Hongyan Yu | Organic Phototransistors | Best Researcher Award

Yu Hongyan  is a dedicated doctoral student at Northeast Normal University , specializing in Condensed Matter Physics. Her research is centered on flexible organic phototransistors  and near-infrared (NIR) photodetection technologies . With a solid foundation in semiconductor physics and hands-on experience in device fabrication, she has authored 2 SCI-indexed papers  and holds a granted invention patent . Yu’s innovation in NIR photoelectric synaptic transistors mimics the human visual system  and promises advancements in neuromorphic imaging and AI vision systems . Her passion and precision mark her as a rising researcher in optoelectronics and flexible electronics .

Publication Profiles

Scopus

 Education & Experience 

•  Gained expertise in semiconductor physics, organic field-effect transistors, and flexible device fabrication
•  Focused on NIR organic field-effect phototransistors and their real-world applications
•  Published 2 SCI-indexed research articles
•  Granted 1 invention patent in the field of optoelectronics
•  Experience in synthesizing and testing flexible photodetector structures

Suitability for the Award

Yu Hongyan, a highly motivated doctoral student at Northeast Normal University, is a compelling nominee for the Best Researcher Award. Her research in Condensed Matter Physics with a specialized focus on semiconductor physics, organic field-effect transistors (OFETs), and near-infrared (NIR) phototransistors showcases strong technical depth and innovation. With a solid theoretical background and significant hands-on experience in flexible optoelectronic device fabrication, she has already contributed notable advancements to the field, establishing herself as an emerging talent in materials and photonic device research.

 Professional Development

Yu Hongyan  has developed a strong research profile through her commitment to innovation in flexible organic electronics . Her academic journey has been defined by continuous learning  and interdisciplinary skill-building in materials science, electronics, and photophysics . Her doctoral work includes collaborative research, device prototyping, and publishing in high-impact journals . With a focus on neuromorphic and bio-inspired photodetection systems , she actively bridges theory and application. She also contributes to advancing night vision technologies  and AI-enhanced visual systems . Her dedication to research excellence is reinforced by her publication record and innovation credentials .

 Research Focus 

Yu Hongyan’s research is primarily focused on Near-Infrared (NIR) organic field-effect phototransistors  and their integration into bionic optoelectronic synapse devices . Her innovations involve developing sandwich-structured photoactive layers to enable high-sensitivity light detection under low-intensity NIR illumination . The devices mimic human vision  and are designed for neuromorphic imaging and AI-based visual recognition systems . Her approach leverages organic semiconductor materials for flexibility, energy efficiency , and multifunctionality in real-world environments. Yu’s work significantly contributes to next-generation artificial vision, intelligent night vision systems , and bio-inspired electronics .

 Awards & Honors 

•  Invention Patent Granted for ultra-sensitive NIR phototransistor
•  2 SCI-indexed journal publications in advanced materials and optoelectronics
•  Recognition for innovation in bionic synaptic devices for AI vision
•  Nominated for Best Researcher Award in condensed matter physics and device innovation

Publication Top Noted

📄 “Synergistic polarization engineering of dielectric towards low-voltage high-mobility solution-processed ultraflexible organic transistors” (2024)  🔍