Yung-Ying Liu scite author profile

Nanoparticulate platinum (Pt) has been well dispersed onto a three-dimensional carbon framework, consisting of carbon nanotubes (CNTs) and graphene oxide (GO) sheets, through an atomic layer deposition (ALD) route. One liquid-phase homogenizing process is capable of inserting a number of CNTs into the interspacing of GO sheets, forming the CNT#GO hybrid. Two types of ALD precursors, methylcyclopentadienyl-(trimethyl) platinum and oxygen were used to grow Pt deposits at 250 °C. The ALD cycle number acts as a key parameter in affecting the growth of Pt into the CNT#GO framework, showing growth rates of 0.054 nm cycle −1 and 0.00081 mg cm −2 cycle −1 for particle size and weight loading, respectively. The particle size of as-grown Pt deposits exhibits an increase from 2.27 to 12.32 nm within 50−200 ALD cycles. Single-stack cell test confirms the novel design of Pt catalyst electrodes with ultralow Pt loading displaying a superior catalytic activity, showing a promising feasibility for application in fuel cells.

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Fabrication of platinum electrocatalysts on carbon nanotubes using atomic layer deposition for proton exchange membrane fuel cells

Shu

Liao

Hsieh

et al. 2012

Electrochimica Acta

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Electrochemical activity and durability of Pt–Sn alloys on carbon-based electrodes prepared by microwave-assisted synthesis

Hsieh

Liu

Chen

et al. 2011

International Journal of Hydrogen Energy

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Microwave-assisted synthesis and pulse electrodeposition of palladium nanocatalysts on carbon nanotube-based electrodes

Hsieh

Liu

Cheng

et al. 2011

Electrochimica Acta

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Yung-Ying Liu

Pulse electrodeposited Pd nanoclusters on graphene-based electrodes for proton exchange membrane fuel cells

Atomic Layer Deposition of Platinum Nanocatalysts onto Three-Dimensional Carbon Nanotube/Graphene Hybrid

Fabrication of platinum electrocatalysts on carbon nanotubes using atomic layer deposition for proton exchange membrane fuel cells

Electrochemical activity and durability of Pt–Sn alloys on carbon-based electrodes prepared by microwave-assisted synthesis

Microwave-assisted synthesis and pulse electrodeposition of palladium nanocatalysts on carbon nanotube-based electrodes

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