Mini Light‐Emitting Diode Technology with High Quantum Efficient NIR‐II Partially Inverse Spinel MgGa2O4:Cr3+,Ni2+ Nanophosphors-Reference-Cited by-同舟云学术

Mini Light‐Emitting Diode Technology with High Quantum Efficient NIR‐II Partially Inverse Spinel MgGa₂O₄:Cr³⁺,Ni²⁺ Nanophosphors

Published:2024-03-27 Issue:19 Volume:12 Page:
ISSN:2195-1071
Container-title:Advanced Optical Materials
language:en
Short-container-title:Advanced Optical Materials

Author:

Satpathy Aishwarya¹²,Huang Wen‐Tse¹,Liu Tzu‐Hsuan¹,Su Ting‐Yi¹,Zhang Wei³,Kamiński Mikołaj⁴,Grzegorczyk Maciej⁴,Chen Jia‐Hao⁵,Cherng Ding‐Hua⁵,Lu Kuang‐Mao⁵,Chen Xueyuan³,Mahlik Sebastian⁴⁶,Liu Ru‐Shi¹^ORCID

Affiliation:

1. Department of Chemistry National Taiwan University Taipei 106 Taiwan

2. Nanoscience and Technology Program Taiwan International Graduate Program Academia Sinica and National Taiwan University Academia Road 128, Taipei Nankang 115 Taiwan

3. Fujian Key Laboratory of Nanomaterials and CAS Key Laboratory of Design and Assembly of Functional Nanostructures Fujian Institute of Research on the Structure of Matter Chinese Academy of Sciences Fuzhou Fujian 350002 China

4. Institute of Experimental Physics Faculty of Mathematics Physics and Informatics University of Gdańsk Wita Stwosza 57 Gdańsk 80–308 Poland

5. Everlight Electronics Co., Ltd. New Taipei City 238 Taiwan

6. International Centre for Theory of Quantum Technologies University of Gdańsk Gdańsk 80–308 Poland

Abstract

AbstractThe increasing demand for second near‐infrared (NIR‐II) region materials, which retain the advantage of minimal scattering and immense applications in the medical and NIR spectroscopy field, has led to considerable research in this region. A mini light‐emitting diode (mini‐LED) is essential for backlighting liquid crystal displays, indicating the need for the small size of phosphors. However, current market phosphors must be more significant to be a viable option for mini‐LEDs. This scenario necessitates the synthesis of small‐sized phosphors to be used in mini‐LEDs. In this work, a mesoporous silica nanoparticle (MSN) and incorporated the Mg1−yGa2−xO4:xCr3+,yNi2+ system is fabricated. The structural investigation confirmed the single phase of MgGa2O4 with a pore size of 2.73 nm for the MSN. The results showed a steady NIR‐II signal at 1270 nm and an enhanced energy transfer with a high quantum yield of 79.2% for a nanophosphor. The mini‐LED package revealed a 1000–1600 nm signal, qualifying the nanophosphor for realistic applications. This work can make provisions for various NIR‐II nanophosphors in the LED industry.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adom.202400130

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