Nickel‐related centers in HPHT microdiamonds for near‐infrared luminescent thermometry

physica status solidi (RRL) – Rapid Research Letters Pub Date : 2023-08-29 DOI:10.1002/pssr.202300277

N. S. Kurochkin, V. Sychev, A. V. Gritsienko, D. Bi

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Abstract

Nano‐ and microcrystals of diamond are attractive for optical thermometry applications and possess unique optical properties as well as high chemical stability and biocompatibility. For biological application there are interest of diamonds with color centers that emit in the biological transparency window. One such defect is nickel‐related color centers that radiate in the near‐infrared range (1.4‐eV Ni centers), but have not yet been sufficiently investigated. This study reports the optical characteristics of HPHT diamond microcrystals with average sizes of 4 μm and 30 μm containing 1.4‐eV Ni centers. The temperature dependence of the spectral and temporal properties of Ni center emissions in the range from room temperature to 85 °C was demonstrated and thereby the possibility of appliance these centers as temperature sensors. The relative temperature sensitivities of luminescence peak intensity and lifetime for Ni centers were found to be 1.3% K−1 and 0.42% K−1, respectively. Moreover, the temperature determination accuracy reached better than 1 K.This article is protected by copyright. All rights reserved.

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用于近红外发光测温的HPHT微金刚石中的镍相关中心

金刚石的纳米晶体和微晶体在光学测温应用中具有吸引力，具有独特的光学特性以及高化学稳定性和生物相容性。对于生物应用，人们对具有在生物透明窗口中发光的色心的金刚石感兴趣。其中一个缺陷是镍相关的色心，它在近红外范围内辐射(1.4 eV镍中心)，但尚未得到充分的研究。本研究报道了平均尺寸为4 μm和30 μm的含1.4 eV Ni中心的HPHT金刚石微晶的光学特性。在室温至85°C范围内，Ni中心发射光谱和时间特性的温度依赖性得到了证明，从而证明了应用这些中心作为温度传感器的可能性。Ni中心发光峰强度和寿命的相对温度敏感度分别为1.3% K−1和0.42% K−1。测温精度达到1 K以上。这篇文章受版权保护。版权所有。

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physica status solidi (RRL) – Rapid Research Letters

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