Qibin Zeng
YOU?
Author Swipe
View article: A Novel Deep Reinforcement Learning Approach for Dynamic Proportional‐Integral Control in Scanning Probe Microscopy
A Novel Deep Reinforcement Learning Approach for Dynamic Proportional‐Integral Control in Scanning Probe Microscopy Open
Scanning Probe Microscopy (SPM) measurements often encounter challenges due to the nonlinear and time‐varying behavior of materials, as well as abrupt changes in structure, properties, or topography. These issues can lead to system instabi…
View article: Ideal antiferroelectricity with large digital electrostrain in PbZrO3 epitaxial thin films
Ideal antiferroelectricity with large digital electrostrain in PbZrO3 epitaxial thin films Open
View article: Ideal antiferroelectricity with large digital electrostrain in PbZrO3 epitaxial thin films
Ideal antiferroelectricity with large digital electrostrain in PbZrO3 epitaxial thin films Open
Antiferroelectrics exhibit reversible antipolar-polar phase transitions under electric fields, yielding large electrostrain suitable for electromechanical devices. Nevertheless, in thin-film form, the antiferroelectric behavior is often ob…
View article: PICTS: A Novel Deep Reinforcement Learning Approach for Dynamic P-I Control in Scanning Probe Microscopy
PICTS: A Novel Deep Reinforcement Learning Approach for Dynamic P-I Control in Scanning Probe Microscopy Open
We have developed a Parallel Integrated Control and Training System, leveraging the deep reinforcement learning to dynamically adjust the control strategies in real time for scanning probe microscopy techniques.
View article: Ultrahigh electromechanical response from competing ferroic orders
Ultrahigh electromechanical response from competing ferroic orders Open
Materials with electromechanical coupling are essential for transducers and acoustic devices as reversible converters between mechanical and electrical energy 1–6 . High electromechanical responses are typically found in materials with str…
View article: CMOS-compatible photonic integrated circuits on thin-film ScAlN
CMOS-compatible photonic integrated circuits on thin-film ScAlN Open
Scandium aluminum nitride (ScAlN) has recently emerged as an attractive material for integrated photonics due to its favorable nonlinear optical properties and compatibility with complementary metal–oxide semiconductor (CMOS) fabrication. …
View article: Nonlinear Dielectric Response of Relaxor Ferroelectric (1 − <i>x</i>)Pb(Mg<sub>1/3</sub>Nb<sub>2/3</sub>)O<sub>3</sub> − <i>x</i>PbTiO<sub>3</sub> Epitaxial Thin Films
Nonlinear Dielectric Response of Relaxor Ferroelectric (1 − <i>x</i>)Pb(Mg<sub>1/3</sub>Nb<sub>2/3</sub>)O<sub>3</sub> − <i>x</i>PbTiO<sub>3</sub> Epitaxial Thin Films Open
Thin ferroelectric layers are capable of generating large dielectric and electromechanical responses at relatively low voltages, thus can be utilized in various applications including energy storage, energy harvesting, sensors, and actuato…
View article: Publisher's Note: “Emerging multi-frequency surface strain force microscopy” [J. Appl. Phys. 133, 040901 (2023)]
Publisher's Note: “Emerging multi-frequency surface strain force microscopy” [J. Appl. Phys. 133, 040901 (2023)] Open
First Page
View article: Emerging multi-frequency surface strain force microscopy
Emerging multi-frequency surface strain force microscopy Open
During the past decade, Scanning Probe Microscopy (SPM) based surface strain detection techniques have been extensively used in the characterization of functional materials, structures, and devices. Here, we refer these techniques as Surfa…
View article: Ammonium Escorted Chloride Chemistry in Stabilizing Aqueous Chloride Ion Battery
Ammonium Escorted Chloride Chemistry in Stabilizing Aqueous Chloride Ion Battery Open
View article: Strong phonon-cavity coupling and parametric interaction in a single microcantilever under ambient conditions
Strong phonon-cavity coupling and parametric interaction in a single microcantilever under ambient conditions Open
Parametrically tuning the oscillation dynamics of coupled micro/nano-mechanical resonators through a mechanical pump scheme has recently attracted great attention in areas ranging from fundamental physics to various applications. However, …
View article: Nanoscale Non-Destructive Ferroelectric Characterization with Non-Contact Heterodyne Electrostrain Force Microscopy
Nanoscale Non-Destructive Ferroelectric Characterization with Non-Contact Heterodyne Electrostrain Force Microscopy Open
Perceiving nanoscale ferroelectric phenomena from real space is of great importance for elucidating underlying ferroelectric physics. During the past decades, nanoscale ferroelectric characterization has mainly relied on the Piezoresponse …
View article: Nanoscale Ferroelectric Characterization with Heterodyne Megasonic Piezoresponse Force Microscopy
Nanoscale Ferroelectric Characterization with Heterodyne Megasonic Piezoresponse Force Microscopy Open
Piezoresponse force microscopy (PFM), as a powerful nanoscale characterization technique, has been extensively utilized to elucidate diverse underlying physics of ferroelectricity. However, intensive studies of conventional PFM have reveal…
View article: Strong Phonon-Cavity Coupling and Parametric Interaction in a Single Microcantilever under Ambient Conditions
Strong Phonon-Cavity Coupling and Parametric Interaction in a Single Microcantilever under Ambient Conditions Open
Parametrically tuning the oscillation dynamics of coupled micro/nano-mechanical resonators through a mechanical pump scheme has recently attracted great attentions from fundamental physics to various applications. However, the special desi…
View article: A New Heterodyne Megasonic Piezoresponse Force Microscopy with High-frequency Excitation beyond 100 MHz
A New Heterodyne Megasonic Piezoresponse Force Microscopy with High-frequency Excitation beyond 100 MHz Open
Piezoresponse Force Microscopy (PFM), as a powerful nanoscale characterization technique, has been extensively utilized to elucidate diverse underlying physics of ferroelectricity. However, the intensive study of conventional PFM has revea…
View article: Probing nanoscale oxygen ion motion in memristive systems
Probing nanoscale oxygen ion motion in memristive systems Open
Ion transport is an essential process for various applications including energy storage, sensing, display, memory and so on, however direct visualization of oxygen ion motion has been a challenging task, which lies in the fact that the nor…
View article: Local Dielectric Property Detection of the Interface between Nanoparticle and Polymer in Nanocomposite Dielectrics
Local Dielectric Property Detection of the Interface between Nanoparticle and Polymer in Nanocomposite Dielectrics Open