Steep Slope Field Effect Transistors Based on 2D Materials

Qin, Laixiang; Tian, He; Li, Chunlai; Xie, Ziang; Wei, Yiqun; Li, Yi; He, Jin; Yue, Yutao; Ren, Tian‐Ling

doi:10.1002/aelm.202300625

Adv Elect Materials

2024

DOI: 10.1002/aelm.202300625

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Steep Slope Field Effect Transistors Based on 2D Materials

Laixiang Qin,

He Tian,

Chunlai Li

et al.

Abstract: With field effect transistor (FET) sustained to downscale to sub‐10 nm nodes, performance degradation originates from short channel effects (SCEs) degradation and power consumption increment attributed to inhibition of supply voltage (VDD) scaling down proportionally caused by thermionic limit subthreshold swing (SS) (60 mV dec−1) pose substantial challenges for today's semiconductor industry. To further sustain the Moore's law life, incorporation of new device concepts or new materials are imperative. 2D mate… Show more

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Cited by 2 publications

References 149 publications

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The geometric structure and electronic properties of van der Waals C-Borophane/h-BC6N/Graphene heterostructure: A first-principles study

Abbasi,

Horri,

Faez

2025

Physica B: Condensed Matter

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The geometric structure and electronic properties of van der Waals C-Borophane/h-BC6N/Graphene heterostructure: A first-principles study

Abbasi,

Horri,

Faez

2025

Physica B: Condensed Matter

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Sub-1K Cold-Electron Quantum Well Switching at Room Temperature

Martinez,

Gothe,

Liou

et al. 2024

Nano Lett.

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Quantum states can provide means to systematically manipulate the transport of electrons. Here we present electron transport across quasi-bound states of two heterogeneous quantum wells (QWs), where the transport of thermally excited electrons is blocked or enabled depending on the relative positions of the two quasi-bound states, with an abrupt current onset occurring when the two QW states align. The QW switch comprises a source (Cr), QW1 (Cr 2 O 3 ), QW2 (SnO x , x < 2), a tunneling barrier (SiO 2 ), and a drain (Si), where the effective electron mass of QW1 (m* QW1 ) is selected to be larger than QW2 (m* QW2 ). The current−voltage (I−V) measurements of the fabricated devices show abrupt current onsets, with the current transition occurring within 0.25 mV, corresponding to an effective electron temperature of 0.8 K at room temperature. Since transistor power consumption is fundamentally tied to effective electron temperature, this sub-1K cold-electron QW switching holds promise for highly energy-efficient computing.

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Steep Slope Field Effect Transistors Based on 2D Materials

Cited by 2 publications

References 149 publications

The geometric structure and electronic properties of van der Waals C-Borophane/h-BC6N/Graphene heterostructure: A first-principles study

The geometric structure and electronic properties of van der Waals C-Borophane/h-BC6N/Graphene heterostructure: A first-principles study

Sub-1K Cold-Electron Quantum Well Switching at Room Temperature

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