Tailoring the photoluminescence of atomically precise nanoclusters,Chemical Society Reviews

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Tailoring the photoluminescence of atomically precise nanoclusters
Chemical Society Reviews ( IF 40.4 ) Pub Date : 2019-03-06 00:00:00 , DOI: 10.1039/c8cs00800k
Xi Kang _{1,

2,

3,

4,

5} , Manzhou Zhu _{1,

2,

3,

4,

5}

Affiliation

Due to their atomically precise structures and intriguing chemical/physical properties, metal nanoclusters are an emerging class of modular nanomaterials. Photo-luminescence (PL) is one of their most fascinating properties, due to the plethora of promising PL-based applications, such as chemical sensing, bio-imaging, cell labeling, phototherapy, drug delivery, and so on. However, the PL of most current nanoclusters is still unsatisfactory—the PL quantum yield (QY) is relatively low (generally lower than 20%), the emission lifetimes are generally in the nanosecond range, and the emitted color is always red (emission wavelengths of above 630 nm). To address these shortcomings, several strategies have been adopted, and are reviewed herein: capped-ligand engineering, metallic kernel alloying, aggregation-induced emission, self-assembly of nanocluster building blocks into cluster-based networks, and adjustments on external environment factors. We further review promising applications of these fluorescent nanoclusters, with particular focus on their potential to impact the fields of chemical sensing, bio-imaging, and bio-labeling. Finally, scope for improvements and future perspectives of these novel nanomaterials are highlighted as well. Our intended audience is the broader scientific community interested in the fluorescence of metal nanoclusters, and our review hopefully opens up new horizons for these scientists to manipulate PL properties of nanoclusters. This review is based on publications available up to December 2018.

中文翻译：

定制原子精确的纳米团簇的光致发光

由于其原子精确的结构和有趣的化学/物理性质，金属纳米团簇是一类新兴的模块化纳米材料。由于大量有前途的基于PL的应用（例如化学传感，生物成像，细胞标记，光疗，药物递送等），光致发光（PL）是其最引人入胜的特性之一。但是，当前大多数纳米团簇的PL仍然不能令人满意-PL量子产率（QY）相对较低（通常低于20％），发射寿命通常在纳秒范围内，并且发射的颜色始终为红色（发射波长） 630nm以上）。为了解决这些缺点，我们采用了几种策略，并在此进行了综述：封端配体工程，金属核合金化，聚集诱导的发射，纳米集群构建块的自组装到基于集群的网络中，以及对外部环境因素的调整。我们进一步审查了这些荧光纳米团簇的有前途的应用，特别关注它们对化学传感，生物成像和生物标记领域产生影响的潜力。最后，还强调了这些新型纳米材料的改进范围和未来前景。我们的目标受众是对金属纳米团簇的荧光感兴趣的广大科学界，我们的综述有望为这些科学家操纵纳米团簇的PL特性开辟新的视野。这篇评论基于截至2018年12月的出版物。我们进一步审查了这些荧光纳米团簇的有前途的应用，特别关注它们对化学传感，生物成像和生物标记领域产生影响的潜力。最后，还强调了这些新型纳米材料的改进范围和未来前景。我们的目标受众是对金属纳米团簇的荧光感兴趣的广大科学界，我们的综述有望为这些科学家操纵纳米团簇的PL特性开辟新的视野。这篇评论基于截至2018年12月的出版物。我们进一步审查了这些荧光纳米团簇的有前途的应用，特别关注它们对化学传感，生物成像和生物标记领域产生影响的潜力。最后，还强调了这些新型纳米材料的改进范围和未来前景。我们的目标受众是对金属纳米团簇的荧光感兴趣的广大科学界，我们的综述有望为这些科学家操纵纳米团簇的PL特性开辟新的视野。这篇评论基于截至2018年12月的出版物。我们的目标受众是对金属纳米团簇的荧光感兴趣的广大科学界，我们的综述有望为这些科学家操纵纳米团簇的PL特性开辟新的视野。这篇评论基于截至2018年12月的出版物。我们的目标受众是对金属纳米团簇的荧光感兴趣的广大科学界，我们的综述有望为这些科学家操纵纳米团簇的PL特性开辟新的视野。这篇评论基于截至2018年12月的出版物。

更新日期：2019-03-06

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