Molecular-sized fluorescent nanodiamonds
Doping of carbon nanoparticles with impurity atoms is central to their application 1 , 2 . However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures 3 . Here, we sh...
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Published in | Nature nanotechnology Vol. 9; no. 1; pp. 54 - 58 |
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Main Authors | , , , , , , , , , , , , , , , , , |
Format | Journal Article |
Language | English |
Published |
London
Nature Publishing Group UK
01.01.2014
Nature Publishing Group |
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Abstract | Doping of carbon nanoparticles with impurity atoms is central to their application
1
,
2
. However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures
3
. Here, we show that isolated diamond nanoparticles as small as 1.6 nm, comprising only ∼400 carbon atoms, are capable of housing stable photoluminescent colour centres, namely the silicon vacancy (SiV)
4
,
5
. Surprisingly, fluorescence from SiVs is stable over time, and few or only single colour centres are found per nanocrystal. We also observe size-dependent SiV emission supported by quantum-chemical simulation of SiV energy levels in small nanodiamonds. Our work opens the way to investigating the physics and chemistry of molecular-sized cubic carbon clusters and promises the application of ultrasmall non-perturbative fluorescent nanoparticles as markers in microscopy and sensing.
Diamond nanoparticles containing only about 400 atoms emit bright fluorescence due to silicon vacancy defects. |
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AbstractList | Doping of carbon nanoparticles with impurity atoms is central to their application. However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures. Here, we show that isolated diamond nanoparticles as small as 1.6 nm, comprising only ∼400 carbon atoms, are capable of housing stable photoluminescent colour centres, namely the silicon vacancy (SiV). Surprisingly, fluorescence from SiVs is stable over time, and few or only single colour centres are found per nanocrystal. We also observe size-dependent SiV emission supported by quantum-chemical simulation of SiV energy levels in small nanodiamonds. Our work opens the way to investigating the physics and chemistry of molecular-sized cubic carbon clusters and promises the application of ultrasmall non-perturbative fluorescent nanoparticles as markers in microscopy and sensing. Doping of carbon nanoparticles with impurity atoms is central to their application 1 , 2 . However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures 3 . Here, we show that isolated diamond nanoparticles as small as 1.6 nm, comprising only ∼400 carbon atoms, are capable of housing stable photoluminescent colour centres, namely the silicon vacancy (SiV) 4 , 5 . Surprisingly, fluorescence from SiVs is stable over time, and few or only single colour centres are found per nanocrystal. We also observe size-dependent SiV emission supported by quantum-chemical simulation of SiV energy levels in small nanodiamonds. Our work opens the way to investigating the physics and chemistry of molecular-sized cubic carbon clusters and promises the application of ultrasmall non-perturbative fluorescent nanoparticles as markers in microscopy and sensing. Diamond nanoparticles containing only about 400 atoms emit bright fluorescence due to silicon vacancy defects. Doping of carbon nanoparticles with impurity atoms is central to their application. However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures. Here, we show that isolated diamond nanoparticles as small as 1.6 nm, comprising only 400 carbon atoms, are capable of housing stable photoluminescent colour centres, namely the silicon vacancy (SiV). Surprisingly, fluorescence from SiVs is stable over time, and few or only single colour centres are found per nanocrystal. We also observe size-dependent SiV emission supported by quantum-chemical simulation of SiV energy levels in small nanodiamonds. Our work opens the way to investigating the physics and chemistry of molecular-sized cubic carbon clusters and promises the application of ultrasmall non-perturbative fluorescent nanoparticles as markers in microscopy and sensing. |
Author | Vlasov, Igor I. Vörös, Márton Shiryaev, Andrey A. Kaiser, Ute Jelezko, Fedor Konov, Vitaly I. Gali, Adam Sildos, Ilmo Steinert, Steffen Fisenko, Anatolii V. Wrachtrup, Jörg Antonov, Denis Semjonova, Lubov F. Lee, Sang-Yun Lebedev, Oleg I. Biskupek, Johannes Hemmer, Philip. R. Rendler, Torsten |
Author_xml | – sequence: 1 givenname: Igor I. surname: Vlasov fullname: Vlasov, Igor I. organization: General Physics Institute RAS – sequence: 2 givenname: Andrey A. surname: Shiryaev fullname: Shiryaev, Andrey A. organization: Institute of Physical Chemistry and Electrochemistry RAS – sequence: 3 givenname: Torsten surname: Rendler fullname: Rendler, Torsten organization: 3rd Physical Institute and Research Center SCOPE, University of Stuttgart – sequence: 4 givenname: Steffen surname: Steinert fullname: Steinert, Steffen organization: 3rd Physical Institute and Research Center SCOPE, University of Stuttgart – sequence: 5 givenname: Sang-Yun surname: Lee fullname: Lee, Sang-Yun organization: 3rd Physical Institute and Research Center SCOPE, University of Stuttgart – sequence: 6 givenname: Denis surname: Antonov fullname: Antonov, Denis organization: 3rd Physical Institute and Research Center SCOPE, University of Stuttgart – sequence: 7 givenname: Márton surname: Vörös fullname: Vörös, Márton organization: Department of Atomic Physics, Budapest University of Technology and Economics – sequence: 8 givenname: Fedor surname: Jelezko fullname: Jelezko, Fedor organization: Institute for Quantum Optics, University of Ulm – sequence: 9 givenname: Anatolii V. surname: Fisenko fullname: Fisenko, Anatolii V. organization: Vernadsky Institute of Geochemistry and Analytical Chemistry RAS – sequence: 10 givenname: Lubov F. surname: Semjonova fullname: Semjonova, Lubov F. organization: Vernadsky Institute of Geochemistry and Analytical Chemistry RAS – sequence: 11 givenname: Johannes surname: Biskupek fullname: Biskupek, Johannes organization: Central Facility of Electron Microscopy, University of Ulm – sequence: 12 givenname: Ute surname: Kaiser fullname: Kaiser, Ute organization: Central Facility of Electron Microscopy, University of Ulm – sequence: 13 givenname: Oleg I. surname: Lebedev fullname: Lebedev, Oleg I. organization: Laboratoire CRISMAT, UMR 6508 CNRS ENSICAEN – sequence: 14 givenname: Ilmo surname: Sildos fullname: Sildos, Ilmo organization: Institute of Physics, University of Tartu – sequence: 15 givenname: Philip. R. surname: Hemmer fullname: Hemmer, Philip. R. organization: Department of Electrical and Computer Engineering, 3128 Texas A&M University – sequence: 16 givenname: Vitaly I. surname: Konov fullname: Konov, Vitaly I. organization: General Physics Institute RAS – sequence: 17 givenname: Adam surname: Gali fullname: Gali, Adam organization: Department of Atomic Physics, Budapest University of Technology and Economics, Institute for Solid State Physics and Optics, Wigner Research Centre for Physics, Hungarian Academy of Sciences – sequence: 18 givenname: Jörg surname: Wrachtrup fullname: Wrachtrup, Jörg email: wrachtrup@physik.uni-stuttgart.de organization: 3rd Physical Institute and Research Center SCOPE, University of Stuttgart |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24317283$$D View this record in MEDLINE/PubMed |
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Snippet | Doping of carbon nanoparticles with impurity atoms is central to their application
1
,
2
. However, doping has proven elusive for very small carbon... Doping of carbon nanoparticles with impurity atoms is central to their application. However, doping has proven elusive for very small carbon nanoparticles... |
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SubjectTerms | 639/624/399/1096 Carbon Chemistry Color centers Defects Diamonds Doping Electrons Emissions Fluorescence Impurities letter Materials Science Microscopy Nanoparticles Nanostructure Nanotechnology Nanotechnology and Microengineering Optics Physics Quantum chemistry Quantum dots Silicon |
Title | Molecular-sized fluorescent nanodiamonds |
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