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Ultralow Contact Resistance in Two-Dimensional Semiconductor Transistors Approaching the Quantum Limit

Yu Shu, Naihua Miao, Siyu Han, Jian Zhou, Stephen R. Elliott, Zhimei Sun

2025Journal of the American Chemical Society8 citationsDOI

Abstract

The miniaturization of silicon-based integrated circuits is approaching its limits owing to strong quantum confinement and interfacial effects. Atomically thin, two-dimensional (2D) materials show great potential to break such a limit, but the realization of an ultralow contact resistance ( R C ) remains a key challenge because of natural van der Waals gaps in 2D semiconductors and weak interlayer coupling at the metal–semiconductor junction (MSJ) interface. Herein, we develop efficient strategies to tune R C and the Schottky barrier height (SBH) by combining high-throughput first-principles calculations and machine-learning techniques. Notably, we reveal that hydrogen-bonding interactions at the MSJ interface containing −OH functional groups significantly enhance metal/2D semiconductor coupling, leading to effective tunneling-barrier reduction and charge redistribution. Such interactions enable the formation of Ohmic contacts, yielding ultralow values of R C approaching the quantum limit. Through symbolic regression, we establish robust physical models by linking R C with critical properties, including SBH and the tunneling-specific resistivity. These findings provide critical insights and efficient approaches for designing next-generation transistor architectures with superior electrical-contact performance.

Topics & Concepts

Ohmic contactvan der Waals forceSemiconductorSchottky barrierChemistryMiniaturizationTransistorContact resistanceOptoelectronicsQuantumSchottky diodeNanotechnologyLimit (mathematics)Realization (probability)Electronic circuitField-effect transistorCoupling (piping)Integrated circuitInterface (matter)Condensed matter physicsSemiconductor deviceHeterojunctionCharge (physics)Quantum wireElectrical contactsOrganic semiconductorLogic gate2D Materials and ApplicationsGraphene research and applicationsElectronic and Structural Properties of Oxides
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