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【期刊论文】Formation of nanostructured copper filaments in electrochemical deposition
王牧, Sheng Zhong, , Yuan Wang, Mu Wang, *, Min-Zhe Zhang, Xiao-Bo Yin, Ru-Wen Peng, and Nai-Ben Ming
PHYSICAL REVIEW E 67, 061601 (2003),-0001,():
-1年11月30日
In this paper, we report in detail the studies of a different self-organized copper electrodeposition carried out in an ultrathin layer of CuSO4 electrolyte. On a macroscopic scale, the morphology of the electrodeposit is fingerlike. Microscopically, each fingering branch consists of long, straight copper filaments with periodic corrugated nanostructures. Branching rate of the electrodeposit is significantly decreased, compared with the patterns grown in conventional systems. Detailed information of the growth environment in the ultrathin electrodeposition system is provided, the formation mechanism of the periodic nanostructures on the deposit filaments is explored, and the origin of the significant descent of branching rate of the electrodeposit is discussed.
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【期刊论文】Nanostructured Copper Filaments in Electrochemical Deposition
王牧, Mu Wang, *, Sheng Zhong, Xiao-Bo Yin, Jian-Ming Zhu, Ru-Wen Peng, Yuan Wang, Ke-Qin Zhang, and Nai-Ben Ming
,-0001,():
-1年11月30日
In this Letter we report a novel self-organized copper electrodeposition in an ultrathin layer of CuSO4 electrolyte. The macroscopic fingering branches of the deposit consist of long copper filaments covered with periodic corrugated nanostructures. The mechanism of the nanostructure formation is explored and the origin of the significant descent of the branching rate in electrodeposition is discussed. We suggest that this growth phenomenon provides deeper insights into the role of diffusion and migration on pattern formation in electrodeposition.
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【期刊论文】Surface-Tension-Gradient-Induced Pattern Formation in Monolayers
王牧, Mu Wang, , G. Wildburg, J.H. van Esch, P. Bennema, R.J.M. Note, and H. Rinsdorf
PHYSICAL REVIEW LETTERS VOLUME 71, NUMBER 24 13 DECEMBER 1993,-0001,():
-1年11月30日
A surface-tension-gradient-induced growth phenomenon is reported in lipid monolayer films. The sur-face tension gradient is introduced to the monolayer film by local, subtle heating using the microscope light. This surface tension gradient is responsible for compressing the illuminated area continuously and induces the growth of domains of liquid condensed phase. The evolution of morphology from fractal to faceted and then to dendritic patterns is investigated by in situ observations. The mechanism of pattern formation in this system is discussed.
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【期刊论文】Alternating Morphology Transitions in Electrochemical Deposition
王牧, Mu Wang and Nai-ben Ming
PHYSICAL REVIEW LETTERS VOLUME 71, NUMBER 1 5 JULY 1993,-0001,():
-1年11月30日
Alternating morphology transitions between dendrite and dense-branching morphology have been studied for the first time in electrochemical deposition of FeSO4 aqueous solution film. We suggest that the observed alternating transition is caused by the interchange of anisotropy in interfacial growth, which arises from the periodic accumulation and depletion of impurities in front of the growing interface in our experimental system. The selection problem In pattern formation is discussed.
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王牧, Da-Wei Li, †, Mu Wang, *, Peng Liu, ‡, Ru-Wen Peng, † and Nai-Ben Ming†
J. Phys. Chem. B 2003, 107, 96-101,-0001,():
-1年11月30日
In our previous work we demonstrated an unusual crystallite aggregate in which the crystallites correlate in crystallographic orientation and form a fractal pattern with strong anisotropy (Wang, M.; et al. Phys. Rev. Lett. 1998, 80, 3089. Liu, X. Y.; et al. J. Cryst. Growth 2000, 208, 687.). Yet it remains unanswered why each crystallite appears with specific orientation and obeys a strict order. Here we report an in-depth study of the origin of the long-range correlation of the crystallographic orientations in the aggregate investigated by means of micro-X-ray-diffraction, atomic force microscopy, and in-situ optical observation. The experimental data suggest that the topographic regularity of the aggregate arises from the consecutive rotation of the crystallographic orientation in the nucleation-mediated growth. This effect may occur when nucleation takes place in a region with inhomogeneous surface tension, and may help us to understand the long-range ordering effect in aggregating crystallites.
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