Clement Kok Yong Tan scite author profile

Clement Kok Yong Tan

2Publications

17Citation Statements Received

282Citation Statements Given

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281

Affiliations

National University of Singapore

Publications

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Atomic Imaging of Electrically Switchable Striped Domains in β′‐In₂Se₃

Chen

Wang

et al. 2021

Advanced Science

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2D ferroelectricity in van-der-Waals-stacked materials such as indium selenide (In 2 Se 3 ) has attracted interests because the ferroelectricity is robust even in ultrathin layers, which is useful for the miniaturization of ferroelectric field effect transistors. To implement In 2 Se 3 in nanoscale ferroelectric devices, an understanding of the domain structure and switching dynamics in the 2D limit is essential. In this study, a biased scanning tunnelling microscopy (STM) tip is used to locally switch polarized domains in ′-In 2 Se 3 , and the reconfiguration of these domains are directly visualized using STM. The room-temperature surface of ′-In 2 Se 3 breaks into 1D nanostriped domains, which changes into a zig-zag striped domains of ″ phase at low temperatures. These two types of domains can coexist, and by applying a tip-sample bias, they can be interchangeably switched locally, showing volatile or nonvolatile like behavior depending on the threshold voltage applied. An atomic model is proposed to explain the switching mechanism based on tip-induced flexoelectric effect and the ferroelastic switching between ′ and ″ phases.

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Polymorphism and Ferroelectricity in Indium(III) Selenide

Tan

2023

Chem. Rev.

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Two-dimensional indium(III) selenide (In 2 Se 3 ) is characterized by rich polymorphism and offers the prospect of overcoming thickness-related depolarization effects in conventional ferroelectrics. α-In 2 Se 3 has attracted attention as a ferroelectric semiconductor that can retain ferroelectricity at the monolayer level; thus, it can be potentially deployed in high density memory switching modes that bypasses the traditional von Neumann architecture in device design. However, studies involving α-In 2 Se 3 are often hindered by difficulties in phase identification owing to mixing with β-In 2 Se 3 . β-In 2 Se 3 has several polymorphs, among which include the antiferroelectric and ferroelastic β′-In 2 Se 3 . It is important to understand polymorph transitions and crystal−amorphous phase transitions in β-In 2 Se 3 to tap into the potential of this material for resistive memory storage. In this review, we discuss how the various polymorphs and polytypes of In 2 Se 3 can be rigorously differentiated and further highlight recent applications of these phases in ferroelectrics and memory devices. 5.3. Antiferroelectricity 5.4. Ferromagnetism 5.4.1. Intercalated In 2 Se 3 5.4.2. Doped In 2 Se 3 5.5. Ferroelasticity 5.6.

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