Litcius/Paper detail

Time Division Colorful Multiplexing Based on Carbon Nanodots with Modifiable Colors and Lifetimes

Liying Jiang, Yu-Chen Zhou, Sifan Zhang, Hao‐Chun Shao, Ya‐Chuan Liang

2024Nano Letters22 citationsDOI

Abstract

Optical multiplexing technology plays a crucial role in various fields such as data storage, anti-counterfeiting, and time-resolved biological imaging. Nevertheless, employing single-wavelength phosphorescence for multiplexing often results in spectral overlap among the emission peaks of various channels, which can precipitate crosstalk and misinterpretation in the information-decoding process, thereby compromising the integrity and precision of the encrypted data. This paper proposes a time-divided colorful multiplexing technology based on phosphorescent carbon nanodots with different colors and lifetimes. Using different luminescence colors to symbolize varying information levels helps achieve multitiered information encryption and storage. By modulation of the lifetime and the emission wavelength, intricate information can be encoded, thereby enhancing the intricacy and security of the encryption mechanism. By assigning different data bits to each color, more information can be encoded in the same physical space. This method enables higher-density information storage and fortifies encryption, ensuring the compactness and security of information.

Topics & Concepts

NanodotDivision (mathematics)Carbon fibersMultiplexingMaterials scienceNanotechnologyStructural colorationOptoelectronicsComputer scienceTelecommunicationsPhotonic crystalMathematicsComposite materialComposite numberArithmeticCarbon and Quantum Dots ApplicationsConducting polymers and applicationsGold and Silver Nanoparticles Synthesis and Applications