Abstract
Recently, quantum dots (QDs) are finding enormous application in white light emitting diodes (WLEDs) and WLEDs with high color rendition are in high demand. QD-WLEDs use different color (Red, Blue, Green) emitting QDs to obtain white light. Use of different color emitting QDs affect purity of white light due to self-absorption losses and QD degradation, in the long run affecting color rendering index (CRI) of WLEDs. Herein, we report low cost, environment friendly, open air atmosphere synthesis of single system white light emitting carbon dots (CDs) with broad emission bandwidth ranging 116 –143 nm and quantum yields (QY) ~ 5 – 13 % in colloidal state by modifying CD surface. Furthermore, carbon dot polymer phosphor (CD-PDMS phosphor) is fabricated which emits white light under UV illumination with a record emission bandwidth of ~ 154 nm and QY ~ 16 % in solid state. Moreover, CD-PDMS phosphor exhibit excellent color rendering index (CRI) ~ 96, the highest reported so far with CIE co-ordinates (0.31, 0.33) that are quite akin to pure white light. Such high performances are achieved due to high quality of CDs and CD-PDMS polymer phosphors by precise control in passivation/functionalization of nanoparticle surface. This work will set platform for the application of CD-phosphor based WLEDs in lighting systems.
Highlights
Quantum dots (QDs) are finding enormous application in white light emitting diodes (WLEDs) and WLEDs with high color rendition are in high demand
Several reports have been published on the fabrication of carbon dot based WLEDs involving tri color WLEDs with color rendering index (CRI) 92.9 and 81.1 with CIE color co-ordinate (0.3305, 0.3320) and (0.4046, 0.4028) respectively[23], tri-color carbon dots (CDs)-WLED with CRI 92 and CIE (0.33, 0.34)[24], orange emissive CD-WLED with CIE (0.41, 0.45)[25], Orange emissive carbon dot phosphors for WLEDs with CRI 91 and CIE (0.41, 0.39)[26], tri-CD films integrated with UV-LED chip based WLED with CRI of 96.5 and CIE (0.362, 0.370)
These tri-color CD based WLEDs suffer from self-absorption losses and degradation of CDs with time, affecting CRI and quality of white light generated from these WLEDs
Summary
Quantum dots (QDs) are finding enormous application in white light emitting diodes (WLEDs) and WLEDs with high color rendition are in high demand. These tri-color CD based WLEDs suffer from self-absorption losses and degradation of CDs with time, affecting CRI and quality of white light generated from these WLEDs. In this paper we report in detail, one step fabrication of single system white light emitting CDs in open air atmosphere with quantum yields (QY) of 5 – 13 % in solution phase.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
