Instead of top-down laser ablation, the alternative approach of t

Instead of top-down laser ablation, the alternative approach of this bottom-up wet process is an attractive prospect for preparing BSB-Me nanocrystals. The aim of this study is to demonstrate the preparation of BSB-Me nanocrystals having narrow size distribution with singular morphology by means of a bottom-up, wet process using

the reprecipitation method. This method makes it possible to control the particle size and morphology of the nanocrystals. We prepared BSB-Me nanocrystal dispersions in water, and investigated the size, morphology, optical properties, and powder X-ray diffraction pattern of the Dorsomorphin manufacturer nanocrystals. Methods Materials BSB-Me (>98.0%) was purchased from Tokyo LXH254 cell line Chemical Industry Co., Ltd. (Tokyo, Japan) and used without further purification. Tetrahydrofuran (THF) (>99.5%) was purchased from Wako Pure Chemical Industries, Ltd. (Tokyo, Japan). Purified water (18.2 MΩ) was obtained from a Milli-Q A-10 (Millipore, Tokyo, Japan). Nanocrystal preparation BSB-Me was dissolved in THF (2 mM) at 50°C, and 100 μl of the solution was injected into vigorously stirred selleck inhibitor (1,500 rpm) poor solvent water (10 ml at 24°C) using a microsyringe. As a result,

the BSB-Me suddenly precipitated to form dispersed nanocrystals. Syringe filter (pore size 1.2 μm; Minisart®, Sartorius Stedim Biotech, NY, USA) was used to remove small degree of aggregates from the nanocrystal dispersion. Evaluation The particle size and morphology of the BSB-Me nanocrystals were evaluated using scanning electron microscopy (SEM; JSM-6510LA, JEOL, Tokyo, Japan). To prepare specimens for imaging, the nanocrystals were collected from the water dispersion using suction filtration with a membrane filter (0.05-μm pore size), followed by platinum sputter coating (JFC-1600, JEOL). The average particle size, size distribution, and ζ-potential of the nanocrystal dispersion were evaluated using an ELSZ-1000 zeta-potential and particle size analyzer (Otsuka Electronics Co., Ltd., Osaka, Japan). Ultraviolet-visible

(UV-vis) absorption spectra and fluorescence spectra were measured using a V-550 UV/vis spectrophotometer (JASCO, Tokyo, Japan) PDK4 and F-2500 fluorescence spectrophotometer (Hitachi, Tokyo, Japan), respectively. Results and discussion The morphology and particle size of the BSB-Me nanocrystals were investigated using SEM. The nanocrystals were found to be sphere-like and had an apparent average particle size with standard deviation of 67 ± 19 nm. The average particle size was obtained by measuring the particle sizes using the ruler from the SEM picture (the counted particle number was n = 211) (Figure 2a,b). The actual particle size, size distribution, and ζ-potential of the nanocrystals in the dispersion were investigated using the ELSZ-1000ZS analyzer (Figure 3). The average particle size was 60.9 nm, which was analyzed by cumulant analysis method, in good agreement with that observed by SEM.

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