Nanodiamonds for energy
NDs have been used in energy storage devices because of their high surface area, good mechanical properties, high chemical stability, and relatively high conductivity.
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Diamond nanowire beam energy storage system: can store 3 times
The researchers behind this study describe their proposed energy storage system as a bundle of diamond nanowires, which are tiny structures that materials scientists have been exploring for some
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High-flux, low-power | Harvard Office of Technology Development
The laboratory of Marko Loncar has demonstrated a single-photon source composed of a nitrogen vacancy center in a diamond nanowire, which produces ten times greater flux than bulk diamond
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Hydrogenation of diamond nanowire surfaces for
This study demonstrates the potential importance of a simple hydrogenation process in effective electrostatic charge trapping and storage for diamond
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Diamond related materials for energy storage and conversion
Its structure, surface groups, and electrical conductivity are also tunable, increasing its functional versatility. These make diamond and its related materials, such as its composites, highly
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Diamond nanowire forest decorated with nickel hydroxide as a
Pseudocapacitive materials exhibit high energy storage, but their energy release is slow. In this paper we aim at solving this problem by using diamond-nickel hydroxide composite wires as a
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Australia proposes diamond nanowire design, which will bring a new
Scientists at Queensland University of Technology''s (QUT) Centre for Materials Science have published a new research paper in Nature Communications, proposing the use of diamond nanowires (DNTs)
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Single-Crystal Diamond Nanowires Embedded with Platinum
Inheriting the intrinsic properties of bulk diamond, such as its high breakdown field strength, thermal stability, and high displacement energy, the nanowire photodetector is expected to remain
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Nanowire Energy Storage Devices: Synthesis, Characterization,
t spots for scientists in recent years because of their unique advantages. Prof. Mai from Wuhan University of Technology and his team designed and assembled the first single NW electrochem-ical
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