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CAN BUCKYBALL ‘BOMBS’ BLOW UP CANCER?
UNIVERSITY OF SOUTHERN CALIFORNIA

Posted by Robert Perkins-USC on March 19, 2015

In 1996, a trio of scientists won the Nobel Prize for Chemistry for their discovery of Buckminsterfullerene–soccer-ball-shaped spheres of 60 joined carbon atoms that exhibit special physical properties.

Now, 20 years later, scientists have figured out how to turn them into buckybombs.

These nanoscale explosives show potential for use in fighting cancer, with the hope that they could one day target and eliminate cancer at the cellular level–triggering tiny explosions that kill cancer cells with minimal impact on surrounding tissue.

“Future applications would probably use other types of carbon structures–such as carbon nanotubes, but we started with buckyballs because they’re very stable, and a lot is known about them,” says Oleg V. Prezhdo, professor of chemistry at the University of Southern California and corresponding author of a paper on the new explosives published in the Journal of Physical Chemistry.

Carbon nanotubes, close relatives of buckyballs, are used already to treat cancer. They can be accumulated in cancer cells and heated up by a laser, which penetrates through surrounding tissues without affecting them, and targets carbon nanotubes directly.

Modifying carbon nanotubes the same way as the buckybombs will make the cancer treatment more efficient–reducing the amount of treatment needed, Prezhdo says.

To build the miniature explosives, Prezhdo and his colleagues attached 12 nitrous oxide molecules to a single buckyball and then heated it. Within picoseconds, the buckyball disintegrated–increasing temperature by thousands of degrees in a controlled explosion.

The source of the explosion’s power is the breaking of powerful carbon bonds, which snap apart to bond with oxygen from the nitrous oxide, resulting in the creation of carbon dioxide, Prezhdo says.

Prezhdo collaborated with co-corresponding author Vitaly V. Chaban, who was at USC when the research was completed and is now at the Universidade Federal de São Paulo in Brazil with fellow co-corresponding author Eudes Eterno Fileti.

The São Paulo Research Foundation, the Brazilian National Council for Scientific and Technological Development, the US Department of Energy, and the Russian Science Foundation funded the study.

Twyla LaSarc » 24 Mar 2015 06:44 wrote:They turn up from time to time in 'cabin porn' sites.

slomo » Tue Mar 24, 2015 8:20 am wrote:

Twyla LaSarc » 24 Mar 2015 06:44 wrote:They turn up from time to time in 'cabin porn' sites.

I read that first as "carbon porn", and immediately imagined a website where viewers lasciviously admire fullerene configurations.

Effect of Long-Term Treatment with C60 Fullerenes on the Lifespan and Health Status of CBA/Ca Mice

Published Online:20 Oct 2021

Abstract

Several studies claimed C60 fullerenes as a prospective geroprotector drug due to their ability to capture free radicals effectively and caused a profound interest in C60 in life extension communities. Multiple additives are already sold for human consumption despite a small body of evidence supporting the beneficial effects of fullerenes on the lifespan. To test the effect of C60 fullerenes on lifespan and healthspan, we administered C60 fullerenes dissolved in virgin olive oil orally to 10–12 months old CBA/Ca mice of both genders for 7 months and assessed their survival. To uncover C60 and virgin olive effects, we established two control groups: mice treated with virgin olive oil (vehicle) and mice treated with drinking water. To measure healthspan, we conducted daily monitoring of health condition and lethality and monthly bodyweight measurements. We also assessed physical activity, glucose metabolism, and hematological parameters every 3 months. We did not observe health deterioration in the animals treated with C60 compared with the control groups. Treatment of mice with C60 fullerenes resulted in an increased lifespan of males and females compared with the olive oil-treated animals. The lifespan of C60-treated mice was similar to the mice treated with water. These results suggest that the lifespan-extending effect in C60-treated mice appears due to the protective effect of fullerenes in opposition to the negative effect of olive oil in CBA/Ca mice.

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In the previous report of Baati et al.,10 treatment of rats with C60 resulted in a pronounced lifespan extension. We did not find a strain-specific lifespan extension effect of C60-treatment in our investigation, which contradicts the above-mentioned results. What can be the reason? Different sensitivity of mice and rats to the effects of toxic/medicinal substances may be one of the possible explanations. Rats are more sensitive to many substances, and they need a lower dose to get a significant biological effect than mice.21 Mice and rats express different cytochrome isoforms, which may affect the drug metabolism,22 and show species-specific differences in biodistribution and excretion of gold nanoparticles.23 Therefore, the insufficient dose may explain such a low efficiency of C60 lifespan prolongation observed in our study, although it is just a suggestion and requires further experimental verification.

The Hunter Falls Prey: Photoinduced Oxidation of C60 in Inclusion Complex with Perfluorocycloparaphenylene

First published: 19 May 2022

Abstract

Quantum-chemical modeling of photoinduced electron transfer processes in PF[10]CPP⊃C60 reveals that well-known electron acceptor C60 can donate electron to fully fluorinated carbon nanoring. This charge separation process is thermodynamically favorable and significantly faster than charge recombination.



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The importance of converting sunlight into electricity and chemical fuels cannot be overstated. A lot of attention and efforts have been paid to design and prepare model compounds that mimic natural photosynthetic systems.1 Generation of long-lived charge-separated (CS) states with a high quantum yield and a long distance between radical ions to prevent their recombination is of key essence for such donor-acceptor systems.2 Since their discovery in 1985,3 fullerenes have attracted considerable attention as efficient electron acceptors in photovoltaics due to their properties such as a narrow HOMO–LUMO gap and good electron transportability.

A Theoretical Study of Infrared Spectra of Highly Positively Charged C60 Fullerenes and Their Relevance to Observed UIE Features

Published 2022 July 27

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6.2. Aromatic Little Bucky

Nicknamed by us little bucky, ${{\rm{C}}}_{60}^{10+}$ has also been generated under laboratory conditions and has been detected in the gas phase. It has been the subject of numerous theoretical studies (Poater & Sola 2011; Chen et al. 2012). The latest theoretical assessments on the electronic structure of this special species demonstrated its highly aromatic character, contrary to the anti-aromaticity of neutral C60 (Chen et al. 2012). Generally, aromaticity (with its all controversial aspects) makes a significant contribution to the formation or destruction paths and to increase the lifetime of molecular systems under different physical conditions. One may ask if neutral fullerene C60 itself has been formed in detectable amounts in astronomical sources, despite its anti-aromaticity character, then why should not little bucky, with its highly aromatic character, also be detected given the right conditions?

Considering the theoretically allowed high-level ionizations of neutral C60 and their feasibility to occur in extreme astrophysical environments, it is worth searching for little bucky footprints from space.

Progress in Antiviral Fullerene Research - 24 July 2022

"Unlike traditional small molecule drugs, fullerene is an all-carbon nanomolecule with a spherical cage structure. Fullerene exhibits high levels of antiviral activity, inhibiting virus replication in vitro and in vivo."