材料科学
转印
数码产品
光电探测器
墨水池
基质(水族馆)
响应度
印刷电子产品
晶体管
纳米尺度
纳米技术
制作
光电子学
纳米线
炸薯条
接触印刷品
电气工程
计算机科学
电信
工程类
电压
复合材料
病理
医学
地质学
替代医学
海洋学
作者
Adamos Christou,Sihang Ma,Ayoub Zumeit,Abhishek Singh Dahiya,Ravinder Dahiya
标识
DOI:10.1002/aelm.202201116
摘要
Abstract Flexible hybrid electronics (FHE) offers potential for fast computation and communication needed in applications such as human–machine interfaces, electronic skin, etc. FHE typically comprises devices that can vary from nano‐ to chip scale, and their integration using a common process is often challenging. Herein, a printed electronics route is presented to integrate the ultrathin chips (chip‐scale) and nanowires (NWs)‐based electronic layers (nanoscale) on the same substrate. The fabrication process is categorized into three stages: i) direct transfer printing of ultrathin chips (UTCs), ii) contact printing of nanoscale structures, and iii) metal printing using the direct ink write (DIW) method to define electrodes/interconnects. The UTC printing process is carefully optimized by studying the performance of transistors present on them. Electrical data collected from 14 transistors located on 3 different chips show negligible variation in performance after they are transfer printed—thus confirming the efficacy of the printing technique. The superior grade quality of ZnO‐NWs‐based electronic layers printed on the same substrate is also demonstrated by constructing UV photodetectors using DIW printing. The photodetectors show high responsivity (≈2 × 10 7 A W −1 ) and specific detectivity (≈5 × 10 15 Jones) at a low UV intensity of 0.5 µW cm −2 .
科研通智能强力驱动
Strongly Powered by AbleSci AI