Hai Li scite author profile

A new phototransistor based on the mechanically exfoliated single-layer MoS(2) nanosheet is fabricated, and its light-induced electric properties are investigated in detail. Photocurrent generated from the phototransistor is solely determined by the illuminated optical power at a constant drain or gate voltage. The switching behavior of photocurrent generation and annihilation can be completely finished within ca. 50 ms, and it shows good stability. Especially, the single-layer MoS(2) phototransistor exhibits a better photoresponsivity as compared with the graphene-based device. The unique characteristics of incident-light control, prompt photoswitching, and good photoresponsivity from the MoS(2) phototransistor pave an avenue to develop the single-layer semiconducting materials for multifunctional optoelectronic device applications in the future.

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The Human Brainnetome Atlas: A New Brain Atlas Based on Connectional Architecture

Fan¹,

Li²,

et al. 2016

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The human brain atlases that allow correlating brain anatomy with psychological and cognitive functions are in transition from ex vivo histology-based printed atlases to digital brain maps providing multimodal in vivo information. Many current human brain atlases cover only specific structures, lack fine-grained parcellations, and fail to provide functionally important connectivity information. Using noninvasive multimodal neuroimaging techniques, we designed a connectivity-based parcellation framework that identifies the subdivisions of the entire human brain, revealing the in vivo connectivity architecture. The resulting human Brainnetome Atlas, with 210 cortical and 36 subcortical subregions, provides a fine-grained, cross-validated atlas and contains information on both anatomical and functional connections. Additionally, we further mapped the delineated structures to mental processes by reference to the BrainMap database. It thus provides an objective and stable starting point from which to explore the complex relationships between structure, connectivity, and function, and eventually improves understanding of how the human brain works. The human Brainnetome Atlas will be made freely available for download at , so that whole brain parcellations, connections, and functional data will be readily available for researchers to use in their investigations into healthy and pathological states.

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Ethylene Biosynthesis and Signaling Networks

2002

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Fabrication of Single‐ and Multilayer MoS₂ Film‐Based Field‐Effect Transistors for Sensing NO at Room Temperature

Yin

et al. 2011

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1,431

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Single- and multilayer MoS(2) films are deposited onto Si/SiO(2) using the mechanical exfoliation technique. The films were then used for the fabrication of field-effect transistors (FETs). These FET devices can be used as gas sensors to detect nitrous oxide (NO). Although the single-layer MoS(2) device shows a rapid response after exposure to NO, the current was found to be unstable. The two-, three-, and four-layer MoS(2) devices show both stable and sensitive responses to NO down to a concentration of 0.8 ppm.

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Single-Layer MoS₂-Based Nanoprobes for Homogeneous Detection of Biomolecules

et al. 2013

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Hai Li

Single-Layer MoS₂Phototransistors

The Human Brainnetome Atlas: A New Brain Atlas Based on Connectional Architecture

Ethylene Biosynthesis and Signaling Networks

Fabrication of Single‐ and Multilayer MoS₂ Film‐Based Field‐Effect Transistors for Sensing NO at Room Temperature

Single-Layer MoS₂-Based Nanoprobes for Homogeneous Detection of Biomolecules

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About

Hai Li

Single-Layer MoS2Phototransistors

The Human Brainnetome Atlas: A New Brain Atlas Based on Connectional Architecture

Ethylene Biosynthesis and Signaling Networks

Fabrication of Single‐ and Multilayer MoS2 Film‐Based Field‐Effect Transistors for Sensing NO at Room Temperature

Single-Layer MoS2-Based Nanoprobes for Homogeneous Detection of Biomolecules

Contact Info

Product

Resources

About

Single-Layer MoS₂Phototransistors

Fabrication of Single‐ and Multilayer MoS₂ Film‐Based Field‐Effect Transistors for Sensing NO at Room Temperature

Single-Layer MoS₂-Based Nanoprobes for Homogeneous Detection of Biomolecules