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Related Concept Videos

Design Example: Resistive Touchscreen01:14

Design Example: Resistive Touchscreen

699
A device engineer plays a crucial role in designing user interfaces for mobile devices. One such interface is the resistive touchscreen, which fundamentally consists of two metallic layers: a flexible upper layer and a rigid lower layer, separated by a narrow gap. The high resistance between these two layers is a key characteristic of this design.
When a user touches the screen, the two layers make contact at a specific point known as the touchpoint. This contact reduces the resistance between...
699

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Fabrication of Ti3C2 MXene Microelectrode Arrays for In Vivo Neural Recording
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Flexible Monolithic 3D-Integrated Self-Powered Tactile Sensing Array Based on Holey MXene Paste.

Mengjie Wang1, Chen Chen1, Yuhang Zhang1

  • 1Information Materials and Intelligent Sensing Laboratory of Anhui Province, Industry-Education-Research Institute of Advanced Materials and Technology for Integrated Circuits, Institutes of Physical Science and Information Technology, Anhui University, Hefei, 230601, People's Republic of China.

Nano-Micro Letters
|September 15, 2025
PubMed
Summary
This summary is machine-generated.

Researchers developed a flexible 3D tactile sensing system using holey MXene paste. This system integrates microsupercapacitors and pressure sensors, enabling advanced human-computer interaction and smart access control.

Keywords:
Deep learning algorithmHoley MXeneMicrosupercapacitorMonolithic 3D integrationTactile sensor

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Electronics Engineering

Background:

  • Flexible electronics face challenges in 3D integration, including material compatibility and scalability.
  • Existing systems lack monolithic integration, leading to interface mismatches and reduced robustness.
  • Human skin's tactile sensing mechanism offers inspiration for advanced sensor design.

Purpose of the Study:

  • To develop a flexible monolithic 3D-integrated tactile sensing system.
  • To utilize holey MXene paste for multifunctional components (sensor, electrode, interconnect).
  • To demonstrate a scalable fabrication method and a proof-of-concept application.

Main Methods:

  • Fabrication of a flexible monolithic 3D tactile sensing system using holey MXene paste.
  • Utilizing blade-coating and stamping for large-scale device fabrication.
  • Integration of the sensing array into a smart access control system with deep learning.

Main Results:

  • The holey MXene paste enabled simultaneous microsupercapacitor and pressure sensing functions.
  • Improved ion accessibility and reduced nanosheet self-stacking due to in-plane mesopores.
  • Demonstrated excellent mechanical flexibility, low power consumption, rapid response, and stable operation.

Conclusions:

  • The developed system offers a promising approach for highly integrated, intelligent, and flexible electronic systems.
  • The multifunctional holey MXene paste significantly reduces interface mismatch and enhances mechanical robustness.
  • The system shows potential for advanced human-computer interactions and personalized electronics, including smart access control.