Jae-Hyun Yang scite author profile

unlike graphene, the existence of bandgaps (1-2 eV) in the layered semiconductor molybdenum disulphide, combined with mobility enhancement by dielectric engineering, offers an attractive possibility of using single-layer molybdenum disulphide field-effect transistors in low-power switching devices. However, the complicated process of fabricating single-layer molybdenum disulphide with an additional high-k dielectric layer may significantly limit its compatibility with commercial fabrication. Here we show the first comprehensive investigation of processfriendly multilayer molybdenum disulphide field-effect transistors to demonstrate a compelling case for their applications in thin-film transistors. our multilayer molybdenum disulphide field-effect transistors exhibited high mobilities ( > 100 cm 2 V − 1 s − 1 ), near-ideal subthreshold swings (~70 mV per decade) and robust current saturation over a large voltage window. With simulations based on shockley's long-channel transistor model and calculations of scattering mechanisms, these results provide potentially important implications in the fabrication of highresolution large-area displays and further scientific investigation of various physical properties expected in other layered semiconductors.

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Reprogramming to recover youthful epigenetic information and restore vision

Brommer

Tian

et al. 2020

Nature

557

513

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Ageing is a degenerative process that leads to tissue dysfunction and death. A proposed cause of ageing is the accumulation of epigenetic noise that disrupts gene expression patterns, leading to decreases in tissue function and regenerative capacity 1 – 3 . Changes to DNA methylation patterns over time form the basis of ageing clocks 4 , but whether older individuals retain the information needed to restore these patterns—and, if so, whether this could improve tissue function—is not known. Over time, the central nervous system (CNS) loses function and regenerative capacity 5 – 7 . Using the eye as a model CNS tissue, here we show that ectopic expression of Oct4 (also known as Pou5f1), Sox2 and Klf4 genes (OSK) in mouse retinal ganglion cells restores youthful DNA methylation patterns and transcriptomes, promotes axon regeneration after injury, and reverses vision loss in a mouse model of glaucoma and in aged mice. The beneficial effects of OSK-induced reprogramming in axon regeneration and vision require the DNA demethylases TET1 and TET2. These data indicate that mammalian tissues retain a record of youthful epigenetic information—encoded in part by DNA methylation—that can be accessed to improve tissue function and promote regeneration in vivo.

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Loss of epigenetic information as a cause of mammalian aging

Yang

Hayano

Griffin

et al. 2023

Cell

318

205

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Improved Growth Behavior of Atomic-Layer-Deposited High-k Dielectrics on Multilayer MoS₂ by Oxygen Plasma Pretreatment

Yang

Kim

Choi

et al. 2013

ACS Appl. Mater. Interfaces

178

179

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We report on the effect of oxygen plasma treatment of two-dimensional multilayer MoS2 crystals on the subsequent growth of Al2O3 and HfO2 films, which were formed by atomic layer deposition (ALD) using trimethylaluminum and tetrakis-(ethylmethylamino)hafnium metal precursors, respectively, with water oxidant. Due to the formation of an ultrathin Mo-oxide layer on the MoS2 surface, the surface coverage of Al2O3 and HfO2 films was significantly improved compared to those on pristine MoS2, even at a high ALD temperature. These results indicate that the surface modification of MoS2 by oxygen plasma treatment can have a major impact on the subsequent deposition of high-k thin films, with important implications on their integration in thin film transistors.

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Jae-Hyun Yang

High-mobility and low-power thin-film transistors based on multilayer MoS2 crystals

Reprogramming to recover youthful epigenetic information and restore vision

Loss of epigenetic information as a cause of mammalian aging

Improved Growth Behavior of Atomic-Layer-Deposited High-k Dielectrics on Multilayer MoS₂ by Oxygen Plasma Pretreatment

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About

Jae-Hyun Yang

High-mobility and low-power thin-film transistors based on multilayer MoS2 crystals

Reprogramming to recover youthful epigenetic information and restore vision

Loss of epigenetic information as a cause of mammalian aging

Improved Growth Behavior of Atomic-Layer-Deposited High-k Dielectrics on Multilayer MoS2 by Oxygen Plasma Pretreatment

Contact Info

Product

Resources

About

Improved Growth Behavior of Atomic-Layer-Deposited High-k Dielectrics on Multilayer MoS₂ by Oxygen Plasma Pretreatment