Presentation Type
Panel Discussion
Start Date
12-3-2022 1:00 PM
End Date
12-3-2022 2:30 PM
Abstract
Light is a key element in our daily lives. An environment with eye catching navigation to offices, lecture halls and buildings is very essential in a high citadel of learning since the campus will always be occupied by students or diverse group of people trying to make way into their respective destination. Herein, the goal of the project is to investigate multifunctional carbazole compounds with ease of tunability to design, develop, and characterize (including basic understanding of the essential chemical and physical phenomena), using prompt and inexpensive methods. More specifically, photodynamic properties of newly designed carbazole-based cored compounds with room temperature phosphorescence (RTP) characteristics will be investigated. These RTP compounds are developed by selecting two fragments—known as the donor and acceptor moieties—. It is worth pointing that RTP-based carbazole compounds offer distinct advantages over existing inorganic materials due to their low cost, eco-friendly nature, simplicity in the syntheses processes, broad tunability, and flexibility in tailoring photophysical properties. RTP emission can be tuned easily to acquire advanced photophysical characteristics including excellent photostability, high quantum yield, tunable absorption and emission spectra, tunable singlet and triplet energy gap and alterable excited state lifetimes for various optoelectronic applications. This research idea is novel and will proffer me the opportunity to gain hands-on experience with RTP-displaying molecules, absorption and fluorescence spectroscopy, and relevant scientific applications.
Included in
Room Temperature phosphorescence material for use in low-cost lighting technology
Light is a key element in our daily lives. An environment with eye catching navigation to offices, lecture halls and buildings is very essential in a high citadel of learning since the campus will always be occupied by students or diverse group of people trying to make way into their respective destination. Herein, the goal of the project is to investigate multifunctional carbazole compounds with ease of tunability to design, develop, and characterize (including basic understanding of the essential chemical and physical phenomena), using prompt and inexpensive methods. More specifically, photodynamic properties of newly designed carbazole-based cored compounds with room temperature phosphorescence (RTP) characteristics will be investigated. These RTP compounds are developed by selecting two fragments—known as the donor and acceptor moieties—. It is worth pointing that RTP-based carbazole compounds offer distinct advantages over existing inorganic materials due to their low cost, eco-friendly nature, simplicity in the syntheses processes, broad tunability, and flexibility in tailoring photophysical properties. RTP emission can be tuned easily to acquire advanced photophysical characteristics including excellent photostability, high quantum yield, tunable absorption and emission spectra, tunable singlet and triplet energy gap and alterable excited state lifetimes for various optoelectronic applications. This research idea is novel and will proffer me the opportunity to gain hands-on experience with RTP-displaying molecules, absorption and fluorescence spectroscopy, and relevant scientific applications.