(Invited, Digital Presentation) Super-Nernstian Isfet Combining Two-Dimensional WSe₂/MoS₂ Heterostructure with Negative Capacitance

Abstract: Ion-sensitive field-effect transistors (ISFETs) are quite popular as compact, low-cost biosensors with fast response time and label-free detection1. They can be used as pH sensors or functionalized for complex biomolecule detection. The voltage sensitivity (Sv) in classical ISFETs is fundamentally limited to 59 mV/pH (Nernst limit). Surpassing the Nernst limit requires complex device architectures or novel transport phenomena. Sensitivity beyond the Nernst limit can be achieved using specific device architectu… Show more

“…Amplifying the gate voltage applied to the channel by biorecognition events is an interesting strategy which can be achieved with NC-FETs. , NC-FETs will require ferroelectric/dielectric heterostructures such as HfZrO 2 /Al 2 O 3 or SrTiO 3 /PbTiO 3 and was recently demonstrated in WSe 2 /MoS 2 ion sensitive field-effect transistors where the sensitivity to solution pH was improved from the 59 mVpH –1 theoretical maximum to 362 mVpH –1 . Simulations showed that the addition of a negative capacitance Al-doped HfO 2 top-gate stack improved the voltage sensitivity by ∼100 mVpH –1 (Figure c) . NC bio-FETs are in the nascent stage of development and are an interesting avenue to improve device sensitives beyond current limitations.…”

“…Copyright 2014 Springer Nature. (c) Reprinted with permission from ref . Copyright 2022 IOP publishing.…”

“…335 Simulations showed that the addition of a negative capacitance Al-doped HfO 2 topgate stack improved the voltage sensitivity by ∼100 mVpH −1 (Figure 8c). 322 NC bio-FETs are in the nascent stage of development and are an interesting avenue to improve device sensitives beyond current limitations.…”

Dielectrics for Two-Dimensional Transition-Metal Dichalcogenide Applications

“…Amplifying the gate voltage applied to the channel by biorecognition events is an interesting strategy which can be achieved with NC-FETs. , NC-FETs will require ferroelectric/dielectric heterostructures such as HfZrO 2 /Al 2 O 3 or SrTiO 3 /PbTiO 3 and was recently demonstrated in WSe 2 /MoS 2 ion sensitive field-effect transistors where the sensitivity to solution pH was improved from the 59 mVpH –1 theoretical maximum to 362 mVpH –1 . Simulations showed that the addition of a negative capacitance Al-doped HfO 2 top-gate stack improved the voltage sensitivity by ∼100 mVpH –1 (Figure c) . NC bio-FETs are in the nascent stage of development and are an interesting avenue to improve device sensitives beyond current limitations.…”

“…Copyright 2014 Springer Nature. (c) Reprinted with permission from ref . Copyright 2022 IOP publishing.…”

“…335 Simulations showed that the addition of a negative capacitance Al-doped HfO 2 topgate stack improved the voltage sensitivity by ∼100 mVpH −1 (Figure 8c). 322 NC bio-FETs are in the nascent stage of development and are an interesting avenue to improve device sensitives beyond current limitations.…”

Dielectrics for Two-Dimensional Transition-Metal Dichalcogenide Applications