Colloids and Surfaces B: Biointerfaces

Quantification of various response factors into the wound bed of diabetic mice during treatment with the retinoic acid-loaded solid lipid nanoparticles surrounded by chitosan film.

Drug relase from chitosan films with SLN-RA

The attachment of numerical data is the data of the figures and tables in the Revised manuscript and the error bars, which can prove that my experiment is supported by the attachment and also feasible.

Data is that of the separation experiments

Data for the manuscript Mitsou et al

Carvacrol was made physically stable nanoemulsions using an innovative spontaneous emulsification method with carvacrol itself as oil phase without introducing other carrier oil and the preparation conditions of the nanoemulsions are optimizeds. Self-crosslinking carboxymethyl chitosan (CMCTS) microgels via intermolecular hydrogen bonds were then fabricated by a simple solvent exchange method with ethanol as poor solvent and the microgels are employed as film-forming raw materials to produce the CMCTS films on the surface of tin foil via an electrospray technique . The carvacrol nanoemulsions (CNEs) were loaded into the CMCTS films by utilizing swelling property of CMCTS microgels in aqueous solution and the performances of the CNEs@CMCTS films as active packaging are studied in detail.

This is the dataset used for the paper "Production of 3D printed polylactide scaffolds with surface grafted hydrogel coatings" by P. Kowalczyk, P. Trzaskowska, I. Łojszczyk, R. Podgórski and T. Ciach. Format of the dataset is Origin 8.

The data exibited the improvement of magnetic stomatocyte-like nanomotor in photodynamic therapy for cancer treatment. All the data including cellular uptake and cytotoxicity, magnetic resonance imaging, fluorescence imaging showed the magnetic character of the magnetic stomatocyte-like nanomotor mentioned in the manuscript. Furthermore, other data including UV-visible spectroscopy and laser scanning confocal microscopy showed the enhancement of drugs in photodynamic therapy.

In this research work, we have synthesized and characterized gold decorated cerium oxide nanoparticles. Phosphotungstic acid (PTA) was utilized for the reduction of gold nanoparticles on the lattice surface of cerium oxide nanoparticles. The synthesized nanocomposite showed enhanced peroxidase like activity as compared to independent controls. Additionally, the composite showed faster degradation of 4-nitrophenol than either nanoceria or PTA-AuNPs. electron transfer ability of PTA molecules leads to the excellent improvement in the catalytic performance of nanoceria-PTA-AuNPs composite. The obtained improved catalytic activity might be due to the rapid electron transfer from nanoceria to AuNPs, where metal nanoparticles act as electron sink, mediated by PTA. Thus, the developed nanoceria-PTA-AuNPs nanocomposites are expected to have wide range of uses in mimicking other enzyme-like activities, photocatalysis, organic pollutant degradation, and other biomedical applications.

Drug release from chitosan films with SLN-RA