La tecnología transforma residuos blíster en materia prima para plásticos, promoviendo prácticas sostenibles. Su aplicación incluye formas básicas de plástico como tubos para artículos de aseo, cortinas y pasamanos en buses, perfiles, tablas calandradas, topes de parqueaderos, bolardos, separadores viales y tutores para cultivos en el sector agrícola. Contribuye a los ODS 9, 12 y 13.
Esta tecnología es un dispositivo que integra dos funciones en un mismo dispositivo, realizando el tratamiento de agua residual y la obtención de una fuente de energía limpia como lo es el hidrogeno verde. El agua residual al ingresar al reactor y entrar en contacto con un material fotoelectroabsorbente y luz, elimina materia orgánica e inorgánica presente en el agua, y al mismo tiempo genera hidrógeno y oxígeno en cada uno de los electrodos del dispositivo.
This process involves fabricating a temporary abutment for dental implants using 3D printing or rapid prototyping techniques. This abutment is distinguished by its design, which allows for the creation of the emergence profile while simultaneously providing support to the temporary teeth during the initial rehabilitation phase or the immediate loading of implants. The photopolymer resin used in the fabrication of the temporary abutment has improved adhesive properties compared to PEEK, ensuring a stronger and more reliable bond with the PMMA used in the provisionalization.
It is a sensor based on nanostructured materials for the measurement and detection of simple metabolites in living organisms depending on the functional groups used in the specific modalities of the central region of the sensor.
The “Procedure for Obtaining a Morphological Training Model in Minimally Invasive Pediatric Surgery” addresses both a significant need and opportunity in the field of minimally invasive pediatric surgery, an increasingly common surgical procedure due to its ability to reduce patient trauma and pain, as well as the length of hospital stay. However, performing this type of surgery demands a high level of dexterity and skill from the surgeon, as it involves much smaller incisions with less visibility. Furthermore, training in minimally invasive pediatric surgery is very limited, making learning difficult and costly.
This device utilizes the Surface Energy Transfer (SET) phenomenon between fluorescein and functionalized gold nanoparticles (AuNPs) to enable the selective measurement of UDP-glucose and ADP-glucose, thereby indirectly determining the sucrose/starch concentration in the solution. Furthermore, the method for synthesizing the AuNPs and functionalizing them with polymeric ligands to obtain the nanocomposite (nanosensor) is presented.
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