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Fullerenes, Nanotubes and Carbon Nanostructures Volume 11, 2003 - Issue 1
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Original Articles

Highly Water Soluble C60 Derivatives: A New Synthesis

Aldo Arrais Dipartimento di Chimica I.F.M., Università di Torino, via P. Giuria 7, I‐10125, Torino, Italy
&
Eliano Diana Dipartimento di Chimica I.F.M., Università di Torino, via P. Giuria 7, I‐10125, Torino, ItalyCorrespondence[email protected]
Pages 35-46 | Received 07 Sep 2002, Accepted 18 Nov 2002, Published online: 19 Aug 2006

Citations (24)

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Read on this site (3)

I. Rašović. (2017) Water-soluble fullerenes for medical applications. Materials Science and Technology 33:7, pages 777-794.
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Aldo Arrais, Enrico Boccaleri & Eliano Diana. (2004) Efficient Direct Water‐Solubilisation of Single‐Walled Carbon Nanotube Derivatives. Fullerenes, Nanotubes and Carbon Nanostructures 12:4, pages 789-809.
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Aldo Arrais & Eliano Diana. (2003) Hydrosolubilization of Large Aromatic Molecules: Facile Synthesis and Characterization of Water-Soluble Derivatives of Decacyclene. Synthetic Communications 33:19, pages 3331-3345.
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Articles from other publishers (21)

Jiaxin Ma, Qiong Zhang, Liu Hong, Yuhua Xie, Zehui Yang, Yongliang Xu, Qiang Wang, Yonghua Zhou & Cheng Yang. (2022) Controllable synthesis of ultrasmall copper nanoparticles decorated fullerenol composite for antibacterial application and wound healing under visible light. Colloids and Surfaces A: Physicochemical and Engineering Aspects 654, pages 130097.
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Jie Wan, Jiaxin Ma, Yuyuan Zhang, Yuxuan Xia, Liu Hong & Cheng Yang. (2021) Improved antioxidative performance of a water-soluble copper nanoparticle@fullerenol composite formed via photochemical reduction . New Journal of Chemistry 45:37, pages 17660-17666.
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Konstantin N. Semenov, Daria A. Ivanova, Sergei V. Ageev, Andrey V. Petrov, Nikita E. Podolsky, Ekaterina M. Volochaeva, Ekaterina M. Fedorova, Anatolii A. Meshcheriakov, Egor E. Zakharov, Igor V. Murin & Vladimir V. Sharoyko. (2021) Evaluation of the C60 biodistribution in mice in a micellar ExtraOx form and in an oil solution. Scientific Reports 11:1.
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Giorgio Speranza. (2021) Carbon Nanomaterials: Synthesis, Functionalization and Sensing Applications. Nanomaterials 11:4, pages 967.
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Panagiota Zygouri, Konstantinos Spyrou, Efstratia Mitsari, María Barrio, Roberto Macovez, Michaela Patila, Haralambos Stamatis, Ioannis I. Verginadis, Anastasia P. Velalopoulou, Angelos M. Evangelou, Zili Sideratou, Dimitrios Gournis & Petra Rudolf. (2020) A facile approach to hydrophilic oxidized fullerenes and their derivatives as cytotoxic agents and supports for nanobiocatalytic systems. Scientific Reports 10:1.
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Héctor A. De Santiago, Santosh K. Gupta & Yuanbing Mao. (2019) On high purity fullerenol obtained by combined dialysis and freeze-drying method with its morphostructural transition and photoluminescence. Separation and Purification Technology 210, pages 927-934.
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Milan Vraneš, Ivana Borišev, Aleksandar Tot, Stevan Armaković, Sanja Armaković, Danica Jović, Slobodan Gadžurić & Aleksandar Djordjevic. (2017) Self-assembling, reactivity and molecular dynamics of fullerenol nanoparticles. Physical Chemistry Chemical Physics 19:1, pages 135-144.
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Fu-yang Liu, Feng-xia Xiong, Yi-kang Fan, Juan Li, He-zhong Wang, Geng-mei Xing, Feng-ming Yan, Fu-ju Tai & Rui He. (2016) Facile and scalable fabrication engineering of fullerenol nanoparticles by improved alkaline-oxidation approach and its antioxidant potential in maize. Journal of Nanoparticle Research 18:11.
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K.N. Semenov, N.A. Charykov, V.N. Postnov, V.V. Sharoyko, I.V. Vorotyntsev, M.M. Galagudza & I.V. Murin. (2016) Fullerenols: Physicochemical properties and applications. Progress in Solid State Chemistry 44:2, pages 59-74.
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Zhenzhen Wang, Shukuang Wang, Zhanghui Lu & Xingfa Gao. (2015) Syntheses, Structures and Antioxidant Activities of Fullerenols: Knowledge Learned at the Atomistic Level. Journal of Cluster Science 26:2, pages 375-388.
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T. Gangadhar, Vinod I. Bhoi, S. Kumar & C. N. Murthy. (2013) Supramolecular self-assembly and nanoencapsulation of [60]fullerene by bis-β-cyclodextrin. Journal of Inclusion Phenomena and Macrocyclic Chemistry 79:1-2, pages 215-223.
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Hiroshi Ueno, Ken Kokubo, Eunsang Kwon, Yuji Nakamura, Naohiko Ikuma & Takumi Oshima. (2013) Synthesis of a new class of fullerene derivative Li+@C60O−(OH)7 as a “cation-encapsulated anion nanoparticle”. Nanoscale 5:6, pages 2317.
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Hiroshi Ueno, Yuji Nakamura, Naohiko Ikuma, Ken Kokubo & Takumi Oshima. (2012) Synthesis of a lithium-encapsulated fullerenol and the effect of the internal lithium cation on its aggregation behavior. Nano Research 5:8, pages 558-564.
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Ken Kokubo, Shogo Shirakawa, Naoki Kobayashi, Hisae Aoshima & Takumi Oshima. (2010) Facile and scalable synthesis of a highly hydroxylated water-soluble fullerenol as a single nanoparticle. Nano Research 4:2, pages 204-215.
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Eudes E. Fileti & Roberto Rivelino. (2009) The 13C NMR properties of low hydroxylated fullerenes with density functional theory. Chemical Physics Letters 467:4-6, pages 339-343.
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John D. Fortner, Jaesang Lee, Jae‐Hong Kim & Joseph B. Hughes. 2008. Nanoscience and Nanotechnology. Nanoscience and Nanotechnology 159 195 .
Ken Kokubo, Kenji Matsubayashi, Hiroshi Tategaki, Hiroya Takada & Takumi Oshima. (2008) Facile Synthesis of Highly Water-Soluble Fullerenes More Than Half-Covered by Hydroxyl Groups. ACS Nano 2:2, pages 327-333.
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Aldo Arrais, Eliano Diana, Rosanna Rossetti & Enrico Boccaleri. (2007) Spectral and chemical evidence for the direct formation of carboxylic groups in aerobically oxidised water-soluble fullerenes. Carbon 45:13, pages 2502-2510.
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A. Arrais, E. Diana & E. Boccaleri. (2006) A study on the carbon soot derived from the wood combustion and on the relative alkali-extractable fraction. Journal of Materials Science 41:18, pages 6035-6045.
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Aldo Arrais, Eliano Diana, Dario Pezzini, Rosanna Rossetti & Enrico Boccaleri. (2006) A fast effective route to pH-dependent water-dispersion of oxidized single-walled carbon nanotubes. Carbon 44:3, pages 587-590.
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J. D. Fortner, D. Y. Lyon, C. M. Sayes, A. M. Boyd, J. C. Falkner, E. M. Hotze, L. B. Alemany, Y. J. Tao, W. Guo, K. D. Ausman, V. L. Colvin & J. B. Hughes. (2005) C 60 in Water:  Nanocrystal Formation and Microbial Response . Environmental Science & Technology 39:11, pages 4307-4316.
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