Fully Optical Control of Polarization Current Direction in a Cyanide‐Bridged Trinuclear Complex

Author:

Huang Yu‐Bo1,Su Sheng‐Qun1,Xu Wen‐Huang1,Zheng Wen‐Wei1,Gao Kai‐Ge2,Ji Tian‐Chi1,Zhang Xiao‐Peng1,Shui Qi‐Rui1,Zhou Zi‐Qi1,Ikeda Taisuke1,Wu Shu‐Qi1,Sato Osamu1ORCID

Affiliation:

1. Institute for Materials Chemistry and Engineering and IRCCS Kyushu University 744 Motooka, Nishi-ku Fukuoka 819-0395 Japan

2. College of Physical Science and Technology Yangzhou University Jiangsu 225009 P. R. China

Abstract

AbstractAs a remote and non‐contact stimulus, light offers the potential for manipulating the polarization of ferroelectric materials without physical contact. However, in current research, the non‐contact write‐read (erase) process lacks direct observation through the stable current as output signal. To address this limitation, we investigated the photoinduced polarization switching capabilities of the cyanide‐bridged compound [Fe2Co] using visible light, leading to the achievement of rewritable polarization. By subjecting [Fe2Co] crystals to alternating irradiation with 785 nm and 532 nm light, the polarization changes exhibited a distinct square wave pattern, confirming the reliability of the writing and erasing processes. Initialization involved exposing specific crystal units to 532 nm light for storing “1” or “0” information, while reading was accomplished by scanning the units with 785 nm light, resulting in brief current pulses for “1” states and no current signal for “0” states. This research unveils new possibilities for optical storage systems, paving the way for efficient and rewritable data storage and retrieval technologies, such as the next‐generation memories.

Publisher

Wiley

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