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Áreas de investigación Ciencias físicas Física atómica, molecular y óptica Fotónica, optoelectrónica y comunicaciones ópticas
Áreas de investigación
Ciencias físicas
Física atómica, molecular y óptica
Fotónica, optoelectrónica y comunicaciones ópticas
Ferroelectricidad y efecto Rashba en un híbrido Dion-Jacobson bidimensional de perovskita orgánica e inorgánica

Ferroelectricidad y efecto Rashba en un híbrido Dion-Jacobson bidimensional de perovskita orgánica e inorgánica

In-Hyeok Park ¹, Qiannan Zhang ², Ki Chang Kwon ¹, Ziyu Zhu ¹, Wei Yu ¹, Kai Leng ¹, David Giovanni ², Hwa Seob Choi ¹, Ibrahim Abdelwahab ¹, Qing-Hua Xu ¹, Tze Chien Sum ², Kian Ping Loh ¹

In-Hyeok Park ¹, Qiannan Zhang ², Ki Chang Kwon ¹

¹Department of Chemistry , National University of Singapore , 3 Science Drive 3 , Singapore 117543 , Singapore.
²Division of Physics and Applied Physics, School of Physical and Mathematical Sciences , Nanyang Technological University , 21 Nanyang Link , Singapore 637371 , Singapore.

⁰Department of Chemistry , National University of Singapore , 3 Science Drive 3 , Singapore 117543 , Singapore.

Journal of the American Chemical Society +

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17 de septiembre de 2019

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17 de septiembre de 2019

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Ver abstracta en PubMed

Resumen

Este resumen es generado por máquina.

Los investigadores observaron la ferroelectricidad y el efecto Rashba en perovskitas híbridas orgánicas e inorgánicas (HOIP). Este descubrimiento en perovskitas Dion-Jacobson bidimensionales abre nuevas vías para aplicaciones electrónicas y espintrónicas avanzadas.

Área De La Ciencia

Ciencias de los materiales
Física de la materia condensada
Química del estado sólido

Sus Antecedentes

Las perovskitas híbridas orgánicas e inorgánicas (HOIP) son reconocidas por su alto rendimiento en células solares y diodos emisores de luz.
El interés emergente en los HOIP se extiende a sus propiedades ferroeléctricas y relacionadas con el espín.
La interacción del fuerte acoplamiento de espín-órbita y la ruptura de simetría de la ferroelectricidad teóricamente predice la división de la banda Rashba en HOIP.

Objetivo Del Estudio

Investigar la coexistencia de la ferroelectricidad y el efecto Rashba en los HOIP.
Explorar el potencial de las perovskitas Dion-Jacobson bidimensionales para albergar estos fenómenos.

Principales Métodos

Síntesis experimental y caracterización de las perovskitas Dion-Jacobson en 2D.
Medidas ferroeléctricas para confirmar la polarización.
Técnicas espectroscópicas para sondear la estructura de la banda electrónica e identificar la división de Rashba.

Principales Resultados

La ferroelectricidad robusta fue confirmada experimentalmente en las perovskitas Dion-Jacobson 2D estudiadas.
Se observó evidencia del efecto Rashba, indicado por bandas electrónicas de espín dividido.
Los hallazgos demuestran la integración exitosa de la ferroelectricidad y la escisión por espín del tipo Rashba en estos materiales.

Conclusiones

Las perovskitas Dion-Jacobson bidimensionales exhiben una robusta ferroelectricidad y el efecto Rashba.
Esta combinación de propiedades en HOIP es rara y significativa.
Los resultados allanan el camino para nuevos dispositivos electrónicos y espintrónicos que utilizan estos materiales avanzados.

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