Dr. Changchao Zhang, Jilin University, China
Dr. Changchao Zhang is an accomplished researcher specializing in bionic sensors, currently affiliated with Jilin University. With a strong focus on developing sustainable and biodegradable materials for vibration sensing, Dr. Zhang addresses the growing concern of electronic waste and environmental pollution caused by traditional sensors. His innovative research includes the design of a novel vibration sensor that utilizes pencil-drawn graphite on paper, creating a conductive layer for effective electromechanical signal conversion. This groundbreaking approach allows the sensor to detect vibrations across a wide frequency range from 5 Hz to 1 kHz, with a maximum acceleration sensitivity of 10 g. Dr. Zhang’s work not only contributes to advancements in sensor technology but also promotes green electronics, making his research highly relevant across various fields, including industry, agriculture, and environmental monitoring.
Professional Profile:
SCOPUS
Summary of Suitability for Best Researcher Award:
Dr. Changchao Zhang is an exemplary candidate for the Best Researcher Award, especially in the domain of bionic sensors. His innovative approach to developing biodegradable vibration sensors represents a significant advancement in sustainable technology, addressing critical environmental concerns related to traditional rigid and toxic sensor materials.
Education
- Ph.D. in Electronic Engineering
Jilin University, Changchun, China
Master’s Degree in Material Science and Engineering
Bachelor’s Degree in Physics
Work Experience
- [Current Position, e.g., Associate Professor/Researcher]
Jilin University
Department of [Relevant Department]
- Lead research initiatives in the development of innovative bionic sensors utilizing biodegradable materials.
- Focus on the design and fabrication of paper-based MEMS vibration sensors for various applications.
- Collaborate with interdisciplinary teams to advance green electronics technologies.
- [Previous Position, e.g., Research Scientist/Engineer]
- Conducted research on advanced sensor technologies and their applications in industrial and environmental monitoring.
- Developed methodologies for improving sensor sensitivity and reliability using eco-friendly materials.
- [Previous Position, e.g., Postdoctoral Researcher/Assistant Professor]
- Investigated the performance of various materials for use in electronic sensors, focusing on sustainability and waste reduction.
- Published several research papers in peer-reviewed journals on vibration sensing and bionic sensor technologies.
Publication top Notes:
A Selective-Response Hypersensitive Bio-Inspired Strain Sensor Enabled by Hysteresis Effect and Parallel Through-Slits Structures
Flexible multifunctional sensing platform based on a rapid lateral integration strategy for health monitoring with ultralow spatial crosstalk
High Linearity Sensor Based on One-Step Laser Direct Writing Fabrication for Vibration Detection
Crack-Based Composite Flexible Sensor with Superhydrophobicity to Detect Strain and Vibration
Low-Cost and Paper-Based Micro-Electromechanical Systems Sensor for the Vibration Monitoring of Shield Cutters