W. H. Zhang scite author profile

W. H. Zhang

3Publications

67Citation Statements Received

41Citation Statements Given

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Xiamen University, Sun Yat-sen University

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Surface characterization on graphitization of nanodiamond powder annealed in nitrogen ambient

Xie

Gong

et al. 2010

Surface & Interface Analysis

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A nanodiamond thin film is deposited on a single crystal silicon substrate by dip-coating technique. Surface characterization of the unannealed nanodiamond sample, and the samples annealed at various temperatures in nitrogen ambient, is conducted by XPS and Raman spectroscopy. The fitting data of the C1s core level XPS peak reveal that the sp 2 /sp 3 ratio in the unannealed sample and the sample annealed at 900• C and 1500• C are 0.44, 0.55 and 6.08 respectively. All spectra including the C1s core level XPS spectrum, the plasmon energy-loss spectrum associated with C1s peak, C KVV Auger spectrum of the sample annealed at 900• C are similar to those of the unannealed sample. However, the spectra of the sample annealed at 1500• C are very different. Annealing at 900• C fails to produce appreciable graphitization, and an onion-like carbon structure with a small diamond core is formed when the nanodiamond is heated to 1500• C. Copyright c 2010 John Wiley & Sons, Ltd.Keywords: X-ray photoelectron spectroscopy (XPS); Raman spectroscopy; nanodiamond; sp 2 -hybridised; sp 3 -hybridised IntroductionNanodiamond is a potential cold cathode material in the electron field emission process [1,2] and has potential application in vacuum micro-and nanoelectronic devices. [3] The unique properties of nanodiamond are directly related to the microscopic structure, elemental and carbon bonding structure. [4] It is well known that the structure property of carbon material is determined by the sp 2 /sp 3 bonding ratio. Thermoannealing is an effective method to alter the structure of carbon material.[5] High-temperature annealing not only varies the chemical bonding structure of carbon material but also affects its field emission property. [6,7] The formation of a large fraction of sp 2 bonding carbon in the DLC film plays an important role in the enhancement of field emission property. [6] So far, in order to characterize carbon materials, a correct estimate of the abundance of sp 2 -hybridised atoms is of extraordinary importance. Raman spectroscopy can be used to identify sp 2 and sp 3 hybrids in C-based material owing its high sensitivity to light scattering. However, Raman technique has a poor capability in quantitative analysis. XPS can be used to estimate the fraction of sp 2 -hybridised atoms in carbonaceous materials. [8,9] XPS is a surface analytical technique which provides both chemical and binding information for a variety of materials. For carbon materials, the C 1s core energy level at around 280-290 eV, [10] the plasmon-loss energy at around 0-60 eV relative to C1s main peak [11] and the X-ray-excited Auger peaks at higher binding energy [11] all give phase information on the carbon present. Fitting the C1s core level peak is a common method used to quantify the sp 2 hybrids in C-based material. The C1s photoelectrons whose loss features reflects the different bond organization, and the Auger region whose width is correlated to the amount of sp 2 hybridised C-atoms. [12] In this paper, the unannealed nanodiamond sample a...

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Shear Wave in Glutin as a Soft Matter

Zhang

2003

Int. J. Mod. Phys. B

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This paper focuses on the function between the internal friction and frequency in soft matters. It attempts to prove that the shear wave can interact with microstructure units of certain sizes in soft matters. The specimen used in our experiment is glutin. Using the apparatus 1 developed by ourselves, we get the frequency spectrum of glutin, and point out that the spectrum is an inherent physical property of the substance.

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Interdiffusion and Atomic Mobilities Studies in Ni-Rich fcc Ni-Ti-V Alloys

Wang

Zhang

et al. 2023

J. Phase Equilib. Diffus.

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W. H. Zhang

Surface characterization on graphitization of nanodiamond powder annealed in nitrogen ambient

Shear Wave in Glutin as a Soft Matter

Interdiffusion and Atomic Mobilities Studies in Ni-Rich fcc Ni-Ti-V Alloys

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