Advanced Optoelectronic Devices and Imaging Approaches

Photo-electric devices, which rely on the interaction between light and objects to produce specific effects or functions, have been widely utilized in various devices and systems such as advanced quantum sensors, high-efficiency energy collector, displays, computer chip and other cutting-edge instruments. Especially, due to the nano-level precise structure in opto-electrice device, sub-wavelength functional structures allow effective control and research of electromagnetic fields at nanometer size, breaking through traditional theory limitations. Therefore, with advancements in high-precision nanostructure fabrication processes and research on new materials, the performance of smaller photo-electric devices has significantly increased. This has revolutionized miniaturization and integration in a new generation of various devices, promoting its capabilities of high bandwidth, ultra-compactness, good performance, and multifunctionality. The exceptional performance of these devices holds immense potential for future applications in diverse fields such as medicine, education, energy, entertainment and industry, making integrated optoelectronic devices becomes indispensable for their practical implementation.

The primary objective of this Research Topic is to investigate and emphasize advancements in micro- and nanostructure optoelectronic devices and systems, as well as their application in quantum sensors, advanced displays, high-resolution imaging devices, flexible devices, bionic devices, etc. By utilizing micro- and nanostructure fabrication techniques, our objective is to gain a comprehensive understanding of how to optimize device performance, implement it into practical system architecture, and elucidate the underlying mechanisms governing enhanced performance and light-matter interaction in nanostructures. Furthermore, our attention is also directed towards the development of new materials and the design of innovative device structures, aiming to enhance the performance of devices and expand their application potential.

We invite authors to explore a wide range of themes within the scope of this Research Topic, including innovative applications of quantum sensors, advanced display technologies, high-resolution imaging devices, flexible electronic systems, bionic devices, etc. Additionally, we encourage optimization of structural design and novel material research to enhance mobility and achieve high-resolution or high-sensitivity capabilities while facilitating integration with other sophisticated instruments.

We welcome original research articles, review papers, and short communications that contribute to understanding and enhancing optoelectronic devices and systems. Manuscripts should provide new insights, present experimental or theoretical studies, and highlight the potential impact of the research in this field. Topics include, but are not limited to:
- Quantum sensors
- Advanced display (OLED/QLED/PLED/MicroLED, ect.)
- Ultra-high resolution imaging devices
- Flexible electronic devices
- Bionic devices
- Metasurface-based devices
- Solar cell

Keywords: Quantum sensor, Metasurface, Advanced display, High-resolution imaging device, Flexible device, Bionic device

Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.