Muharrem Acerce scite author profile

Efficient intercalation of ions in layered materials forms the basis of electrochemical energy storage devices such as batteries and capacitors. Recent research has focused on the exfoliation of layered materials and then restacking the two-dimensional exfoliated nanosheets to form electrodes with enhanced electrochemical response. Here, we show that chemically exfoliated nanosheets of MoS2 containing a high concentration of the metallic 1T phase can electrochemically intercalate ions such as H(+), Li(+), Na(+) and K(+) with extraordinary efficiency and achieve capacitance values ranging from ∼400 to ∼700 F cm(-3) in a variety of aqueous electrolytes. We also demonstrate that this material is suitable for high-voltage (3.5 V) operation in non-aqueous organic electrolytes, showing prime volumetric energy and power density values, coulombic efficiencies in excess of 95%, and stability over 5,000 cycles. As we show by X-ray diffraction analysis, these favourable electrochemical properties of 1T MoS2 layers are mainly a result of their hydrophilicity and high electrical conductivity, as well as the ability of the exfoliated layers to dynamically expand and intercalate the various ions.

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Metallic molybdenum disulfide nanosheet-based electrochemical actuators

Acerce

Akdoğan

Chhowalla

2017

Nature

240

203

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Solution‐Processed MoS₂/Organolead Trihalide Perovskite Photodetectors

et al. 2016

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Metallic 1T phase source/drain electrodes for field effect transistors from chemical vapor deposited MoS2

et al. 2014

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Two dimensional transition metal dichalcogenides (2D TMDs) offer promise as opto-electronic materials due to their direct band gap and reasonably good mobility values. However, most metals form high resistance contacts on semiconducting TMDs such as MoS2. The large contact resistance limits the performance of devices. Unlike bulk materials, low contact resistance cannot be stably achieved in 2D materials by doping. Here we build on our previous work in which we demonstrated that it is possible to achieve low contact resistance electrodes by phase transformation. We show that similar to the previously demonstrated mechanically exfoliated samples, it is possible to decrease the contact resistance and enhance the FET performance by locally inducing and patterning the metallic 1T phase of MoS2 on chemically vapor deposited material. The device properties are substantially improved with 1T phase source/drain electrodes.

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Chemical Vapor Deposition of Boron Nitride Nanosheets on Metallic Substrates via Decaborane/Ammonia Reactions

et al. 2011

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Muharrem Acerce

Metallic 1T phase MoS2 nanosheets as supercapacitor electrode materials

Metallic molybdenum disulfide nanosheet-based electrochemical actuators

Solution‐Processed MoS₂/Organolead Trihalide Perovskite Photodetectors

Metallic 1T phase source/drain electrodes for field effect transistors from chemical vapor deposited MoS2

Chemical Vapor Deposition of Boron Nitride Nanosheets on Metallic Substrates via Decaborane/Ammonia Reactions

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Muharrem Acerce

Metallic 1T phase MoS2 nanosheets as supercapacitor electrode materials

Metallic molybdenum disulfide nanosheet-based electrochemical actuators

Solution‐Processed MoS2/Organolead Trihalide Perovskite Photodetectors

Metallic 1T phase source/drain electrodes for field effect transistors from chemical vapor deposited MoS2

Chemical Vapor Deposition of Boron Nitride Nanosheets on Metallic Substrates via Decaborane/Ammonia Reactions

Contact Info

Product

Resources

About

Solution‐Processed MoS₂/Organolead Trihalide Perovskite Photodetectors