RESUMO
In the quest for more efficient and cost-effective electrocatalytic systems, careful selection of catalysts and substrates plays a pivotal role. This study introduces an approach by synthesizing and depositing NiFe-layered double hydroxide (NiFe-LDH) catalysts on commercial AISI 304 substrates by using a low-temperature spray-coating technique. Through systematic investigations, the influence of processing conditions, such as the synthesis, ultrasonic power for having a stable nanoparticle's dispersion, and spray cycle optimization on the electrochemical and morphological properties of the coatings, is thoroughly explored. The results showcase exceptional catalytic performance, achieving an overpotential of 230 mV at 10 mA/cm2, with enhanced stability even at high current densities of 500 mA/cm2. The study highlights the significance of meticulous processing optimization and presents a scalable methodology that holds great potential for developing catalysts for oxygen evolution reactions (OER) and facilitates their integration into industrial processes.
RESUMO
On the basis of experiments carried out with controlled amounts of residual oxygen and water, or by using oxygen-isotope-labeled Ti(18) O2 as the photocatalyst, we demonstrate that (18) Os atoms behave as real catalytic species in the photo-oxidation of acetonitrile-dissolved aromatic compounds such as benzene, phenol, and benzaldehyde with TiO2 . The experimental evidence allows a terminal-oxygen indirect electron-transfer (TOIET) mechanism to be proposed, which is a new pathway that involves the trapping of free photogenerated valence-band holes at Os species and their incorporation into the reaction products, with simultaneous generation of oxygen vacancies at the TiO2 surface and their subsequent healing with oxygen atoms from either O2 or H2 O molecules that are dissolved in the liquid phase. According to the TOIET mechanism, the TiO2 surface is not considered to remain stable, but is continuously changing in the course of the photocatalytic reaction, challenging earlier interpretations of TiO2 photocatalytic phenomena.
RESUMO
Se revisa el caso de un paciente de ocho meses de edad, con acondroplasia y síntomas sugestivos de compresión cervicomedular. Los síntomas incluían convulsiones tónico-clónicas generalizadas, irritabilidad, episodios frecuentes de apnea, control cefálico nulo, flacidez generalizada, reflejos osteotendinosos abolidos y fontanela abombada. Los estudios radiológicos incluyeron tomografía computarizada (TC) y resonancia magnética (RM) que mostraron la compresión, y signos de mielopatía cervical crónica, esto último fue confirmado con estudio de potenciales evocados somatosensoriales (PESS) preoperatorios del nervio mediano. Al paciente se le hicieron descompresión de la fosa posterior y laminectomía de C-1. La monitorización con PESS intraoperatorios continuos se usó para observar los cambios electrofisiológicos que se pueden presentar con la descompresión medular, y además para ayudar a determinar la extensión de la descompresión requerida.
