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Dive into the research topics where Z Huang is active.

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Featured researches published by Z Huang.


Chemical Physics Letters | 1995

Solid-state magnetic resonance study of KC60(THF)x

Jian Chen; Qian-Fen Shao; Z Huang; Ruifang Cai; Shiming Chen

Abstract Solid-state ESR and 13 C NMR spectra indicate that two electronic states of C 60 − exist in KC 60 (THF) x (0 x 2 A : (arising from the C 60 − … K + loose ion-pair) and 2 E (arising from the C 60 − K + (THF) tight ion-pair) states, originating from the splitting of the 2 T 1 u state induced by Jahn-Teller distortion.


Surface & Coatings Technology | 2002

Deposition of hydrocarbon molecules on diamond (001) surfaces: atomic scale modeling

Z Huang; Z.Y. Pan; Y.X. Wang; Aj J. Du

The impact induced chemisorption of hydrocarbon molecules (CH3 and CH2) on H-terminated diamond (001)-(2x1) surface was investigated by molecular dynamics simulation using the many-body Brenner potential. The deposition dynamics of the CH3 radical at impact energies of 0.1-50 eV per molecule was studied and the energy threshold for chemisorption was calculated. The impact-induced decomposition of hydrogen atoms and the dimer opening mechanism on the surface was investigated. Furthermore, the probability for dimer opening event induced by chemisorption of CH, was simulated by randomly varying the impact position as well as the orientation of the molecule relative to the surface. Finally, the energetic hydrocarbons were modeled, slowing down one after the other to simulate the initial fabrication of diamond-like carbon (DLC) films. The structure characteristic in synthesized films with different hydrogen flux was studied. Our results indicate that CH3, CH2 and H are highly reactive and important species in diamond growth. Especially, the fraction of C-atoms in the film having sp(3) hybridization will be enhanced in the presence of H atoms, which is in good agreement with experimental observations


Chemical Physics Letters | 2001

Impact induced chemisorption of C-20 isomers on diamond (001)-(2 x 1) surface

Aijun Du; Z.Y. Pan; Y.K. Ho; Z Huang; Z.X. Zhang; Y.X. Wang

The adsorption of low-energy C20 isomers on diamond (0 0 1)–(2×1) surface was investigated by molecular dynamics simulation using the Brenner potential. The energy dependence of chemisorption characteristic was studied. We found that there existed an energy threshold for chemisorption of C20 to occur. Between 10 and 20 eV, the C20 fullerene has high probability of chemisorption and the adsorbed cage retains its original structure, which supports the experimental observations of memory effects. However, the structures of the adsorbed bowl and ring C20 were different from their original ones. In this case, the local order in cluster-assembled films would be different from the free clusters.


Solid State Communications | 1995

Empirical correlation of 13C NMR chemical shift with orientational ordering in solid KnC60(THF)m(n=1-3)

Jian Chen; Z Huang; Rui-Fang Cai; Quian-Fen Shao; Hong-Juan Ye

Abstract K n C 60 (THF) m (n=1–3, m=n) have been prepared via solution-phase route. Variable temperature 13 C NMR data reveal that there exists a strong correlation of 13 C NMR chemical shift with the degree of orientational order of C 60 n in these materials. The implications of this observation to the origin of down-field chemical shifts (relative to neutral C 60 ) in fullerene anions are discussed briefly.


Solid State Communications | 1995

Solid-state magnetic resonance study of NaC60(THF)3

Jian Chen; Rui-Fang Cai; Z Huang; Qian-Fen Shao; Shiming Chen

Abstract NaC 60 (THF) 3 has been prepared via a new solution-phase route. The solid-state variable temperature ESR and 13 C NMR studies on NaC 60 (THF) 3 (in comparison with NaC 60 (THF) 5 ) suggest that the unusual down-field chemical shift in C 60 − ( relative to C 60 ) can be understood partially on the basis of Pasquarello et al s model.


Surface & Coatings Technology | 2002

Molecular dynamics simulation of structural characteristics in metal cluster deposition on surfaces

Y.X. Wang; Z.Y. Pan; Y Xu; Z Huang; Aijun Du; Y.K. Ho

The deposition of small metal clusters (Cu, Au and Al) on f.c.c. metals (Cu, Au and Ni) has been studied by molecular dynamics simulation using Finnis–Sinclair (FS) potential. The impact energy varied from 0.01 to 10 eV/atom. First, the deposition of single cluster was simulated. We observed that, even at much lower energy, a small cluster with (Ih) icosahedral symmetry was reconstructed to match the substrate structure (f.c.c.) after deposition. Next, clusters were modeled to drop, one after the other, on the surface. The nanostructure was found by soft landing of Au clusters on Cu with increasing coverage, where interfacial energy dominates. While at relatively higher deposition energy (a few eV), the ordered f.c.c.-like structure was observed in the first adlayer of the film formed by Al clusters depositing on Ni substrate. This characteristic is mainly attributive to the ballistic collision. Our results indicate that the surface morphology synthesized by cluster deposition could be controlled by experimental parameters, which will be helpful for controlled design of nanostructure.


International Journal of Modern Physics B | 2002

Growth of C-36-films on diamond surface through molecular dynamics simulation

Aijun Du; Z.Y. Pan; Z Huang; Zhen Li; Qingyi Wei; Ze Zhang

In this paper, the initial stage of films assembled by energetic C36 fullerenes on diamond (001)–(2 × 1) surface at low-temperature was investigated by molecular dynamics simulation using the Brenner potential. The incident energy was first uniformly distributed within an energy interval 20–50 eV, which was known to be the optimum energy range for chemisorption of single C36 on diamond (001) surface. More than one hundred C36 cages were impacted one after the other onto the diamond surface by randomly selecting their orientation as well as the impact position relative to the surface. The growth of films was found to be in three-dimensional island mode, where the deposited C36 acted as building blocks. The study of film morphology shows that it retains the structure of a free C36 cage, which is consistent with Low Energy Cluster Beam Deposition (LECBD) experiments. The adlayer is composed of many C36-monomers as well as the covalently bonded C36 dimers and trimers which is quite different from that of C20 fullerene-assembled film, where a big polymerlike chain was observed due to the stronger interaction between C20 cages. In addition, the chemisorption probability of C36 fullerenes is decreased with increasing coverage because the interaction between these clusters is weaker than that between the cluster and the surface. When the incident energy is increased to 40–65 eV, the chemisorption probability is found to increased and more dimers and trimers as well as polymerlike-C36 were observed on the deposited films. Furthermore, C36 film also showed high thermal stability even when the temperature was raised to 1500 K.


Journal of The Chemical Society, Chemical Communications | 1995

Isomerically pure organo[60]fullerenes from C602– salt: synthesis and characterization of 1-benzyl-2-hydro[60]fullerene

Jian Chen; Rui-Fang Cai; Z Huang; Hou-Ming Wu; Shao-Kai Jiang; Qian-Fen Shao

Isomerically pure 1-benzyl-2-hydro[60]fulierene is synthesized in 64% yield by the reaction of C602– potassium salt with benzyl chloride in THF at 50 °C.


Surface Science | 2002

Impact energy dependence of Al13 cluster deposition on Ni(0 0 1) surface

Y.X. Wang; Z.Y. Pan; Qingyi Wei; Aj J. Du; Z Huang; Y Xu; Y.K. Ho

In this paper, the influence of the impact energy on the initial fabrication of thin films formed by low energy cluster deposition was investigated by molecular dynamics simulation of All 3 clusters depositing on Ni(0 0 1) substrate. In the case of soft-landing, (0.01 eV/atom), clusters are rearranged from I-h symmetry into fcc-like clusters on the surface. Then they aggregate each other, which result in thin film growing in 3D island mode. While, growth will be in layer-by-layer mode at the impact energy of a few electron volt due to the transient lateral spread of cluster atoms induced by dense collision cascade. This effect has been traced to collision cascade inside the cluster. which is enhanced by collision with a hard Ni substrate


Surface & Coatings Technology | 2002

Molecular dynamics study of ‘contact epitaxy’ in Ag clusters supported on a copper (001) surface

Y.X. Wang; Z.Y. Pan; Y.K. Ho; Z Huang; Aijun Du; Qingyi Wei; Y Xu

In this paper, the formation of heteroepitaxial interfacial layers was investigated by molecular dynamics simulation of soft silver particles landing on the (001) surface of single-crystal copper. In our simulations, the clusters Ag13, Ag55, Ag147 and Ag688 were chosen as projectiles. A small cluster will rearrange into an f.c.c. structure when it is supported on the substrate, due to the large value of its surface/volume ratio. Contact epitaxy appeared in large clusters. The characteristic structure of an epitaxial layer in large silver cluster shows the 〈111〉 direction to be the preferential orientation of heteroepitaxial layers on the surface because of the lattice mismatch between the cluster and the substrate. This was confirmed by studying soft landing events in other systems (Au/Cu and Al/Ni).

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Aijun Du

Queensland University of Technology

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