Abstracts - faqs.org

Abstracts

Chemicals, plastics and rubber industries

Search abstracts:
Abstracts » Chemicals, plastics and rubber industries

Effect of mixing oils on the hexagonal liquid crystalline structures

Article Abstract:

A new study investigates the effect of adding mixed oil on the structures and phase behavior of liquid crystals in the water/heptaoxyethylene dodecyl ether system.

Author: Kunieda, Hironobu, Umizu, Go, Aramaki, Kenji
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2000
Hydrocarbon research, Surface chemistry

User Contributions:

Comment about this article or add new information about this topic:

CAPTCHA


Formation of viscoelastic wormlike micellar solutions in mixed nonionic surfactant systems

Article Abstract:

A report on highly viscoelastic and stiff gels in a nonionic-nonionic surfactant mixture system in an aqueous solution is presented. The effect of composition, surfactant headgroups and temperature on the micellar phase in nonionic systems is studied.

Author: Kunieda, Hironobu, Chun-Hua Yan, Chao-Xian Xiao, Yuan Kou, Achary, Durga P.
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2003
Science & research, Surface active agents, Surface Active Agent Manufacturing, Nonionic Surfactants, Properties, Structure, Aqueous solution reactions

User Contributions:

Comment about this article or add new information about this topic:

CAPTCHA


Structural evolution during the synthesis of mesoporous silica in fatty acid/aminoalkoxysilane/water systems

Article Abstract:

The phase behavior and structural evolution during the early stages of silica templating using surfactant liquid crystals in aminoalkoxysilane/lauric acid/water systems is reported. The results indicate three stages during liquid crystal templating, controlled respectively by self-assembly, hydrolysis, and condensation of alkoxysilane groups on the surface of aggregates.

Author: Kunieda, Hironobu, Aramaki, Kenji, Sakamoto, Kazutami, Rodriguez-Abreu, Carlos, Izawa, Teruki, Lopez-Quintela, Arturo
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
All Other Miscellaneous Chemical Product and Preparation Manufacturing, Electronic components, not elsewhere classified, Other Electronic Component Manufacturing, Chemical preparations, not elsewhere classified, Fatty Acids & Derivatives, Industrial sand, Silica & Silica Sand, Industrial Sand Mining, Liquid Crystals, Water, Silica, Fatty acids, Chemical properties, Silicon dioxide

User Contributions:

Comment about this article or add new information about this topic:

CAPTCHA


Subjects list: Research, Chemistry, Physical and theoretical, Physical chemistry, Analysis
Similar abstracts:
  • Abstracts: Structure and electronic properties of Ca-doped CeO2 and implications on catalytic activity: an experimental and theoretical study
  • Abstracts: Surface and textural properties of network-modified silica as a function of transition metal dopant zirconium
  • Abstracts: Optically detected magnetic resonance study of electron/hole traps in CdSe quantum dot surfaces. Solid state NMR study of water binding on the surface of CdS nanoparticles
  • Abstracts: Experimental evidence for the triplet-like spin state appearing in ground-state singlet biradicals as a key feature for generalized ferrimagnetic spin alignment
  • Abstracts: A quantitative approach to calculating the energetic heterogeneity of solid surfaces from the analysis of TPD peaks: comparison of the results obtained using the absolute rate theory and the statistical rate theory of interfacial transport
This website is not affiliated with document authors or copyright owners. This page is provided for informational purposes only. Unintentional errors are possible.
Some parts © 2025 Advameg, Inc.