A Current-mode pH-Sensor Interface based on Carbon Nanotube Field Effect Transistor

A Current-mode pH-Sensor Interface based on Carbon Nanotube Field Effect Transistor. Tripathi, S., Samar Ansari, M., & Joshi, A. In Materials Today: Proceedings, volume 4, 2017.
doi abstract bibtex

© 2017 Elsevier Ltd. The pH measurement has been widely used in application areas such as sensors, pharmacy, food-processing, biotechnology and laboratories etc. This paper attempts to explore an application of CNFET-based current conveyor (CC-II) for the design of a pH-sensor interface. The second generation current conveyor (CC-II) is a very versatile active building block and attained special interest for current-mode circuits. Additionally, proposed circuit utilizes only active element and passive component with low supply voltage of ±0.7V and consumes only 131.5μW of power. HSPICE simulations with 32 nm CNFET model have been performed to test the validity of the design.

@inproceedings{
 title = {A Current-mode pH-Sensor Interface based on Carbon Nanotube Field Effect Transistor},
 type = {inproceedings},
 year = {2017},
 volume = {4},
 issue = {9},
 id = {bc9ec924-3749-3dd0-a390-17c27a2a4c32},
 created = {2018-09-06T11:22:40.645Z},
 file_attached = {false},
 profile_id = {11ae403c-c558-3358-87f9-dadc957bb57d},
 last_modified = {2018-09-06T11:22:40.645Z},
 read = {false},
 starred = {false},
 authored = {true},
 confirmed = {false},
 hidden = {false},
 private_publication = {false},
 abstract = {© 2017 Elsevier Ltd. The pH measurement has been widely used in application areas such as sensors, pharmacy, food-processing, biotechnology and laboratories etc. This paper attempts to explore an application of CNFET-based current conveyor (CC-II) for the design of a pH-sensor interface. The second generation current conveyor (CC-II) is a very versatile active building block and attained special interest for current-mode circuits. Additionally, proposed circuit utilizes only active element and passive component with low supply voltage of ±0.7V and consumes only 131.5μW of power. HSPICE simulations with 32 nm CNFET model have been performed to test the validity of the design.},
 bibtype = {inproceedings},
 author = {Tripathi, S.K. and Samar Ansari, M. and Joshi, A.M.},
 doi = {10.1016/j.matpr.2017.06.372},
 booktitle = {Materials Today: Proceedings}
}

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