electric Field and The Field-effectmentioning
confidence: 64%
“…If sputtered silica demonstrates a higher nanoscale surface area, the results of the present work provide a potential theoretical explanation for why sputtered silica has evidenced enhanced pH response compared to thermally grown silica. 89 As presented in the background, some experiments support the concept of nano-texturing resulting in increased pH response, [89][90][91][92] but the relationship remains unclear with further work being required to clarify the precise relationship.…”
Section: Electric Field and The Field-effectmentioning
confidence: 98%
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“…Additionally, the spikelike structure is considered to have contributed to the improved pH responsivity and sensitivity. Basically, the pH response of the oxide gate surface should be Nernstian when potentiometric sensors are used; (28,29) the Nernstian response is calculated to be 59.1 mV/pH at 25 ℃ using…”
Section: Use Of Poly-tbo Electrode As Potentiometric Biosensormentioning
confidence: 99%