Pierre Curie, descubridor de la piezoelectricidad/Pierre Curie, discoverer of piezoelectricsCagin ha encontrado que ciertos materiales piezoeléctricos pueden convertir energía al 100 por cien, cuandose fabrican con un grosor aproximado de 21 nm. Estos hallazgos, detallados en un artículo publicado en el número de otoño de "Physical Review B", podrían tener potencialmente un gran impacto en artefactos electrónicos de bajo consumo, como teléfonos móviles, ordenadores portátiles, comunicadores personales y un cojunto de otros instrumentos utilizados por cualquiera, desde el consumidor medio a policías o incluso a soldados en el campo de batalla.
La clave para esta tecnología son los materiales piezoeléctricos (la palabra deriva del griego piezein que significa apretar) , generalmente cristles o cerámicas, que generan un voltaje cuando se les aplica una perturbación mecánica. Según Cagin "incluso las alteraciones de las ondas sonoras en gases, líquidos y sólidos pueden ser empleadas para alimentar nano y micro artefactos del futuro"
Imagine a self-powering cell phone that never needs to be charged because it converts sound waves produced by the user into the energy it needs to keep running. It's not as far-fetched as it may seem thanks to the recent work of Tahir Cagin, at Texas A&M University.
Cagin has found that some piezoelectrics materials can convert energy at a 100 percent increase when manufactured at around 21 nanometers in thickness. His findings, which are detailed in an article published this fall in "Physical Review B", could have potentially profound effects for low-powered electronic devices such as cell phones, laptops, personal communicators and a host of other computer-related devices used by everyone from the average consumer to law enforcement officers and even soldiers in the battlefield.
Key to this technology are piezoelectrics. Derived from the Greek word "piezein" which means "to press" piezoelectrics are materials (usually crystals or ceramics) that generate voltage when a form of mechanical stress is applied. "Even the disturbances in the form of sound waves such as pressure waves in gases, liquids and solids may be harvested for powering nano- and micro devices of the future" Cagin said.
Tomado de/Taken from EurekAlert!
No hay comentarios:
Publicar un comentario