Preparation and application of poly(alkoxytitanate) as a TiO2 precursor with high storage stability

Titanium dioxide is a basic material of our daily life. Because of its favourable properties, such as harmlessness, chemical stability, photocatalytic activity, or whiteness it is increasingly applied in both micro and nano particles and thin films and coating. One of the available procedures for film forming is the sol–gel technology, an inexpensive low temperature process with wide possibilities to vary film properties by changing the composition of the precursor solution or other parameters. In the paper a new precursor polymer for TiO₂ film-preparation with high storage and processing stabilities is introduced and applied in thin film forming. The new precursor poly(alkoxytitanate) is prepared by a one step, water-free sol–gel method. A smooth TiO₂ film can be prepared using this precursor by spin-coating followed by H₂-plasma curing. Comparing to a common precursor such as Ti(O–iPr)₄, this precursor has a good solubility in different solvents and a much higher storage stability. The easy to modify precursor end groups enable the tailoring of properties regarding to hydrolysis to both TiO₂ particles and films.     

Profiling and sequencing of gangliosides from human caudate nucleus by chip‐nanoelectrospray mass spectrometry

Gangliosides (GGs), sialic acid‐containing glycosphingolipids are involved in many brain functions at the cell and molecular level. Compositional and structural elucidation of GGs in mixtures extracted from human brain is essential for correlating their profile with the specialized function of each brain area in health and disease. As a part of our ongoing study on GG expression and structure in different healthy and diseased brain regions, in this work, a preliminary investigation of GGs in a specimen of human caudate nucleus (CN) was carried out using an advanced mass spectrometry (MS) technique. By chip‐nanoelectrospray MS performed on a NanoMate robot coupled to a high capacity ion trap instrument, 81 GG components were detected in human CN in only 1.5 min of signal acquisition. Although the native GG mixture from CN was found dominated by mono‐, di‐ and trisialylated GGs with a slight dominance of disialylated forms (GD), four tetrasialylated structures (GQ) and two pentasialylated (GP) species were also identified. Additionally, species with unusually long fatty acid chains, exceeding 30 carbon atoms in their ceramide (Cer) composition, and several glycoforms modified by fucosyl (Fuc), O‐acetyl (O‐Ac) and/or lactonization were discovered. By tandem MS (MS²) using collision‐induced dissociation, two atypical mono and disialylated species with long‐chain fatty acids in their Cer could be confirmed and structurally characterized. These results may be a starting point for new GG‐based approaches in the study of CN functions and ethiopathogenesis of CN‐related neurodegenerative disorders. Copyright © 2012 John Wiley & Sons, Ltd.     

Note on the “Scaling Transformations for Boundary Layer Flow near the Stagnation-Point on a Heated Permeable Stretching Surface in a Porous Medium Saturated with a Nanofluid and Heat Generation/Absorption Effects”

In a recent paper by Hamad and Pop (Transp Porous Med 2010) a comprehensive numerical study of the title problem has been reported. The goal of the present note is (i) to give exact analytical solutions of this model for some special cases of physical interest, and (ii) to point out that within the model considered by Hamad and Pop no essential distinguishing features between the convective heat transfer in nanofluids and in usual viscous fluids occur.