Carbon Nanodots from an In Silico Perspective
Francesca Mocci,Leon de Villiers Engelbrecht,Chiara Olla,Antonio Cappai,Maria Francesca Casula,Claudio Melis,Luigi Stagi,Aatto Laaksonen,Carlo Maria Carbonaro +8 more
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TL;DR: Carbon nanodots (CNDs) are the latest and most shining rising stars among photoluminescent (PL) nanomaterials as discussed by the authors , with a long list of benefits and emerging applications.
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Abstract: Carbon nanodots (CNDs) are the latest and most shining rising stars among photoluminescent (PL) nanomaterials. These carbon-based surface-passivated nanostructures compete with other related PL materials, including traditional semiconductor quantum dots and organic dyes, with a long list of benefits and emerging applications. Advantages of CNDs include tunable inherent optical properties and high photostability, rich possibilities for surface functionalization and doping, dispersibility, low toxicity, and viable synthesis (top-down and bottom-up) from organic materials. CNDs can be applied to biomedicine including imaging and sensing, drug-delivery, photodynamic therapy, photocatalysis but also to energy harvesting in solar cells and as LEDs. More applications are reported continuously, making this already a research field of its own. Understanding of the properties of CNDs requires one to go to the levels of electrons, atoms, molecules, and nanostructures at different scales using modern molecular modeling and to correlate it tightly with experiments. This review highlights different in silico techniques and studies, from quantum chemistry to the mesoscale, with particular reference to carbon nanodots, carbonaceous nanoparticles whose structural and photophysical properties are not fully elucidated. The role of experimental investigation is also presented. Hereby, we hope to encourage the reader to investigate CNDs and to apply virtual chemistry to obtain further insights needed to customize these amazing systems for novel prospective applications.
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Citations
Carbon dots: mysterious past, vibrant present, and expansive future
TL;DR: Carbon dots (CDs) are a vibrant subset of luminescent nanomaterials exhibiting structural and physicochemical properties that make them an ideal platform for the development of biological imaging agents, optoelectronic devices, and energy conversion/storage devices as discussed by the authors .
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Properties, synthesis, and applications of carbon dots: A review
TL;DR: The photoluminescence of CDs depends on various parameters including synthesis methods, starting materials, surface states, and heteroatom doping as mentioned in this paper , and the properties of CDs such as the optical, physical, chemical, and structural properties resulting from the particles synthesis design.
143
Carbon Dots Based Photoinduced Reactions: Advances and Perspective
TL;DR: In this article , the classification, microstructures, general synthetic methods, optical and photoelectrical properties of carbon dots are systematically summarized and several critical issues remaining in photocatalysis field are also proposed.
83
Carbon Dots for Electroluminescent Light-emitting Diodes: Recent Progress and Future Prospects.
Yuxin Shi,Wen Su,Fanglong Yuan,Ting Yuan,Xianzhi Song,Yu Han,Shuyan Wei,Yang Zhang,Yunchao Li,Xiaohong Li,Louzhen Fan +10 more
TL;DR: In this paper , a comprehensive overview of currently explored CDs, focusing on their key optical characteristics, is presented, which are closely related to the structural design of CDs from their carbon core to surface modifications to macroscopic structural engineering, including the embedding of CDs in the matrix or spatial arrangement of CDs.
65
Carbon Dot Based Multicolor Electroluminescent LEDs with Nearly 100% Exciton Utilization Efficiency.
Boyang Wang,Hongwei Wang,Yongsheng Hu,Geoffrey I. N. Waterhouse,Siyu Lu +4 more
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TL;DR: Researchers developed carbon dot-based multicolor electroluminescent LEDs with nearly 100% exciton utilization efficiency by creating composite films with poly(9-vinylcarbazole), achieving high external quantum efficiency and current efficiency.
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