Process ambient effects on defect state generation in CuI films: Toward multimodal sensor application via patternable CuI arrays
With the advent of CuI as one of promising metal halides, great attention is recently paid to
optoelectronic applications. However, CuI formation and its defect states are rarely …
optoelectronic applications. However, CuI formation and its defect states are rarely …
Contrasting analog and digital resistive switching memory characteristics in solution-processed copper (i) thiocyanate and its polymer electrolyte-based memristive …
Usually, resistive switching (RS) devices show digital RS memory (sharp SET and RESET
process), which is most suitable for digital data storage applications. Some RS devices also …
process), which is most suitable for digital data storage applications. Some RS devices also …
Highly Efficient Reconfigurable Stateful Logic Operations Based on CuI Memristor-Only Arrays Prepared With a Solution-Based Process
The in-memory logic computing has been intensively studied as being considered as an
important scenario to address the power-consumption issue posed by modern computers …
important scenario to address the power-consumption issue posed by modern computers …
Reconfigurable stateful logic design in the one-transistor-one-memristor crossbar array for logic-in-memory computing
A reconfigurable stateful logic circuit based on one-transistor-one-memristor (1T1M)
crossbar array is proposed by combining the advantages of stateful logic and 1T1M array …
crossbar array is proposed by combining the advantages of stateful logic and 1T1M array …
Robust Resistive Switching in Solution-Processed Copper Bromide Binary Metal Halide System
J **, YS Song, A Nikam, H Lee, S Kim, HY Yang… - Journal of Alloys and …, 2025 - Elsevier
Resistive switching devices utilizing metal halide materials hold great promise for flexible
resistive random-access memory (RRAM) due to their low fabrication costs and low …
resistive random-access memory (RRAM) due to their low fabrication costs and low …
Charge‐Mediated Copper‐Iodide‐Based Artificial Synaptic Device with Ultrahigh Neuromorphic Efficacy
In the realm of artificial intelligence, ultrahigh‐performance neuromorphic computing plays a
significant role in executing multiple complex operations in parallel while adhering to a more …
significant role in executing multiple complex operations in parallel while adhering to a more …
Design consideration of ferroelectric field-effect-transistors with metal–ferroelectric–metal capacitor for ternary content addressable memory
The performance of ferroelectric field-effect transistor (FeFET)-based ternary content
addressable memory (TCAM) is examined to optimize the metal-ferroelectric-metal (MFM) …
addressable memory (TCAM) is examined to optimize the metal-ferroelectric-metal (MFM) …
Flexible Synaptic Memristors With Controlled Rigidity in Zirconium‐Oxo Clusters for High‐Precision Neuromorphic Computing
Flexible memristors are promising candidates for multifunctional neuromorphic computing
applications, overcoming the limitations of conventional computing devices. However …
applications, overcoming the limitations of conventional computing devices. However …