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Direct growth of single-crystalline III–V semiconductors on amorphous substrates

Growth of high-quality III–V semiconductors for electronics and optoelectronics usually requires an atomic-lattice matched substrate. Here, the authors use templated liquid-phase crystal growth to create single-crystalline III–V material up to ten micrometres across on an amorphous substrate.

Kevin Chen
Rehan Kapadia
Ali Javey
ResearchOpen Access27 Jan 2016
Nature Communications

Volume: 7, P: 1-6
Evaporated tellurium thin films for p-type field-effect transistors and circuits

Tellurium thin films thermally evaporated at cryogenic temperatures enable the fabrication of high-performance wafer-scale p-type field-effect transistors and three-dimensional circuits.

Chunsong Zhao
Chaoliang Tan
Ali Javey
Research16 Dec 2019
Nature Nanotechnology

Volume: 15, P: 53-58
Large-area and bright pulsed electroluminescence in monolayer semiconductors

Atomically thin monolayers with high photoluminescence quantum yield are promising for optoelectronic and lighting applications. Here, the authors fabricate a transient-mode electroluminescent device to bypass the requirement of ohmic contacts for electrons and holes, and observe millimetre-scale light emission from a transparent 2D display.

Der-Hsien Lien
Matin Amani
Ali Javey
ResearchOpen Access26 Mar 2018
Nature Communications

Volume: 9, P: 1-7
Strain and structure heterogeneity in MoS₂ atomic layers grown by chemical vapour deposition

Large-size monolayer molybdenum disulfide (MoS₂) has recently been produced via chemical vapour deposition (CVD), yet its structures and physical properties are yet to be fully explored. Here, the authors study the growth-induced strain in CVD-grown MoS₂ and strain-based bandgap engineering of MoS₂.

Zheng Liu
Matin Amani
Jun Lou
Research18 Nov 2014
Nature Communications

Volume: 5, P: 1-9
Polarization-resolved black phosphorus/molybdenum disulfide mid-wave infrared photodiodes with high detectivity at room temperature

Black phosphorus/molybdenum disulfide mid-wave infrared photodiodes with external quantum efficiencies of 35% across 2.5–3.5 μm at room temperature and a peak detectivity of 1.1 × 10¹⁰ cm Hz^1/2 W^–1 at 3.8 μm are demonstrated.

James Bullock
Matin Amani
Ali Javey
Research27 Aug 2018
Nature Photonics

Volume: 12, P: 601-607
Strain-engineered growth of two-dimensional materials

Strain engineering is an essential tool for modifying local electronic properties in silicon-based electronics. Here, Ahn et al. demonstrate control of biaxial strain in two-dimensional materials based on the growth substrate, enabling more complex low-dimensional electronics.

Geun Ho Ahn
Matin Amani
Ali Javey
ResearchOpen Access20 Sept 2017
Nature Communications

Volume: 8, P: 1-8
Strong optical response and light emission from a monolayer molecular crystal

The optical response of inorganic two-dimensional semiconductors is dominated by Wannier-Mott excitons, but molecular systems can host localised Frenkel excitons. Here, the authors report strong optical response in a class of monolayer molecular J-aggregates due to the coherent Coulomb interaction between localised Frenkel excitons.

Huijuan Zhao
Yingbo Zhao
Xinran Wang
ResearchOpen Access06 Dec 2019
Nature Communications

Volume: 10, P: 1-9
Defective TiO₂ with high photoconductive gain for efficient and stable planar heterojunction perovskite solar cells

Perovskite-based photovoltaics have already reached high efficiency levels but their stability under operating conditions remains a challenge. Here, Li et al. use defective TiO₂with reduced photocatalytic efficiency to increase the stability of high efficiency solar cells under illumination

Yanbo Li
Jason K. Cooper
Ian D. Sharp
ResearchOpen Access18 Aug 2016
Nature Communications

Volume: 7, P: 1-7

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