TY - JOUR
T1 - Rational Design of a Planar Junctionless Field-Effect Transistor for Sensing Biomolecular Interactions
AU - Shukla, Rajendra Prasad
AU - Bomer, Johan G.
AU - Wijnperle, Daniël
AU - Kumar, Naveen
AU - El Maiss, Janwa
AU - Balahkrishnan, Divya
AU - Singh, Aruna
AU - Georgiev, Vihar
AU - Pascual-García, César
AU - Krishnamoorthy, Sivashankar
AU - Pud, Sergii
PY - 2024/12/3
Y1 - 2024/12/3
N2 - In the ElectroMed project, we are interested in screening certain peptide sequences for their ability to selectively interact with antibodies or MHC proteins. This poses a combinatorial challenge that requires a highly multiplexed setup of label-free immunosensors. Label-free FET-based immunosensors are good candidates due to their high multiplexing capability and fast response time. Nanowire-based FET sensors have shown high sensitivity but are unreliable for clinical applications due to drift and gate stability issues. To address this, a label-free immuno-FET architecture based on planar junctionless FET devices is proposed. This geometry can improve the signal-to-noise ratio due to its larger planar structure, which is less prone to defects that cause noise and is better suited to the functionalization of different receptor molecules.
AB - In the ElectroMed project, we are interested in screening certain peptide sequences for their ability to selectively interact with antibodies or MHC proteins. This poses a combinatorial challenge that requires a highly multiplexed setup of label-free immunosensors. Label-free FET-based immunosensors are good candidates due to their high multiplexing capability and fast response time. Nanowire-based FET sensors have shown high sensitivity but are unreliable for clinical applications due to drift and gate stability issues. To address this, a label-free immuno-FET architecture based on planar junctionless FET devices is proposed. This geometry can improve the signal-to-noise ratio due to its larger planar structure, which is less prone to defects that cause noise and is better suited to the functionalization of different receptor molecules.
U2 - 10.3390/proceedings2024097121
DO - 10.3390/proceedings2024097121
M3 - Conference article
SN - 2504-3900
VL - 97
JO - Proceedings (MDPI)
JF - Proceedings (MDPI)
IS - 1
M1 - 121
T2 - Eurosensors XXXV 2023
Y2 - 10 September 2023 through 13 September 2023
ER -