Rapid Assembly of Oligosaccharides by Using a Hydrophobic Tag-Assisted Liquid-Phase Method

A 3,5-didocosyloxybenzyl alcohol tag that was introduced at the anomeric position of the carbohydrate acceptor was applied in the assembly of a pentasaccharide. The intrinsic high solubility in nonpolar solvent and precipitation properties in polar solvent are crucial features of this tag. Thus, rapid and simple precipitation-centrifugation can be conducted throughout the synthetic route at each step to ease work-up and purification processes, and reduce the amount of solvent required. This method provides an efficient, environmental-friendly, and economical approach to synthesize complex oligosaccharides.

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Synthesis and conformational investigation of β-turn forming tetra- and hexapeptides

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19821884 ◽

1982 ◽

Vol 47 (7) ◽

pp. 1884-1892

Author(s):

A. N. Abdel Rahman ◽

S. Abdel Rahman

Keyword(s):

Energy Transfer ◽

Phase Method ◽

Conformational Study ◽

Poly Ethylene Glycol ◽

High Solubility ◽

Liquid Phase Method ◽

Conformational Investigation ◽

Transfer Method ◽

Poly Ethylene ◽

Good Agreement

Tetra- and hexapeptides containing Pro-Gly or Gly-Pro or Aib-Pro in their sequences were synthesized using the liquid-phase method. The high solubility of the poly(ethylene glycol) bound peptides in water and in organic solvents enables the application of the singlet-singlet energy transfer method for conformational investigation of these peptides. The conformational study in solid state by IR and in solution by CD were carried out in parallel to the energy transfer method. The qualitative results generated by IR and CD were found to be in good agreement with the quantitative end-to-end distances given by the energy transfer method.

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The Research of Silica-Coated Chromium Oxide Green Pigment Prepared by Liquid Phase Method

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.84-85.514 ◽

2011 ◽

Vol 84-85 ◽

pp. 514-518

Author(s):

Hong Yan Zhang ◽

Jin Hua Wang ◽

Li Fang Zhang ◽

Li Li Wang

Keyword(s):

Liquid Phase ◽

Experimental Method ◽

Chromium Oxide ◽

Particle Surface ◽

Tetraethyl Orthosilicate ◽

Hydrolysis Reaction ◽

Phase Method ◽

Green Pigment ◽

Coated Particle ◽

Liquid Phase Method

This paper is researched on SiO2-coated Cr2O3 for the hydrolysis reaction of tetraethyl orthosilicate. The influences of precursors, solid contents of suspension and Si ratio of water on coated particle surface are investigated. The products are characterized and the conclusion shows that the experimental method is feasible.

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164. Chemiluminescence immunoassay of unconjugated oestriol — comparison of a solid phase and a liquid phase method

Journal of Steroid Biochemistry ◽

10.1016/0022-4731(82)90378-8 ◽

1982 ◽

Vol 17 (3) ◽

pp. lv

Author(s):

W. Klingler ◽

G. von Postel ◽

O. Haupt ◽

R. Knuppen

Keyword(s):

Liquid Phase ◽

Solid Phase ◽

Phase Method ◽

Chemiluminescence Immunoassay ◽

Liquid Phase Method

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Effect of crystal orientation and doping on the activation energy for GaAs oxide growth by liquid phase method

Journal of Applied Physics ◽

10.1063/1.372228 ◽

2000 ◽

Vol 87 (5) ◽

pp. 2629-2633 ◽

Cited By ~ 17

Author(s):

Hwei-Heng Wang ◽

Dei-Wei Chou ◽

Jau-Yi Wu ◽

Yeong-Her Wang ◽

Mau-Phon Houng

Keyword(s):

Activation Energy ◽

Liquid Phase ◽

Crystal Orientation ◽

Phase Method ◽

Oxide Growth ◽

Liquid Phase Method

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Lithium storage properties of Li2MoO3 and its effect as a cathode additive in full cells

Functional Materials Letters ◽

10.1142/s1793604721500296 ◽

2021 ◽

Author(s):

Taolin Zhao ◽

Shaokang Chen ◽

Xingyue Gao ◽

Yuxia Zhang

Keyword(s):

Liquid Phase ◽

Electrochemical Performance ◽

Solid Phase ◽

Specific Capacity ◽

Lithium Ion ◽

Phase Method ◽

Lithium Storage ◽

Liquid Phase Method ◽

Cathode Additive ◽

Storage Properties

High-performance lithium–ion batteries (LIBs) are the main development direction of future energy storage devices. However, most LIBs still face a problem of high first irreversible capacity loss. Pre-lithiation technology can increase the content of active lithium source and compensate the loss of active lithium during the first cycle. Adding lithium supplement additive to the cathode provides an effective way to improve the electrochemical performance of LIBs. Here, Li2MoO3 has been investigated as a cathode additive in the full cells. In order to optimize its preparation, Li2MoO3 has been prepared by three different methods, including solid-phase method, liquid-phase method and ultrasonic method. Based on material characterization and electrochemical performance tests, Li2MoO3 material prepared by liquid-phase method shows the best lithium storage properties and chosen as a cathode additive in the LiNi[Formula: see text]Co[Formula: see text]Mn[Formula: see text]O2/SiO@C full cells. The addition of Li2MoO3 has successfully improved the electrochemical performance of the full cell. The first discharge specific capacity increases from 103.9 mAh g[Formula: see text] to 130.4 mAh g[Formula: see text]. In short, Li2MoO3 material is a promising cathode additive for LIBs.

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