Effect of Humidity on the Writing Speed and Domain Wall Dynamics of Ferroelectric Domains

Spasojevic, Irena; Verdaguer, Albert; Catalán, Gustau; Domingo, Neus

doi:10.1002/aelm.202100650

Cited by 8 publications

(6 citation statements)

References 59 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Other known active species include carbonated organic molecules, with different carboxylic groups and Si oxides, or other salts formed from ions contained in the material. So far, the race towards understanding the interplay between ferroelectricity and surface electrochemistry still faces crucial unresolved issues, since at the nanoscale the ferroelectric state is fundamentally inseparable from the electrochemical state of the surface (Yang, Morozovska et al, 2017) and determines ferroelectric switching dynamics (Spasojevic, Verdaguer et al, 2022). This coupling has strong impact on the application of ferroelectric materials in nanodevices such as Tunnel Junctions (Lu, Lipatov et al, 2014;Guo, Wang et al, 2017) since it can create an imprint in the ferroelectric state (Lee, Kim et al, 2016) or alter associated fundamental physical properties such as tunnelling eletroresistance (Gruverman, Wu et al, 2009).…”

Section: Ferrocatalysis and Switchable Catalysismentioning

confidence: 99%

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Domingo

2024

Front. Nanotechnol.

Self Cite

View full text Add to dashboard Cite

The last decade has witnessed the emergence of the application of piezoelectric and ferroelectric materials for catalytic and photocatalytic applications that harness light, thermal and mechanical energy into chemical reactions. This article surveys the different concepts of pyro- and piezocatalysis and differences with respect to ferrocatalysis and switchable catalysis and delves into the current understanding of the mechanisms underlying piezocatalysis. The outlook for advancing in the surface science studies required for the design of new and better catalysts based on polar electromechanically active materials is discussed in the context of the state of the art experimental studies and potential future nanoscience developments.

show abstract

Section: Ferrocatalysis and Switchable Catalysismentioning

confidence: 99%

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Domingo

2024

Front. Nanotechnol.

Self Cite

View full text Add to dashboard Cite

show abstract

“…As shown in Figure 3d, the threshold voltages were dependent on the writing-speeds, namely the threshold voltage increasing as a function of the writing speed (Figure S7, Supporting Information). This phenomenon can be explained by insufficient surface screening charges capable of stabilizing the newly formed domains at high writing-speed, [21,33] resulting in a system requiring more energy when switched from one state to another. [34] These results were similar to the speeddependent domain wall widths [21] and the simulated electric field distribution under the tip bias.…”

Section: Critical Voltages/forces For Domain Switching At Different T...mentioning

confidence: 99%

“…This phenomenon can be explained by insufficient surface screening charges capable of stabilizing the newly formed domains at high writing-speed, [21,33] resulting in a system requiring more energy when switched from one state to another. [34] These results were similar to the speeddependent domain wall widths [21] and the simulated electric field distribution under the tip bias. [35][36][37] Thus, successful domain writing with increased speed required a higher PFM tip voltage.…”

Section: Critical Voltages/forces For Domain Switching At Different T...mentioning

confidence: 99%

“…Some recent experiments suggested that tip writing-speeds could interplay with domain dynamics to alter the nanopatterned domain structures. [20][21][22] However, the study of the interplay between various biased-/loaded-tip writing-speeds and corresponding critical voltages/forces for domain switching is still lacking. Therefore, experimental observation of the effect of biased-/loaded-tip writing-speed on ferroelectric domain switching is highly desirable to clarify the phenomenon.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Writing‐Speed Dependent Thresholds of Ferroelectric Domain Switching in Monolayer α‐In₂Se₃

et al. 2023

View full text Add to dashboard Cite

An electrical‐biased or mechanical‐loaded scanning probe written on the ferroelectric surface can generate programmable domain nanopatterns for ultra‐scaled and reconfigurable nanoscale electronics. Fabricating ferroelectric domain patterns by direct‐writing as quickly as possible is highly desirable for high response rate devices. Using monolayer α‐In2Se3 ferroelectric with ≈1.2 nm thickness and intrinsic out‐of‐plane polarization as an example, a writing‐speed dependent effect on ferroelectric domain switching is discovered. The results indicate that the threshold voltages and threshold forces for domain switching can be increased from −4.2 to −5 V and from 365 to 1216 nN, respectively, as the writing‐speed increases from 2.2 to 10.6 µm s−1. The writing‐speed dependent threshold voltages can be attributed to the nucleations of reoriented ferroelectric domains, in which sufficient time is needed for subsequent domain growth. The writing‐speed dependent threshold forces can be attributed to the flexoelectric effect. Furthermore, the electrical‐mechanical coupling can be employed to decrease the threshold force, achieving as low as ≈189±41 nN, a value smaller than those of perovskite ferroelectric films. Such findings reveal a critical issue of ferroelectric domain pattern engineering that should be carefully addressed for programmable direct‐writing electronics applications.

show abstract

“…Specifically, Spasojevic et al showed that the humidity condition plays a crucial role in determining the polarization switching dynamics of ferroelectric materials. [258] Their PFM studies revealed that the speed for domain writing on the surface of BaTiO 3 thin films increased non-monotonically with humidity. For a particular writing speed, the size of the written domains was found to follow water adsorption behavior.…”

Section: Surface Protonation and Deprotonationmentioning

confidence: 99%

Polar Perturbations in Functional Oxide Heterostructures

Wang

Lee

et al. 2023

Adv Funct Materials

View full text Add to dashboard Cite

Growth and characterization of metal‐oxide thin films foster successful development of oxide‐material‐integrated thin‐film devices represented by metal‐oxide‐semiconductor field‐effect transistors (MOSFET), drawing enormous technological and scientific interest for several decades. In recent years, functional oxide heterostructures have demonstrated remarkable achievements in modern technologies and provided deeper insights into condensed‐matter physics and materials science owing to their versatile tunability and selective amplification of the functionalities. One of the most critical aspects of their physical properties is the polar perturbation stemming from the ionic framework of an oxide. By engineering and exploiting the structural, electrical, magnetic, and optical characteristics through various routes, numerous perceptive studies have clearly shown how polar perturbations advance functionalities or drive exotic physical phenomena in complex oxide heterostructures. In this review, both intrinsic (engraved by thin‐film heteroepitaxy) and extrinsic (reversibly controllable defect‐mediated disorder and polar adsorbates) elements of polar perturbations, highlighting their abilities for the development of highly tunable functional properties are summarized. Scientifically, the recent approaches of polar perturbations render one to consolidate a prospect of atomic‐level manipulation of polar order in epitaxial oxide thin films. Technologically, this review also offers useful guidelines for rational design to heterogeneously integrated oxide‐based multi‐functional devices with high performances.

show abstract

Effect of Humidity on the Writing Speed and Domain Wall Dynamics of Ferroelectric Domains

Cited by 8 publications

References 59 publications

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Writing‐Speed Dependent Thresholds of Ferroelectric Domain Switching in Monolayer α‐In₂Se₃

Polar Perturbations in Functional Oxide Heterostructures

Contact Info

Product

Resources

About

Effect of Humidity on the Writing Speed and Domain Wall Dynamics of Ferroelectric Domains

Cited by 8 publications

References 59 publications

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Understanding piezocatalysis, pyrocatalysis and ferrocatalysis

Writing‐Speed Dependent Thresholds of Ferroelectric Domain Switching in Monolayer α‐In2Se3

Polar Perturbations in Functional Oxide Heterostructures

Contact Info

Product

Resources

About

Writing‐Speed Dependent Thresholds of Ferroelectric Domain Switching in Monolayer α‐In₂Se₃