Access the full text.
Sign up today, get DeepDyve free for 14 days.
G. Eda, Y. Lin, C. Mattevi, H. Yamaguchi, Hsin-An Chen, I-Sheng Chen, Chun-Wei Chen, M. Chhowalla (2009)
Blue Photoluminescence from Chemically Derived Graphene OxideAdvanced Materials, 22
Seiichi Sato, M. Swihart (2006)
Propionic-acid-terminated silicon nanoparticles : Synthesis and optical characterizationChemistry of Materials, 18
A. Bourlinos, A. Stassinopoulos, D. Anglos, R. Zbořil, M. Karakassides, E. Giannelis (2008)
Surface functionalized carbogenic quantum dots.Small, 4 4
Sheng-Tao Yang, Li Cao, P. Luo, Fushen Lu, Xin Wang, Haifang Wang, M. Meziani, Yuanfang Liu, Gang Qi, Ya‐Ping Sun (2009)
Carbon dots for optical imaging in vivo.Journal of the American Chemical Society, 131 32
Sheng-Tao Yang, Xin Wang, Haifang Wang, Fushen Lu, P. Luo, Li Cao, M. Meziani, Jia-Hui Liu, Yuanfang Liu, Min Chen, Yipu Huang, Ya‐Ping Sun (2009)
Carbon Dots as Nontoxic and High-Performance Fluorescence Imaging Agents.The journal of physical chemistry. C, Nanomaterials and interfaces, 113 42
K. Loh, Q. Bao, G. Eda, M. Chhowalla (2010)
Graphene oxide as a chemically tunable platform for optical applications.Nature chemistry, 2 12
Y. Xiu, Q. Gao, Guodong Li, Kaixue Wang, Jie‐Sheng Chen (2010)
Preparation and tunable photoluminescence of carbogenic nanoparticles confined in a microporous magnesium-aluminophosphate.Inorganic chemistry, 49 13
M. Wolkin, J. Jorné, P. Fauchet, G. Allan, C. Delerue (1999)
Electronic States and Luminescence in Porous Silicon Quantum Dots: The Role of OxygenPhysical Review Letters, 82
Qiao-Ling Zhao, Zhiling Zhang, Lei Bao, D. Pang (2008)
Surface structure-related electrochemical behaviors of glassy carbon electrodesElectrochemistry Communications, 10
Heng Zhao, Li Liu, Zhongde Liu, Yi Wang, X. Zhao, C. Huang (2011)
Highly selective detection of phosphate in very complicated matrixes with an off-on fluorescent probe of europium-adjusted carbon dots.Chemical communications, 47 9
Z. Ding, B. Quinn, S. Haram, L. Pell, B. Korgel, A. Bard (2002)
Electrochemistry and Electrogenerated Chemiluminescence from Silicon Nanocrystal Quantum DotsScience, 296
M. Reetz, W. Helbig (1994)
Size-Selective Synthesis of Nanostructured Transition Metal ClustersJournal of the American Chemical Society, 116
Ruili Liu, Dongqing Wu, Shuhua Liu, K. Koynov, W. Knoll, Qin Li (2009)
An aqueous route to multicolor photoluminescent carbon dots using silica spheres as carriers.Angewandte Chemie, 48 25
A. Bourlinos, A. Stassinopoulos, D. Anglos, R. Zbořil, V. Georgakilas, E. Giannelis (2008)
Photoluminescent Carbogenic DotsChemistry of Materials, 20
D. English, L. Pell, Zhonghua Yu, P. Barbara, B. Korgel (2002)
Size Tunable Visible Luminescence from Individual Organic Monolayer Stabilized Silicon Nanocrystal Quantum DotsNano Letters, 2
Jigang Zhou, Christina Booker, Ruying Li, Xingtai Zhou, T. Sham, X. Sun, Z. Ding (2007)
An electrochemical avenue to blue luminescent nanocrystals from multiwalled carbon nanotubes (MWCNTs).Journal of the American Chemical Society, 129 4
Fu-dong Wang, Zheng Xie, Hao Zhang, Chunyang Liu, Yingge Zhang (2011)
Highly Luminescent Organosilane‐Functionalized Carbon DotsAdvanced Functional Materials, 21
Jiyang Fan, P. Chu (2010)
Group IV nanoparticles: synthesis, properties, and biological applications.Small, 6 19
Jiong Lu, Jia‐xiang Yang, Junzhong Wang, A. Lim, Shuai Wang, K. Loh (2009)
One-pot synthesis of fluorescent carbon nanoribbons, nanoparticles, and graphene by the exfoliation of graphite in ionic liquids.ACS nano, 3 8
Jonghoon Choi, N. Wang, V. Reipa (2009)
Electrochemical reduction synthesis of photoluminescent silicon nanocrystals.Langmuir : the ACS journal of surfaces and colloids, 25 12
J. Zong, Yihua Zhu, Xiaoling Yang, Jianhua Shen, Chunzhong Li (2011)
Synthesis of photoluminescent carbogenic dots using mesoporous silica spheres as nanoreactors.Chemical communications, 47 2
Ran Cui, Huihui Liu, Hai‐Yan Xie, Zhiling Zhang, Yi-ran Yang, D. Pang, Zhixiong Xie, Bei Chen, Bin Hu, P. Shen (2009)
Living Yeast Cells as a Controllable Biosynthesizer for Fluorescent Quantum DotsAdvanced Functional Materials, 19
C. Burda, Xiaobo Chen, R. Narayanan, M. El-Sayed (2005)
Chemistry and properties of nanocrystals of different shapes.Chemical reviews, 105 4
M. Rodríguez-Sánchez, M. Rodríguez, M. Blanco, J. Rivas, M. López‐Quintela (2005)
Kinetics and mechanism of the formation of Ag nanoparticles by electrochemical techniques: a plasmon and cluster time-resolved spectroscopic study.The journal of physical chemistry. B, 109 3
Mingxi Zhang, Ran Cui, Zhi-Quan Tian, Zhiling Zhang, D. Pang (2010)
Kinetics‐Controlled Formation of Gold Clusters Using a Quasi‐Biological SystemAdvanced Functional Materials, 20
Li Cao, S. Sahu, P. Anilkumar, C. Bunker, Juan Xu, K. Fernando, Ping Wang, E. Guliants, K. Tackett, Ya‐Ping Sun (2011)
Carbon nanoparticles as visible-light photocatalysts for efficient CO2 conversion and beyond.Journal of the American Chemical Society, 133 13
S. Ray, A. Saha, N. Jana, R. Sarkar (2009)
Fluorescent Carbon Nanoparticles: Synthesis, Characterization, and Bioimaging ApplicationJournal of Physical Chemistry C, 113
Liyan Zheng, Yuwu Chi, Yongqing Dong, Jianpeng Lin, Binbin Wang (2009)
Electrochemiluminescence of water-soluble carbon nanocrystals released electrochemically from graphite.Journal of the American Chemical Society, 131 13
Sheila Baker, G. Baker (2010)
Luminescent carbon nanodots: emergent nanolights.Angewandte Chemie, 49 38
Ya‐Ping Sun, Bing Zhou, Yi Lin, Wei Wang, K. Fernando, P. Pathak, M. Meziani, Barbara Harruff, Xin Wang, Haifang Wang, P. Luo, Hua Yang, Muhammet Köse, Bailin Chen, L. Veca, Su-Yuan Xie (2006)
Quantum-sized carbon dots for bright and colorful photoluminescence.Journal of the American Chemical Society, 128 24
Haipeng Liu, T. Ye, C. Mao (2007)
Fluorescent carbon nanoparticles derived from candle soot.Angewandte Chemie, 46 34
Zhenhui Kang, C. Tsang, Zhendong Zhang, Mingliang Zhang, N. Wong, J. Zapien, Y. Shan, Shuitong Lee (2007)
A polyoxometalate-assisted electrochemical method for silicon nanostructures preparation: from quantum dots to nanowires.Journal of the American Chemical Society, 129 17
M. Bottini, T. Mustelin (2007)
Carbon materials: Nanosynthesis by candlelight.Nature nanotechnology, 2 10
Fu-dong Wang, S. Pang, Long Wang, Qin Li, M. Kreiter, Chun‐yan Liu (2010)
One-Step synthesis of highly luminescent carbon dots in noncoordinating solventsChemistry of Materials, 22
Dengyu Pan, Jingchun Zhang, Zhen Li, Minghong Wu (2010)
Hydrothermal Route for Cutting Graphene Sheets into Blue‐Luminescent Graphene Quantum DotsAdvanced Materials, 22
Xin Wang, Li Cao, Sheng-Tao Yang, Fushen Lu, M. Meziani, Leilei Tian, Katherine Sun, Mathew Bloodgood, Ya‐Ping Sun (2010)
Bandgap-like strong fluorescence in functionalized carbon nanoparticles.Angewandte Chemie, 49 31
Lei Tian, D. Ghosh, Wei Chen, S. Pradhan, X. Chang, Shaowei Chen (2009)
Nanosized Carbon Particles From Natural Gas SootChemistry of Materials, 21
Haitao Li, Xiaodie He, Zhenhui Kang, Hui Huang, Yang Liu, Jinglin Liu, Suoyuan Lian, C. Tsang, Xiaobao Yang, Shuitong Lee (2010)
Water-soluble fluorescent carbon quantum dots and photocatalyst design.Angewandte Chemie, 49 26
The size of C‐nanodots can be electrochemically tuned by changing the applied potential during their preparation. The higher the applied potential, the smaller the resulting C‐nanodots. Moreover, the surface oxidation degree of the C‐nanodots can also be electrochemically tuned. The red‐shift of emission independent of the size provides an insight into the luminescence mechanism of C‐nanodots.
Advanced Materials – Wiley
Published: Dec 22, 2011
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.