Simulation of the sensing mechanism in quantum dot gas sensor by quantum light harvesting approach

Abstract: Quantum dot (QD) gas sensors are one of the most useful nanotechnologies applied to protect people from unnecessary harm. This work theoretically explores the mechanism in QD gas sensors in order to advance the prudent design of relevant products. The theoretical model employed in this research is similar to the process in plants’ photosynthesis, referred to as charge separation of light harvesting. In this work, we investigate the details of energy transport in QD gas sensors carried by electrons from the cir… Show more

“…Moreover, OLED are very efficient to alter the light from a certain wavelength to other wavelengths [6]. On the other hand, quantum dots (QDs) [7] are a type of nanotechnology studied diversely such as hybridization [8], gas sensors [9] and medical imaging [10]. Modified QDs, like OLED, demonstrate the property to shift incident light wavelengths [11].…”

Transparent flexible fluorescent films based on natural rubber composited with quantum dots for traffic equipment

“…Moreover, OLED are very efficient to alter the light from a certain wavelength to other wavelengths [6]. On the other hand, quantum dots (QDs) [7] are a type of nanotechnology studied diversely such as hybridization [8], gas sensors [9] and medical imaging [10]. Modified QDs, like OLED, demonstrate the property to shift incident light wavelengths [11].…”

Transparent flexible fluorescent films based on natural rubber composited with quantum dots for traffic equipment

A holistic review on the recent trends, advances, and challenges for high-precision room temperature liquefied petroleum gas sensors