On the Action of γ Radiation on Solid C<sub>60</sub>and C<sub>70</sub>Fullerenes: A Comparison with Graphite Irradiation

Cataldo, Franco

doi:10.1080/10641220009351435

Cited by 30 publications

(10 citation statements)

References 52 publications

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“…Upon exposure to X-rays, a change in the Raman band has also been observed with an enlargement of the full wave half-maximum and a shift of the maximum towards lower wavenumbers. In accordance with the literature, these findings indicate a C 60 polymerization to form dimers or trimers (Cataldo, 1993); this effect is mainly induced by the secondary electrons produced by irradiation (Klesper et al, 2005;Zhao et al, 1994). Upon exposure to hard X-rays, in fact, the fullerenes can be excited by secondary electrons allowing addition reactions with other C 60 molecules.…”

Section: Resultssupporting

confidence: 90%

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Pinna

Malfatti

Piccinini³

et al. 2012

J Synchrotron Radiat

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The protection of organic and hybrid organic-inorganic materials from X-ray damage is a fundamental technological issue for broadening the range of applications of these materials. In the present article it is shown that doping hybrid films with fullerenes C(60) gives a significant reduction of damage upon exposure to hard X-rays generated by a synchrotron source. At low X-ray dose the fullerene molecules act as `radical scavengers', considerably reducing the degradation of organic species triggered by radical formation. At higher doses the gradual hydroxylation of the fullerenes converts C(60) into fullerol and a bleaching of the radical sinking properties is observed.

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Section: Resultssupporting

confidence: 90%

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Pinna

Malfatti

Piccinini³

et al. 2012

J Synchrotron Radiat

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“…Despite fullerenes can form in space and may play a role in astrochemistry either directly or through their derivatives, the so‐called fullerene‐like structures, for instance in molecular hydrogen formation (Cataldo 2003) or even in the synthesis of relatively complex pre‐biotic molecules, their stability in the interstellar space has not yet fully clarified. Certain authors have considered exclusively the stability of C 60 fullerene toward γ radiation (Cataldo 2000b; Sakaguchi et al 2007) even at extremely high doses (Albarran et al 2004; Basiuk et al 2005) neglecting completely to consider their resistance of fullerenes to cosmic rays which are composed by corpuscular radiation. Similarly, other authors have studied the decomposition of C 60 under the action of swift heavy ions (Kalish et al 1993; Takayama 1993; Yogo, Majima & Itoh 2003; Todorović‐Marković et al 2007; Singhal et al 2008) which represent a minor, practically negligible components of cosmic rays (Stanev 2004).…”

Section: Introductionmentioning

confidence: 99%

Stability of C₆₀and C₇₀fullerenes toward corpuscular and γ radiation

Cataldo

Strazzulla

Iglesias‐Groth

2009

Monthly Notices of the Royal Astronomical Society

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The stability of C60 and C70 fullerenes in the interstellar medium deposited on dust surface or embedded in meteorites and comets has been simulated with γ irradiation and with He+ ion bombardment. It is shown by vibrational spectroscopy that a γ radiation dose of 2.6 MGy (1 Gy = 1 joule absorbed energy per kilogram) causes partial oligomerization of both C60 and C70 fullerenes. Oligomers are made by fullerene cages chemically connected each other which can yield back free fullerenes by a thermal treatment. The amount of irreversibly polymerized fullerenes caused by 2.6 MGy as deduced as the toluene insoluble fraction has been determined as 1.7 and 15 per cent by weight, respectively, for C60 and C70 fullerene. The radiation dose generated by radionuclides decay and expected to be delivered to fullerenes buried at a depth of more than 20 m in comets and meteorites is about 3 MGy per 109 yr. Since fullerenes are by far resistant to such radiation dose they can survive for at least some billion years inside comets and meteorites and in fact have been detected inside certain carbonaceous chondrites. On the other hand, the direct exposure of fullerenes to cosmic rays for instance when they are adsorbed or deposited on the surface of carbon dust corresponds to the delivery of a radiation dose comprised between 30 and 65 MGy per 109 yr. Experimental bombardment of both C60 and C70 fullerenes for instance with He+ ions has shown that the complete amorphization occurs at about 250 MGy. Thus in ∼4 Gyr exposure to cosmic rays it is expected a complete amorphization.

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“…As reviewed from literature data, fullerenes can be formed also from very unusual substrates. 15 C 60 and C 70 fullerenes are easily oligomerized and photopolymerized in the solid state under the action of photons, [16][17][18] but can be re-generated by the action of very intense electromagnetic fields. 14 Higher fullerenes appear to be much more photostable and less prone to photopolymerization than C 60 and C 70 fullerenes.…”

Section: Organic Chemistry In Interstellar Mediummentioning

confidence: 99%

“…In any case, ion bombardment causes the amorphization of fullerenes 19 and similarly also graphite is radiation damaged and slowly converted into disordered graphite and then amorphous carbon. 18,20 Optical properties of carbon blacks 21 : We have also studied the optical properties in the UV-VIS of three carbon blacks having specific surface area from 145 to 7 m 2 /g and produced with furnace or thermal processes. The results have been compared to the optical properties (in the same spectral range) of C 60 fullerene photopolymer, to fullerite, i.e.…”

Section: Organic Chemistry In Interstellar Mediummentioning

confidence: 99%

Abstracts from the Second European Workshop on Exo/Astrobiology

2002

International Journal of Astrobiology

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On the Action of γ Radiation on Solid C₆₀and C₇₀Fullerenes: A Comparison with Graphite Irradiation

Cited by 30 publications

References 52 publications

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Stability of C₆₀and C₇₀fullerenes toward corpuscular and γ radiation

Abstracts from the Second European Workshop on Exo/Astrobiology

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On the Action of γ Radiation on Solid C60and C70Fullerenes: A Comparison with Graphite Irradiation

Cited by 30 publications

References 52 publications

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges

Stability of C60and C70fullerenes toward corpuscular and γ radiation

Abstracts from the Second European Workshop on Exo/Astrobiology

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Product

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On the Action of γ Radiation on Solid C₆₀and C₇₀Fullerenes: A Comparison with Graphite Irradiation

Stability of C₆₀and C₇₀fullerenes toward corpuscular and γ radiation