Sai Pentapati scite author profile

Crystalline materials with broken inversion symmetry can exhibit a spontaneous electric polarization, which originates from a microscopic electric dipole moment. Long-range polar or anti-polar order of such permanent dipoles gives rise to ferroelectricity or antiferroelectricity, respectively. However, the recently discovered antiferroelectrics of fluorite structure (HfO2 and ZrO2) are different: A non-polar phase transforms into a polar phase by spontaneous inversion symmetry breaking upon the application of an electric field. Here, we show that this structural transition in antiferroelectric ZrO2 gives rise to a negative capacitance, which is promising for overcoming the fundamental limits of energy efficiency in electronics. Our findings provide insight into the thermodynamically forbidden region of the antiferroelectric transition in ZrO2 and extend the concept of negative capacitance beyond ferroelectricity. This shows that negative capacitance is a more general phenomenon than previously thought and can be expected in a much broader range of materials exhibiting structural phase transitions.

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Macro-3D: A Physical Design Methodology for Face-to-Face-Stacked Heterogeneous 3D ICs

Bamberg

García-Ortiz

Zhu

et al. 2020

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TP-GNN: A Graph Neural Network Framework for Tier Partitioning in Monolithic 3D ICs

Pentapati

Zhu

et al. 2020

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A Logic-on-Memory Processor-System Design With Monolithic 3-D Technology

et al. 2019

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Cross-Domain Optimization of Ferroelectric Parameters for Negative Capacitance Transistors—Part I: Constant Supply Voltage

Pentapati

Perumal

Khandelwal

et al. 2020

IEEE Trans. Electron Devices

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Sai Pentapati

Antiferroelectric negative capacitance from a structural phase transition in zirconia

Macro-3D: A Physical Design Methodology for Face-to-Face-Stacked Heterogeneous 3D ICs

TP-GNN: A Graph Neural Network Framework for Tier Partitioning in Monolithic 3D ICs

A Logic-on-Memory Processor-System Design With Monolithic 3-D Technology

Cross-Domain Optimization of Ferroelectric Parameters for Negative Capacitance Transistors—Part I: Constant Supply Voltage

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