Biological phosphorylated molecules participate in the biomimetic and biological synthesis of cadmium sulphide quantum dots by promoting H2S release from cellular thiols

The experimental results presented in this thesis were obtained at three differ- ent apparatuses which are described in the following sections: a newly designed system for

Since then, several methods have been applied to cal- culate the eigenvalues of the Schr¨ odinger equation (2D or 3D) with a radial Gaussian potential: Stephenson [3] used

The analysis of the biological effects of gold nanoparticles generated by biological reduction of HAuCl 4 gold precursor in HeLa cells and the comparison with

Finally, additional experiments have been performed with metallic patterns transferred from the PV LiNbO 3 :Fe substrate to poly (methyl methacrylate) (PMMA) films doped

The biological behaviour of Schwann cells (SCs) and dorsal root ganglia (DRG) on fibrillar, highly aligned and electroconductive substrates obtained by two 

At higher electronic pumping (P σ ≈ 0.5g), the multiplet structure collapses into a dominant doublet of inner peaks while the vacuum Rabi peaks melt into its shoulders.. Details of

(B–F) qPCR of miRNAs and immunoblot of PKCz in SW480 shNT and shPKCz cells, n = 4 biological replicates (B); SW480 and SW620 cells, n = 4 biological replicates (C); WT and PKCz

Once fabricated, these templates are further used for the formation of different low density III-V semiconductor nanostructures, as InAs quantum dots and InAs quantum dot molecules