Javascript must be enabled to continue!

Transfer printing techniques for flexible and stretchable inorganic electronics

AbstractTransfer printing is an emerging deterministic assembly technique for micro-fabrication and nano-fabrication, which enables the heterogeneous integration of classes of materials into desired functional layouts. It creates engineering opportunities in the area of flexible and stretchable inorganic electronics with equal performance to conventional wafer-based devices but the ability to be deformed like a rubber, where prefabricated inorganic semiconductor materials or devices on the donor wafer are required to be transfer-printed onto unconventional flexible substrates. This paper provides a brief review of recent advances on transfer printing techniques for flexible and stretchable inorganic electronics. The basic concept for each transfer printing technique is overviewed. The performances of these transfer printing techniques are summarized and compared followed by the discussions of perspectives and challenges for future developments and applications.

Springer Science and Business Media LLC

Changhong Linghu Shun Zhang Chengjun Wang Jizhou Song

npj Flexible Electronics

2018

Title: Transfer printing techniques for flexible and stretchable inorganic electronics

Description:

It creates engineering opportunities in the area of flexible and stretchable inorganic electronics with equal performance to conventional wafer-based devices but the ability to be deformed like a rubber, where prefabricated inorganic semiconductor materials or devices on the donor wafer are required to be transfer-printed onto unconventional flexible substrates.

This paper provides a brief review of recent advances on transfer printing techniques for flexible and stretchable inorganic electronics.

The basic concept for each transfer printing technique is overviewed.

The performances of these transfer printing techniques are summarized and compared followed by the discussions of perspectives and challenges for future developments and applications.

Back

The human body is a dynamic three-dimensional soft entity. Metal lines in commercially available electronic devices are mechanically flexible yet insufficiently deformable, enablin...

A flexible and stretchable photonic crystal sensor for biosensing and tactile sensing

Abstract A flexible and stretchable photonic crystal that can be used for biosensing and tactile sensing is designed and demonstrated. The nanograting of a flexible and str...

Stretchable Systems

Stretchable electronics is one of the transformative pillars of future flexible electronics. As a result, the research on new passive and active materials, novel designs, and engin...

The Impact of Stress Distribution on The Electrical Performance of Different Silver Stretchable Conductive Ink Pattern Using FEA Simulation

Stretchable conductive ink has been widely investigated to be used in the fabrication of stretchable electrical devices. Experimentation methods to test the mechanical and electric...

Navigating the Future of Wearable Devices with Flexible Electronics

The future of wearable devices is being revolutionized by the advent of flexible electronics, which offer unparalleled advantages in terms of comfort, adaptability, and functionali...

Efficient and Stable All‐Inorganic Perovskite Solar Cells

The large‐scale commercial application of organic–inorganic hybrid perovskite solar cells (PSCs) based on organic hole transport material (HTM) is still hindered by poor long‐term ...

25 Years of Light‐Emitting Electrochemical Cells: A Flexible and Stretchable Perspective

AbstractLight‐emitting electrochemical cells (LECs) are simple electroluminescent devices comprising an emissive material containing mobile ions sandwiched between two electrodes. ...

Subsea Scale Management in Pre-Salt Wells: Challenges and Solutions

Abstract This paper presents a case study on inorganic scale management in Brazil's carbonate pre-salt wells. The reservoir lies in water depths of around 2140 m and...

Email:
Password:

Email:

Transfer printing techniques for flexible and stretchable inorganic electronics

Related Results