Sensors based upon nanowires, nanotubes, and nanoribbons: 2016–2020
JM Ziegler, I Andoni, EJ Choi, L Fang… - Analytical …, 2020 - ACS Publications
An emerging subfield of chemical and bioanalytical analysis involving the development of
sensors based upon onedimensional (1D) conductors was supercharged in 2000 by Dai …
sensors based upon onedimensional (1D) conductors was supercharged in 2000 by Dai …
Metal-oxide FET biosensor for point-of-care testing: overview and perspective
Metal-oxide semiconducting materials are promising for building high-performance field-
effect transistor (FET) based biochemical sensors. The existence of well-established top …
effect transistor (FET) based biochemical sensors. The existence of well-established top …
High-performance thin-film transistors with an atomic-layer-deposited indium gallium oxide channel: A cation combinatorial approach
HJ Yang, HJ Seul, MJ Kim, Y Kim, HC Cho… - … applied materials & …, 2020 - ACS Publications
The effect of gallium (Ga) concentration on the structural evolution of atomic-layer-deposited
indium gallium oxide (IGO)(In1–x Ga x O) films as high-mobility n-channel semiconducting …
indium gallium oxide (IGO)(In1–x Ga x O) films as high-mobility n-channel semiconducting …
Detecting DNA and RNA and differentiating single-nucleotide variations via field-effect transistors
We detect short oligonucleotides and distinguish between sequences that differ by a single
base, using label-free, electronic field-effect transistors (FETs). Our sensing platform utilizes …
base, using label-free, electronic field-effect transistors (FETs). Our sensing platform utilizes …
Phenylalanine monitoring via aptamer-field-effect transistor sensors
Determination of the amino acid phenylalanine is important for lifelong disease
management in patients with phenylketonuria, a genetic disorder in which phenylalanine …
management in patients with phenylketonuria, a genetic disorder in which phenylalanine …
Flexible multiplexed In2O3 nanoribbon aptamer-field-effect transistors for biosensing
Flexible sensors are essential for advancing implantable and wearable bioelectronics
toward monitoring chemical signals within and on the body. Developing biosensors for …
toward monitoring chemical signals within and on the body. Developing biosensors for …
Narrower nanoribbon biosensors fabricated by chemical lift-off lithography show higher sensitivity
Wafer-scale nanoribbon field-effect transistor (FET) biosensors fabricated by straightforward
top-down processes are demonstrated as sensing platforms with high sensitivity to a broad …
top-down processes are demonstrated as sensing platforms with high sensitivity to a broad …
Highly effective and efficient self-assembled multilayer-based electrode passivation for operationally stable and reproducible electrolyte-gated transistor biosensors
Y Song, JY Song, JE Shim, DH Kim… - … Applied Materials & …, 2023 - ACS Publications
To ensure the operational stability of transistor-based biosensors in aqueous electrolytes
during multiple measurements, effective electrode passivation is crucially important for …
during multiple measurements, effective electrode passivation is crucially important for …
Improvement in performance of indium gallium oxide thin film transistor via oxygen mediated crystallization at a low temperature of 200° C
We report the fabrication of high-performance polycrystalline indium gallium oxide (IGO) thin
film transistors (TFTs) at a low temperature of 200° C. Growth of a highly aligned cubic …
film transistors (TFTs) at a low temperature of 200° C. Growth of a highly aligned cubic …
Influence of indium doping on electrical performance of gallium oxide thin-film transistors
L Ji, X Chen, X Su, J Wan, Z Tu, H Wu, C Liu - Applied Physics Letters, 2023 - pubs.aip.org
In the field of oxide semiconductor thin-film transistors (TFTs), the occurrence of charge
trapping in the gate dielectric and interfaces presents significant challenges to their …
trapping in the gate dielectric and interfaces presents significant challenges to their …