Current Understanding of Electrochemical Strain Microscopy to Visualize Ion Behavior on the Nanoscale
Abstract Electrochemical Strain Microscopy (ESM) is a technique based on Atomic Force
Microscopy and provides information about local ionic processes through electro-chemo …
Microscopy and provides information about local ionic processes through electro-chemo …
Deep learning for exploring ultra-thin ferroelectrics with highly improved sensitivity of piezoresponse force microscopy
P Sriboriboon, H Qiao, O Kwon… - npj Computational …, 2023 - nature.com
Hafnium oxide-based ferroelectrics have been extensively studied because of their existing
ferroelectricity, even in ultra-thin film form. However, studying the weak response from ultra …
ferroelectricity, even in ultra-thin film form. However, studying the weak response from ultra …
Ultra-large electromechanical deformation in lead-free piezoceramics at reduced thickness
X He, MA Boda, C Chen, R Dun, L Wang, Y Bao… - Materials …, 2024 - pubs.rsc.org
Lead-free piezoceramics with large controllable deformations are highly desirable for
numerous energy converter applications ranging from consumer electronics to medical …
numerous energy converter applications ranging from consumer electronics to medical …
Understanding local physical properties of barium titanate ceramics depending on the synthesis conditions assisted by a machine learning algorithm
E Koh, P Sriboriboon, S Kang, C Jeon, S Lee… - Journal of Alloys and …, 2024 - Elsevier
Barium titanate (BT) is widely used in electronic components, such as multilayer ceramic
capacitors, owing to its high dielectric constant and piezoelectricity. The continuously …
capacitors, owing to its high dielectric constant and piezoelectricity. The continuously …