Results 261 to 270 of about 64,615 (313)
TiO<sub>2</sub> nanolayer-assisted top-interface engineering for disturbance-free FeFETs: a blueprint for future van der Waals memory. [PDF]
Nano ConvergKang H +11 more
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High-Performance Differential Imaging via Reconfigurable Black Phosphorus p-n Homojunction Optoelectronics. [PDF]
Nanomicro LettHao R +8 more
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Strongly coupled interface ferroelectricity and interface superconductivity in amorphous LaAlO<sub>3</sub>/KTaO<sub>3</sub>(111). [PDF]
Nat CommunDong MD, Cheng XB, Zhang M, Wu J.
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Emerging Molecular Antiferroelectrics: Advances and Prospects. [PDF]
Adv Sci (Weinh)Li X +6 more
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Ferroelectrics in Photocatalysis
Chemistry – A European Journal, 2022AbstractThe rapid development of industrialization and population has brought water, air‐pollution and energy crises. Solar‐driven catalysis is expected to relieve these issues. However, limited by poor light harvesting, serious charge recombination of semiconductors, and high surface reaction barriers, the low efficiency of solar conversion is far ...
Lizhen Liu, Hongwei Huang
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From Ferroelectric Material Optimization to Neuromorphic Devices
Advanced Materials, 2023 Due to the voltage driven switching at low voltages combined with nonvolatility of the achieved polarization state, ferroelectric materials have a unique potential for low power nonvolatile electronic devices.
Thomas Mikolajick +2 more
exaly +3 more sources
Giant Electroresistance of Super-tetragonal BiFeO3-Based Ferroelectric Tunnel Junctions
ACS Nano, 2013 International audienceFerroelectric tunnel junctions enable a nondestructive readout of the ferroelectric state via a change of resistance induced by switching the ferroelectric polarization.
Hiroyuki Yamada, V Garcia, S Fusil
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Nature Materials, 2008
Ferroelectricity results from one of the most representative phase transitions in solids, and is widely used for technical applications. However, observations of ferroelectricity in organic solids have until recently been limited to well-known polymer ferroelectrics and only a few low-molecular-mass compounds.
Sachio, Horiuchi, Yoshinori, Tokura
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Ferroelectricity results from one of the most representative phase transitions in solids, and is widely used for technical applications. However, observations of ferroelectricity in organic solids have until recently been limited to well-known polymer ferroelectrics and only a few low-molecular-mass compounds.
Sachio, Horiuchi, Yoshinori, Tokura
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Science, 1951
Ferroelectricity is a very general phenomenon. Yet it is possible to divide it into three main groups with essentially three different mechanisms: the order-disorder of hydrogen bonds, the trigger effect of nonspherical radicals, and the 4π/3 catastrophe due to high electronic polarizabilities.
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Ferroelectricity is a very general phenomenon. Yet it is possible to divide it into three main groups with essentially three different mechanisms: the order-disorder of hydrogen bonds, the trigger effect of nonspherical radicals, and the 4π/3 catastrophe due to high electronic polarizabilities.
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Nature Chemistry, 2015
Supramolecular chemistry uses non-covalent interactions to coax molecules into forming ordered assemblies. The construction of ordered materials with these reversible bonds has led to dramatic innovations in organic electronics, polymer science and biomaterials.
Alok S, Tayi +4 more
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Supramolecular chemistry uses non-covalent interactions to coax molecules into forming ordered assemblies. The construction of ordered materials with these reversible bonds has led to dramatic innovations in organic electronics, polymer science and biomaterials.
Alok S, Tayi +4 more
openaire +2 more sources