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Meeting

MS&T26: Materials Science & Technology

Symposium

Advances in Emerging Electronic Nanomaterials: Towards Next-Generation Microelectronics

Presentation Title

Mxene-enabled Micro-Battery Architectures for Advanced Semiconductor Devices

Author(s)

Jenny Qiu, Shiren Wang, Chunka Zhou

On-Site Speaker (Planned)

Shiren Wang

Abstract Scope

As microelectronic devices transition toward advanced nodes and neuromorphic architectures, the demand for high-capacity, integrated energy storage solutions that bypass the limitations of traditional lithium-ion systems has become critical. This study explores the synthesis and electrochemical characterization of a novel Zinc-ion battery (ZIB) system utilizing 2D MXene nanosheets coupled with a specialized eutectic gel electrolyte. By leveraging the high metallic conductivity and tunable surface chemistry of MXenes, we demonstrate a hierarchical 2D structure that facilitates rapid ion transport and mitigates dendrite formation at the anode interface. The integration of a eutectic gel electrolyte provides a robust organic-inorganic hybrid framework, ensuring high thermal stability and mechanical flexibility. Our results indicate that this ZIB system achieves superior energy density and cycling stability compared to standard aqueous ZIBs. This research provides a fundamental understanding of structure-property relationships at the nanoscale, offering a viable pathway for powering self-sustained sensing and computing platforms.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

4D-STEM and Machine Learning for Nanoscale Structure-Property Mapping in Emerging Electronic Materials

A General Process to Produce Large-Size Single Crystal Room-Temperature Diluted Magnetic Semiconductors

Atomic-Resolution Imaging of Ferroelectric Domains in Emerging Fluorite-Type Ferroelectrics

Bio-Inspired Event-based Infrared Vision Enabled by Colloidal Quantum Dots

Effects of Ta Crystalline Phase on Ultrathin TaO_x Neuromorphic Devices

Electronics Enabled by Mechanical Metamaterials

Engineered Transparency and Conductivity of IZO/Ag/IZO Multilayers by Intense Pulsed Light for Perovskite Solar Cells

Fabrication and Characterization of SnO2/CdS Quantum Dots Heterojunction for UV-Vis Sensitive Low-Voltage Phototransistors

Heterogeneous Integration Using Freestanding Gallium Nitride Membranes

Inverse-Designed 3D Holographic Lithography for Next-Generation Microelectronic Architectures

Ion Beam Treatment to Control Properties of Two-Dimensional Semiconductors

Large-Scale, Crack-Free Oxide Membranes for Tunable Twistronics

Laser-Engineered Graphene Composites for Emerging Electronic Nanomaterials

Metal Nanowire-Based Electrodes and Their Applications in Optoelectronics and Bioelectronics

Mxene-enabled Micro-Battery Architectures for Advanced Semiconductor Devices

Scaling and Integration of Hafnia-Based Ferroelectrics for High-Density and Neuromorphic Applications

Spatiotemporal Laser Control of Iron-Oxide-Nanoparticle-Integrated Graphene Microelectrodes for Bioelectronic Sensing

Sub-5nm Thick Plasma-Enhanced Atomic Layer Deposited Indium Oxynitride Channel Transistor for 3D Monolithic Device Applications

Thermodynamic Modeling and CVD Synthesis of Mo, Nb, and V MXene Precursors

Topological Semimetal and Single-Crystalline Cu for Overcoming Resistivity Scaling in Nanoscale Interconnects

Toward Controlled Synthesis of 2D Materials: Data-Driven Modeling of ALD Growth Mechanisms

Wafer-Scale 2D Semiconductors Integrated on Arbitrary Substrates for Emerging Optoelectronic Artificial Synapses with Flexoelectricity

Field Gradient Engineering of van der Waals Semiconductors

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