期刊
NATURE REVIEWS MATERIALS
卷 8, 期 1, 页码 25-40出版社
NATURE PORTFOLIO
DOI: 10.1038/s41578-022-00484-3
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Van der Waals ferroelectrics have stable layered structures with strong intralayer forces and weak interlayer forces. They are easily stackable and can be integrated with different materials without interfacial issues. This review discusses the experimentally verified van der Waals ferroelectrics, their unique characteristics, and their potential applications in post-Moore's law electronics.
Structurally different from conventional oxide ferroelectrics with rigid lattices, van der Waals (vdW) ferroelectrics have stable layered structures with a combination of strong intralayer and weak interlayer forces. These special atomic arrangements, in combination with the ferroelectric order, give rise to fundamentally new phenomena and functionalities, including downscaling limits, origin of the polarization and switching mechanisms. Furthermore, their easily stackable nature means that vdW ferroelectrics are readily integrable with highly dissimilar materials, such as industrial silicon substrates, without interfacial issues, and are thus regarded as attractive building blocks for post-Moore's law electronics. In this Review, we consider the experimentally verified vdW ferroelectric systems by discussing their unique characteristics, such as quadruple-well potentials, metallic ferroelectricity and dipole-locking effects. We highlight the emerging field of engineered vdW ferroelectricity, created by artificially breaking centrosymmetry in stacks of otherwise nonpolar parent materials. Additionally, innovative device applications harnessing vdW ferroelectricity are showcased, including transistors able to beat the Boltzmann tyranny, nonvolatile memories and optoelectronic and flexible devices. Recent progress and existing challenges provide a perspective on future research directions and applications. van der Waals ferroelectrics are different from conventional oxide or polymer-based ferroelectrics in terms of both crystal structure and functionality. This Review discusses the experimentally verified van der Waals ferroelectrics, their unique characteristics and their potential applications in post-Moore's law electronics.
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