从海洋和农业废弃物中提取的掺杂 Eu3+ 的硅酸二钙中的碳点耦合提供了一种用于防伪、改善热感应和推进法医探索的发光装甲

IF 5.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Research Bulletin Pub Date : 2024-09-16 DOI:10.1016/j.materresbull.2024.113102
S. Priyanka Chakradhar , B.R. Radha Krushna , S.C. Sharma , S.S. Mohapatra , C. Krithika , Augustine George , Sardar pasha , K. Manjunatha , Sheng Yun Wu , Veera Vanitha , H. Nagabhushana
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引用次数: 0

摘要

通过固态(SS)方法合成了一系列基于β-Ca2SiO4:Eu3+(CDs@CSO:Eu3+)纳米碳点的红色发光复合材料(NCs),旨在提高其在潜伏指纹(LFPs)、唇印(LPs)检测、防伪(AC)技术和光学测温中的应用。粉末 X 射线衍射(PXRD)分析证实了荧光粉的单斜晶体结构。在 394 nm 激发下,掺杂 Eu3+ 的 β-CSO:Eu3+ 在 615 nm 处显示出宽广的红色发射峰,这归因于 Eu3+ 离子的 5D0→7F2 转变。Eu3+ 离子的最佳浓度被确定为 3 摩尔%,因为浓度越高,浓度淬灭(CQ)导致的光致发光(PL)发射强度越低。此外,根据国际照明委员会(CIE)的标准,使用这些荧光粉制造的白光发光二极管(w-LED)的色度坐标为(0.355, 0.352),CIE、相关色温(CCT)和色纯度(CP)指标显示其输出为亮绿色,其值分别为(0.6122, 0.3499)、1177 K 和 88.7%。经过优化的 3wt % CDs@β-CSO:3Eu3+ 复合材料的 CP 值高达 97.7%。值得注意的是,该复合材料在 420 K 时仍能保持 92.6% 的发射强度,显示出卓越的热稳定性。内部量子效率(IQE)达到了令人印象深刻的 85.8%,证明了该工艺的有效性。本研究探讨了复合材料在 LFPs 检测和螯合镜方面的应用。利用先进的荧光粉复合材料,我们增强了指纹(FPs)特征的可视化,包括 I 级(脊纹)、II 级(微切点)和 III 级(脊纹细节,如气孔和疤痕)。此外,该复合材料在纤支镜中的功效也得到了证明,它能捕捉到从 I 型到 VI 型的详细 LP。结果凸显了复合材料在指纹和 LP 分析中的卓越性能,为法医应用提供了更高的分辨率和可靠性。此外,还采用了一种新颖的方法,即使用优化的防伪油墨,通过笔刷模式创建 AC 图案。由此产生的 AC 标签具有高分辨率和耐用性的特点。这些研究结果表明,3wt%CDs@β-CSO:3Eu3+ 复合材料是一种优异的发光材料,可用于需要 LFP、AC 策略和光学温度计的领域。
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Coupling of carbon dots in Eu3+ doped dicalcium silicate, derived from marine and agro-waste, offers a luminescent armor for counterfeiting, improving thermal sensing and advancing forensic explorations
A series of red-emitting composite based on carbon dots in β-Ca2SiO4:Eu3+ (CDs@CSO:Eu3+) nanocomposites (NCs) were synthesized through a solid state (SS) method, aiming to enhance applications in latent fingerprints (LFPs), lip prints (LPs) detection, anti-counterfeiting (AC) techniques and optical thermometry. The powdered X-ray diffraction (PXRD) analysis confirmed the monoclinic crystal structure of the phosphor. Under 394 nm excitation, the Eu3+ doped β-CSO:Eu3+ display a broad red emission peak at 615 nm, attributed to the 5D07F2 transition of Eu3+ ions. The optimal concentration of Eu3+ ions is determined to be 3 mol %, as higher concentrations led to a decrease in photoluminescence (PL) emission intensity due to concentration quenching (CQ). Additionally, a fabricated white light emitting diode (w-LED) using these phosphors achieved chromaticity coordinates of (0.355, 0.352) according to the Commission International de L'Eclairage (CIE), with the CIE, correlated colour temperature (CCT), and colour purity (CP) metrics indicating a bright green output with values of (0.6122, 0.3499), 1177 K, and 88.7%, respectively. The optimized 3wt % CDs@β-CSO:3Eu3+ composite demonstrated a remarkable CP of 97.7 %. Notably, the composite maintained 92.6 % of their emission intensity at 420 K, showcasing exceptional thermal stability. The internal quantum efficiency (IQE) is an impressive 85.8%, demonstrating the effectiveness of the process. This study explores the application of composite materials for LFPs detection and cheiloscopy. Utilizing advanced phosphor composites, we achieved enhanced visualization of fingerprints (FPs) features, including level I (ridge patterns), level II (minutiae points), and level III (ridge details such as pores and scars). Additionally, the composite's efficacy is demonstrated in cheiloscopy, capturing detailed LPs across type I to VI categories. The results highlight the composite's superior performance in both fingerprint and LP analysis, offering improved resolution and reliability for forensic applications. In addition, a novel approach is employed via brush mode to create AC patterns using optimized security ink. The resulting AC tags featured high resolution and durability. These findings underscore the 3wt%CDs@β-CSO:3Eu3+ composite as superior luminescent materials for use in fields requiring LFP, AC strategies, and optical thermometry.
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来源期刊
Materials Research Bulletin
Materials Research Bulletin 工程技术-材料科学:综合
CiteScore
9.80
自引率
5.60%
发文量
372
审稿时长
42 days
期刊介绍: Materials Research Bulletin is an international journal reporting high-impact research on processing-structure-property relationships in functional materials and nanomaterials with interesting electronic, magnetic, optical, thermal, mechanical or catalytic properties. Papers purely on thermodynamics or theoretical calculations (e.g., density functional theory) do not fall within the scope of the journal unless they also demonstrate a clear link to physical properties. Topics covered include functional materials (e.g., dielectrics, pyroelectrics, piezoelectrics, ferroelectrics, relaxors, thermoelectrics, etc.); electrochemistry and solid-state ionics (e.g., photovoltaics, batteries, sensors, and fuel cells); nanomaterials, graphene, and nanocomposites; luminescence and photocatalysis; crystal-structure and defect-structure analysis; novel electronics; non-crystalline solids; flexible electronics; protein-material interactions; and polymeric ion-exchange membranes.
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