Broadband enhancement of quantum dot emission for microLED using Ag plasmonic nanoparticles

A. Kannegulla; Y. Liu; Y.-C. Wang; B. Wu; L.-J. Cheng

doi:10.1117/12.2322114

19 September 2018 Broadband enhancement of quantum dot emission for microLED using Ag plasmonic nanoparticles

A. Kannegulla, Y. Liu, Y.-C. Wang, B. Wu, L.-J. Cheng

Author Affiliations +

Proceedings Volume 10722, Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVI; 107220J (2018) https://doi.org/10.1117/12.2322114
Event: SPIE Nanoscience + Engineering, 2018, San Diego, California, United States

Abstract

MicroLED display is emerging as a candidate to drive a new generation of display technology. Full-color microLED based on carbon-dots (CDs) and blue microLED utilizes photoluminescence (PL) of blue-excited red and green emission CDs to achieve large coverage of color gamut and low power consumption. There is a high demand to develop costeffective technologies to enhance CD emission and minimize blue excitation light leakage through the CD layer. Here we demonstrate the use of plasmonic nanoparticles to enhance multicolor CDs in the emitting layer of microLED while suppressing the transmission of blue excitation. Silver nanoparticles are known to have surface plasmon resonances in or close to the blue range. Blue excitation over an emitting layer formed by the mixture of CDs and metal nanoparticles leads to excitation enhancement of CDs and thus the increased quantum efficiency. We studied the emitting layers fabricated by dispersing a mixture of 30 nm silver nanoparticles and CDs at various ratios and obtained a maximum enhancement factor of ~8. The metal nanoparticles also absorbed the blue excitation and reduced the leakage of blue light. Fluorescence lifetime measurements showed negligible changes in the CD emission rate with and without the presence of metal nanoparticles. The analysis implies that the enhanced CD PL is a result of excitation enhancement rather than Purcell effect. This technique offers a low-cost, effective approach to improve the performance of microLED displays.

Conference Presentation

Citation Download Citation

A. Kannegulla, Y. Liu, Y.-C. Wang, B. Wu, and L.-J. Cheng "Broadband enhancement of quantum dot emission for microLED using Ag plasmonic nanoparticles", Proc. SPIE 10722, Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVI, 107220J (19 September 2018); https://doi.org/10.1117/12.2322114

ACCESS THE FULL ARTICLE

INSTITUTIONAL
Select your institution to access the SPIE Digital Library.

SELECT YOUR INSTITUTION

PERSONAL
Sign in with your SPIE account to access your personal subscriptions or to use specific features such as save to my library, sign up for alerts, save searches, etc.

PERSONAL SIGN IN

No SPIE Account? Create one

;

PURCHASE THIS CONTENT

SUBSCRIBE TO DIGITAL LIBRARY

50 downloads per 1-year subscription

Members: $195

Non-members: $335 ADD TO CART

25 downloads per 1 - year subscription

Members: $145

Non-members: $250 ADD TO CART

PURCHASE SINGLE ARTICLE