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Chemicals, plastics and rubber industries

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Nanorod-direct oriented attachment growth and promoted crystallization processes evidenced in case of ZnWO4

Article Abstract:

An attempt made to identify that well-crystallized ZnWO4 nanorods can direct the self-aggregation of the amorphous nanoparticulates and promote the crystallization is reported. Further, the transformation of the amorphous nanoparticles derived from a simple supersaturation precipitation reaction in a nanorods/amorphous nanoparticle coexisting system under either refluxing conditions or mild hydrothermal conditions are presented.

Author: Biao Liu, Shu-Hong Yu, Linjie Li, Fen Zhang, Qiao Zhang, Yoshimura, Masahiro, Shen, Peikang
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
Crystallization

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Protein driven patterning of self-assembled cubosomic nanostructures: Long oriented nanoridges

Article Abstract:

Freeze-fracture electron microscopy (FF-EM) and synchrotron X-ray diffraction (XRD) were used to generate and examine self-assembled lipid/protein cubosomic nanostructures at high hydration level. The smallest building block of the cubosomic nanoridges and the open nanochannels were identified in the EM image of the self-assembly cubosomic pattern.

Author: Papahadjopoulos-Sternberg, Brigitte, Angelina, Angelova, Angelov, Borislav, Bourgaux, Claudie, Couvreur, Patrick
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2005
X-rays, X-ray diffraction

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Ring-like nanosheets standing on spindle-like rods: unusual ZnO superstructures synthesized from a flakelike precursor Zn5(OH)(sub 8)Cl2[.]H2O

Article Abstract:

Unusual ZnO superstructures with ring-like nanosheets standing the backbone of spindles were synthesized from Zn5(OH)(sub 8)Cl2[.]H2O nanosheets by a mild solution route. The fast supersaturation for the formation of the ZnO phase can be achieved by using the precursor, which already has rich hydroxyl groups.

Author: Biao Liu, Shu-Hong Yu, Linjie Li, Fen Zhang, Qiao Zhang, Lei Ren, Ke Jiang
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
Analysis, Spindle (Cell division), Spindle (Cytoplasm), Zinc oxide, Solubility, Structure

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Subjects list: Research, Nanotechnology, Chemistry, Physical and theoretical, Physical chemistry
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