about
Electronically tunable anion-π interactions in pyrylium complexes: experimental and theoretical studies.Nonfunctionalized Gold Nanoparticles: Synthetic Routes and Synthesis Condition Dependence.Understanding and improving aggregated gold nanoparticle/dsDNA interactions by molecular spectroscopy and deconvolution methods.Solvent effects on the kinetics of the interaction of 1-pyrenecarboxaldehyde with calf thymus DNA.Rational design of a CD4 mimic that inhibits HIV-1 entry and exposes cryptic neutralization epitopes.Use of gold nanoparticles as crosslink agent to form chitosan nanocapsules: study of the direct interaction in aqueous solutions.Improving the understanding of DNA-propanediyl-1,3-bis(dodecyldimethylammonium) dibromide interaction using thermodynamic, structural and kinetic approaches.The fluorophore 4',6-diamidino-2-phenylindole (DAPI) induces DNA folding in long double-stranded DNA.Fluorescent imino and secondary amino chitosans as potential sensing biomaterials.Quantification of nucleobases/gold nanoparticles interactions: energetics of the interactions through apparent binding constants determination.Strength and character of peptide/anion interactions.Noncovalent interactions of tiopronin-protected gold nanoparticles with DNA: two methods to quantify free energy of binding.Interaction of gold nanoparticles mediated by captopril and S-nitrosocaptopril: the effect of manganese ions in mild acid mediumMethod for the evaluation of the reorganization energy of electron transfer reactions produced under restricted geometry conditions"Abnormal" salt and solvent effects on anion/cation electron-transfer reactions: an interpretation based on Marcus-Hush treatmentKinetic approach for the study of noncovalent interaction between [Ru(NH3)5pz]2+ and gold nanoparticlesA kinetic study of the interaction of DNA with gold nanoparticles: mechanistic aspects of the interactionSalt and solvent effects on the kinetics of the oxidation of the excited state of the [Ru(bpy)3]2+ complex by S2O8(2-)Free energy of binding of cationic metal complexes to AuNPs through electron-transfer processesElectrochemiluminescence of the [Ru(bpy)3]2+ complex: the coreactant effect of PAMAM dendrimers in an aqueous medium
P50
Q35214511-949E0258-50DD-4190-A38F-AB54EBE34516Q38418220-4346AF92-F2D7-4F1F-BAA9-C8DDA4727B8EQ38730285-0FFD723C-31E6-4204-BF80-549FC9171D43Q43125297-09C90FB7-9F3E-4AA4-90F3-E1E22D291B3EQ45052086-E6F1F183-120A-4DF7-B228-A4AA1235418CQ45077677-3C82D570-2D04-4BAC-8759-B905EC00565BQ45350157-6043AB21-E7AE-43B6-8C26-F0C2FA57884BQ47731536-308AA721-8500-4D1E-9D18-AF58C3A70EE6Q47941676-2CBD234F-A80C-4A06-B3D3-FB7BD1D55508Q50200627-DD50BC9B-EC6B-4199-9A50-7269A42CF85EQ53842529-390C107D-F419-4E29-9961-4311963EC424Q55613275-FCF7658B-38D5-43FB-B473-787692838E6EQ61898921-E2545AD1-DD3D-416A-8708-3F3320FFE01DQ79934753-E3000A84-E942-4158-8B02-2A8E3908E041Q79941714-D295DF8A-2C0B-4BFA-8CA7-281664611969Q81237769-4063A1BF-7978-4259-8335-F3C1944A901CQ82741272-4C194CEF-C588-4983-A8FF-FC1610532933Q82910808-0B279C79-467E-40C8-9FA0-D1CACD000843Q85342290-2C2AB8E1-AD72-4514-8BB8-6759B6FBFFDDQ87391515-C243AD16-A34A-4C63-8C32-BE2383FB7E82
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Rafael Prado-Gotor
@ast
Rafael Prado-Gotor
@en
Rafael Prado-Gotor
@es
Rafael Prado-Gotor
@nl
Rafael Prado-Gotor
@sl
type
label
Rafael Prado-Gotor
@ast
Rafael Prado-Gotor
@en
Rafael Prado-Gotor
@es
Rafael Prado-Gotor
@nl
Rafael Prado-Gotor
@sl
prefLabel
Rafael Prado-Gotor
@ast
Rafael Prado-Gotor
@en
Rafael Prado-Gotor
@es
Rafael Prado-Gotor
@nl
Rafael Prado-Gotor
@sl
P106
P1153
10140989000
P21
P31
P496
0000-0001-5959-9810