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Ferroelectric coupling for dual-mode non-filamentary memristors

Gao, Zhan ; Wang, Yan ; Lv, Ziyu ; [et al.]

AIP Publishing ; 2022

In: Applied Physics Reviews Vol. 9, No. 2 ( 2022-06-01)

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In: Applied Physics Reviews, AIP Publishing, Vol. 9, No. 2 ( 2022-06-01)

Abstract: Memristive devices and systems have emerged as powerful technologies to fuel neuromorphic chips. However, the traditional two-terminal memristor still suffers from nonideal device characteristics, raising challenges for its further application in versatile biomimetic emulation for neuromorphic computing owing to insufficient control of filament forming for filamentary-type cells and a transport barrier for interfacial switching cells. Here, we propose three-terminal memristors with a top-gate field-effect geometry by employing a ferroelectric material, poly(vinylidene fluoride–trifluoroethylene), as the dielectric layer. This approach can finely modulate ion transport and contact barrier at the switching interface in non-filamentary perovskite memristors, thus, creating two distinct operation modes (volatile and nonvolatile). Additionally, perovskite memristors show desirable resistive switching performance, including forming-free operation, high yield of 88.9%, cycle-to-cycle variation of 7.8%, and low operating current of sub-100 nA. The dual-mode memristor is capable of emulating biological nociception in both active (perceiving pain) and blocked states (suppressing pain signaling).

Type of Medium: Online Resource

ISSN: 1931-9401

URL: Article

DOI: 10.1063/5.0087624

Language: English

Publisher: AIP Publishing

Publication Date: 2022

detail.hit.zdb_id: 2265524-4

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Robust magnetoresistance in TaAs2 under pressure up to about 37 GPa

Wang, Hongyuan ; Pei, Cuiying ; Su, Hao ; [et al.]

AIP Publishing ; 2019

In: Applied Physics Letters Vol. 115, No. 12 ( 2019-09-16)

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In: Applied Physics Letters, AIP Publishing, Vol. 115, No. 12 ( 2019-09-16)

Abstract: The extremely large magnetoresistance (XMR) in nonmagnetic semimetals has inspired growing interest owing to both intriguing physics and potential applications. We report the results of synchrotron X-ray diffraction and electrical transport measurements on TaAs2 under pressure up to ∼37 GPa, which revealed an anisotropic compression of the unit cell, formation of unusual As-As bonds above 9.5 GPa, and enhancement of metallicity. Interestingly, the MR of TaAs2 under pressure changed gently, which at 1.7 GPa is 96.6% and at 36.6 GPa is still 36.7%. The almost robust MR under pressure could be related to the nearly stable electronic structure unveiled by the ab initio calculations. The discovery would expand the potential use of XMR even under high pressure.

Type of Medium: Online Resource

ISSN: 0003-6951 , 1077-3118

URL: Article

DOI: 10.1063/1.5115008

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 2019

detail.hit.zdb_id: 211245-0

detail.hit.zdb_id: 1469436-0

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Strain effect on oxygen evolution reaction of the SrTiO3 (0 0 1) surface

Wen, Linyuan ; Li, Mingtao ; Shi, Jinwen ; [et al.]

AIP Publishing ; 2021

In: Applied Physics Letters Vol. 119, No. 10 ( 2021-09-06)

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In: Applied Physics Letters, AIP Publishing, Vol. 119, No. 10 ( 2021-09-06)

Abstract: Strontium titanate (SrTiO3) is one of the most promising photocatalysts for overall water splitting (OWS). Strains can be commonly introduced in SrTiO3 during the synthetic processes, for example, in pulsed laser deposition. However, the effect of the strains on the catalytic performance of OWS is still unclear to date. Herein, first-principles calculations were performed to evaluate the impact of biaxial strains applied in SrTiO3 (001) surface on the oxygen evolution reaction (OER), the bottleneck of OWS. It was found that the applied strains, especially the compressive strains, significantly affect the free energy changes for H2O dissociation and *OOH deprotonation of OER on SrTiO3 (001). More interestingly, the tensile strains reduce the surface energy and lower the OER overpotential through reducing the free energy change for the rate-determining step, i.e., the second step of OER (*OH deprotonation), while the compressive strains increase the surface energy and the OER overpotential. Consequently, it is probable to introduce the tensile strains in the synthetic process to enhance the OER performance on SrTiO3 (001) surface.

Type of Medium: Online Resource

ISSN: 0003-6951 , 1077-3118

URL: Article

DOI: 10.1063/5.0061259

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 2021

detail.hit.zdb_id: 211245-0

detail.hit.zdb_id: 1469436-0

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Improved description of hematite surfaces by the SCAN functional

Si, Yitao ; Li, Mingtao ; Zhou, Zhaohui ; [et al.]

AIP Publishing ; 2020

In: The Journal of Chemical Physics Vol. 152, No. 2 ( 2020-01-14)

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 152, No. 2 ( 2020-01-14)

Abstract: Controversies on the surface termination of α-Fe2O3 (0001) focus on its surface stoichiometry dependence on the oxygen chemical potential. Density functional theory (DFT) calculations applying the commonly accepted Perdew-Burke-Ernzerhof (PBE) exchange-correlation functional to a strongly correlated system predict the best matching surface termination, but would produce a delocalization error, resulting in an inappropriate bandgap, and thus are not applicable for comprehensive hematite system studies. Besides, the widely applied PBE+U scheme cannot provide evidence for existence of some of the successfully synthesized stoichiometric α-Fe2O3 (0001) surfaces. Hence, a better scheme is needed for hematite DFT studies. This work investigates whether the strongly constrained and appropriately normed (SCAN) approximation reported by Perdew et al. could provide an improved result for the as-mentioned problem, and whether SCAN can be applied to hematite systems. By comparing the results calculated with the PBE, SCAN, PBE+U, and SCAN+U schemes, we find that SCAN and SCAN+U improves the description of the electronic structure of different stoichiometric α-Fe2O3 (0001) surfaces with respect to the PBE results, and that they give a consistent prediction of the surface terminations. Besides, the bulk lattice constants and the bulk density of states are also improved with the SCAN functional. This study provides a general characterization of the α-Fe2O3 (0001) surfaces and rationalizes how the SCAN approximation improves the results of hematite surface calculations.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.5134951

Language: English

Publisher: AIP Publishing

Publication Date: 2020

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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