705 research outputs found
Coordination Chemistry in Europe since Alfred Werner
The development of coordination chemistry in Europe since Alfred Werner's epoch-making 1893 publication is reviewed. Mention will be made of the work done by the German School (P. Pfeiffer, F. Hein, W. Hieber, W. Reppe, W. Klemm, E.O. Fischer), the French School (M.
Délépine, R. Charronat, A. Joly, J.-P. Mathieu), the Scandinavian School (K.A. Jensen, J. Bjerrum, I. Leden, L.G. Sillen), the English School (F.G. Mann, J. Chatt, R.S. Nyholm, G. Wilkinson), the Russian School (L.A. Chugaev, I.I. Chernyaev, A.A. Grinberg,
K.J. Jatzimirski), the Italian School (A. Miolati, L. Cambi, L. Malatesta, P. Chini), and the Swiss School (G. Schwarzenbach)
Peptide self‐assembled nanostructures: from models to therapeutic peptides
: Self-assembly is the most suitable approach to obtaining peptide-based materials on the nano- and mesoscopic scales. Applications span from peptide drugs for personalized therapy to light harvesting and electron conductive media for solar energy production and bioelectronics, respectively. In this study, we will discuss the self-assembly of selected model and bioactive peptides, in particular reviewing our recent work on the formation of peptide architectures of nano- and mesoscopic size in solution and on solid substrates. The hierarchical and cooperative characters of peptide self-assembly will be highlighted, focusing on the structural and dynamical properties of the peptide building blocks and on the nature of the intermolecular interactions driving the aggregation phenomena in a given environment. These results will pave the way for the understanding of the still-debated mechanism of action of an antimicrobial peptide (trichogin GA IV) and the pharmacokinetic properties of a peptide drug (semaglutide) currently in use for the therapy of type-II diabetes
Nucleic acids in mummified plant seeds : biochemistry and molecular genetics,of pre-Columbian maize
SummaryNucleic acids fractions were isolated from pre-Columbian maize seeds and characterized using different approaches such as polyacrylamide gel electrophoresis, anti-DNA antibody binding, HPLC fractionation, molecular hybridization with cloned genes, and DNA amplification by the polymerase chain reaction. The nucleic acids were found to be very depolymerized (≤140 base pairs in length) and composed mainly of ribosomal RNA. Despite the very low amount and degree of polymerization of seed DNA, specific maize nuclear Mul, Mu4, Mu8 and, possibly, Mu5 element components could be detected, thanks to the use of amplification systems as short as 90 bp. The results suggest that evaluation of the relative proportions of Mu-type element components and, possibly, other maize genomic components in single mummified kernels, may offer a new key to the study of ancient maize populations
Towards the “Eldorado” of pKa Determination: A Reliable and Rapid DFT Model
The selection of a “perfect tool” for the theoretical determination of acid-base dissociation constants (Ka) is still puzzling. Recently, we developed a user-friendly model exploiting CAM-B3LYP for determining pKa with impressive reliability. Herein, a new challenge is faced, examining a panel of functionals belonging to different rungs of the “Jacob’s ladder” organization, which classifies functionals according to their level of theory. Specifically, meta-generalized gradient approximations (GGAs), hybrid-GGAs, and the more complex range-separated hybrid (RSH)-GGAs were investigated in predicting the pKa of differently substituted carboxylic acids. Therefore, CAM-B3LYP, WB97XD, B3PW91, PBE1PBE, PBEPBE and TPSSTPSS were used, with 6-311G+(d,p) as the basis set and the solvation model based on density (SMD). CAM-B3LYP showed the lowest mean absolute error value (MAE = 0.23) with relatively high processing time. PBE1PBE and B3PW91 provided satisfactory predictions (MAE = 0.34 and 0.38, respectively) with moderate computational time cost, while PBEPBE, TPSSTPSS and WB97XD led to unreliable results (MAE > 1). These findings validate the reliability of our model in predicting carboxylic acids pKa, with MAE well below 0.5 units, using a simplistic theoretical level and a low-cost computational approach
Modelo de Ingreso de Datos a la Herramienta de Costos del Sistema de Transporte Público de Pasajeros
Las pequeñas y medianas ciudades se enfrentan a una serie de dificultades a la hora de administrar y manejar su sistema de transporte urbano. Esta problemática se debe a que no cuentan con los métodos necesarios para analizar y
administrar los recursos que poseen. Surgida esta necesidad, el propósito de este estudio es recabar los datos necesarios para operar una herramienta de costos del sistema de transporte público que se pueda emplear para el cálculo de costos en ciudades con características similares. El mecanismo de implementación consiste en la interacción de los usuarios a través de preguntas que permitan segmentar el servicio que brindan en un escenario en particular y, por medio de esta categorización, poder brindar los parámetros e información pertinente al entorno que se encuentran.
Como resultado final del proceso, a través de fórmulas matemáticas de costos, el sistema entregará como salida, el valor buscado del costo
Tetraferrocenylporphyrins as active components of self-assembled monolayers on gold surface.
Novel tetraferrocenylporphyrins-containing self-assembled monolayers
were prepared employing two different approaches.
Self-assembled monolayers were characterized using UV-Vis
spectroscopy and cyclic voltammetry (CV) whereas their photoelectrochemical
properties were investigated by photocurrent
generation (PG) experiments
Photoresponse from noble metal nanoparticles-multi walled carbon nanotube composites
In this Letter, we investigated the photo-response of multi wall carbon nanotube-based composites
obtained from in situ thermal evaporation of noble metals (Au, Ag, and Cu) on the nanotube films. The
metal deposition process produced discrete nanoparticles on the nanotube outer walls. The
nanoparticle-carbon nanotube films were characterized by photo-electrochemical measurements in a
standard three electrode cell. The photocurrent from the decorated carbon nanotubes remarkably
increased with respect to that of bare multiwall tubes. With the aid of first-principle calculations, these
results are discussed in terms of metal nanoparticle–nanotube interactions and electronic charge transfer
at the interface.VC 2012 American Institute of Physics
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