Exploring the Bioactive Potentials of C60-AgNPs Nano-Composites against Malignancies and Microbial Infections

At present, the potential role of the AgNPs/endo-fullerene molecule metal nano-composite has been evaluated over the biosystems in-vitro. The intra-atomic configuration of the fullerene molecule (C60) has been studied in-vitro for the anti-proliferative activity of human breast adenocarcinoma (MDA-MB-231) cell lines and antimicrobial activity against a few human pathogens that have been augmented with the pristine surface plasmonic electrons and antibiotic activity of AgNPs. Furthermore, FTIR revealed the basic vibrational signatures at ~3300 cm−1, 1023 cm−1, 1400 cm−1 for O-H, C-O, and C-H groups, respectively, for the carbon and oxygen atoms of the C60 molecule. NMR studies exhibited the different footprints and magnetic moments at ~7.285 ppm, explaining the unique underlying electrochemical attributes of the fullerene molecule. Such unique electronic and physico-chemical properties of the caged carbon structure raise hope for applications into the drug delivery domain. The in-vitro dose-dependent application of C60 elicits a toxic response against both the breast adenocarcinoma cell lines and pathogenic microbes. That enables the use of AgNPs decorated C60 endo fullerene molecules to design an effective anti-cancerous drug delivery and antimicrobial agent in the future, bringing a revolutionary change in the perspective of a treatment regime.

COMPOSITION OF BIOACTIVE COMPOUNDS FOR CULTIVATION OF BRASSICA JUNCEA CZERN

cultivation of plant food objects, in particular, Brassica juncea czern (mustard seeds of the talisman variety). In addition, the issue of recycling of the most concentrated fermentation liquid, which is a waste after separation at the stage of growing a pure yeast culture, is solved. The growth-stimulating activity of "Humir-1", created on the basis of hydrated fullerenes (HyFn), (C60(H2O)n) and humates, as well "Humir-2" in which the mixture of hydrated fullerenes and humates was added to the supernatant of the fermentation fluid, in which a pure culture of yeast (strain Saccharomyces cerevisiae) was grown. Concentrated aqueous solutions of hydrated C60HyFn which are molecular colloidal systems of spherical fractal clusters, the structural unit of which is a strong, highly hydrophilic supramolecular complex consisting of a C60 fullerene molecule enclosed in the first hydrated shell containing 24 water molecules were used as a basis in “Humir” preparations. Humates, which is also part of the developed composition, in addition to stimulating growth, has a positive effect on the plant's immunity, helping to adapt to the environment and increase protection against its negative manifestations. The supernatant of the fermentation mixture, in which pure culture yeast was grown, is rich of vitamins, micro and macro elements, yeast residues, and also contains the dry matter of yeast rich in biologically active substances. The influence of the developed compositions on the efficiency of brassica juncea czern cultivation was studied in laboratory and field conditions on the basis of an experimental farm of the Dokuchaev Institute of Agriculture in Kharkiv region. As a result of research, it has been proved that the developed drug "Humir-2", in addition to increasing the yield of brassica juncea czern, increases photosynthetic activity, increases germination and germination energy. As a result, plants have a powerful developed root system and a significantly increased assimilation area of the Leaf.

The Study of Boron-Nitride Nanotube Behavior as an Atomic Nano-Pump for Biomedicine Applications

In this study we use molecular dynamics (MD) simulations to describe the nanopumping process of Boron Nitride Nanotube (BNNT) with fullerene molecule displacement for the first time. Technically, for the simulation of BNNT and fullerene structures, we used Tersoff force-field. The result of the equilibrium process of these structures shows the excellent stability of them which this atomic behavior arises from the appropriate settings in our MD simulations. Further, to describe the BNNT nanopumping process, we calculate the velocity and translational/rotational kinetic energy of fullerene molecule. Numerically, by increasing of simulated structures temperature from 275 K to 350 K, the nanopumping time varies from 9.31 ps to 8.55 ps, respectively. Further, the atomic wave producing in BNNT is an important parameter for nanopumping process and we decrease the nanopumpint time to 7.79 ps by this atomic parameter optimization.

Mechanism of the Antioxidant Activity and Structure–Activity Relationship of N-Monosubstituted Amino Acid Derivatives of Fullerene С60

The kinetic characteristics, mechanisms of activity, and relationship between the antioxidant activity and the molecular and supramolecular structure of fullerene C60 and some of its N-monosubstituted amino acid derivatives have been studied. The introduction of an amino acid substituent in the C60 fullerene molecule led to an increase in its antiradical activity in the free radical oxidation of a water-soluble target (fluorescein). The mechanism of the antioxidant activity of amino acid derivatives of fullerene is not associated with the hydrogen atom transfer, electron donation, or catalysis of peroxide decomposition. It was demonstrated that the structure of the amino acid substituent does not affect the antiradical properties, which are thus determined only by the effective total surface area of ​​the nanoparticles of the fullerene C60 derivatives and increase when their size decreases. This surface can be characterized as nanowalls on which the radical death occurs. A change in the concentration of the compounds in solution does not lead to a change in the relative antiradical activity and hence in the nanoparticle size. The results of this study are important for understanding the biological activity of this group of compounds.

Substructural Approach for Assessing the Stability of Higher Fullerenes

This review describes the most significant published results devoted to the study of the nature of the higher fullerenes stability, revealing of correlations between the structural features of higher fullerene molecules and the possibility of their producing. A formalization of the substructure approach to assessing the stability of higher fullerenes is proposed, which is based on a detailed analysis of the main structural features of fullerene molecules. The developed substructure approach, together with the stability of the substructures constituting the fullerene molecule, helps to understand deeper the features of the electronic structure of fullerenes.

Gadolinium Endofullerenes

Fullerenes—A new combining atoms of carbon atoms into the molecule, which can serve as the parent and precursor of a whole class advanced organic compounds. Unsolved problems associated with a correct understanding of the structure, transformation, and behavior of the fullerene C60 molecule, make it impossible to interpret correctly many of its physicochemical properties. Fullerenes are a new compounds of carbon atoms into a molecule that can serve as the parent and precursor of the whole class of the newest organic compounds. Unresolved problems connected with correct understanding of structure, transformation and behavior of fullerene molecule C60, do not allow to interpret many of its physico-chemical properties correctly. Since the discovery of fullerenes and the subsequent study of their properties, the interaction of fullerenes with metals is of fundamental interest. C60-building block (molecule), is similar to the atom, which can be used to create new materials. It has its physical and chemical properties, which a separate atom can't exhibit. First of all it concerns the fact that this molecule, unlike all molecules known up to the present time, has its own surface. The presence of the surface allows the fullerene molecule to behave as a molecule and as a solid nanoparticle. The dualism of the fullerene molecule allows it, unlike other carbon allotropic forms, to dissolve in various liquid mediums. The presence of the surface allows fullerene to enclose in its volume separate atoms and molecules. After the initial detection of fullerenes, multiple attempts are made to obtain, distinguish and characterize fullerenes containing metal atoms in their volume. In the present work the research of the products formed in joint arc evaporation of graphite and gadolinium is carried out. The products formed on the cathode and on the reactor walls are investigated. On the example of gadolinium-containing endofullerenes the conditions of formation of nanoproducts in plasma conditions, in solutions and at their crystallization are discussed.