(5) Τα νανοσωματίδια στα 'εμβόλια' (13-11-21) / magnetic nanoparticles and nano-superconductors

2 years ago
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ΑΡΧΙΜΑΝΔΡΙΤΗΣ ΠΑΪΣΙΟΣ ΠΑΠΑΔΟΠΟΥΛΟΣ ΙΕΡΑ ΜΟΝΗ ΑΓΙΟΥ ΓΡΗΓΟΡΙΟΥ ΤΟΥ ΠΑΛΑΜΑ ΦΙΛΩΤΑ ΤΗΛ ΕΠΙΚ 6974041615.
Talk on "Magnetic Nanoparticles and mRNA/mDNA injectables" with Arch. Fr. Paisios Papadopoulos and Associate Professor Dr. Ioannis Kypraios (AI for Healthcare and Translational Medicine), UK on 13.11.21.

REFERENCES

Superconductors:
[1] Superconductors, [Online] 13th November 2021. Available at:
http://www.superconductors.org/

Superconducting Nanomaterials:
[1] Shi, D., Guo, Z., Bedford, N., Superconducting Nanomaterials. Ed. Book "Nanomaterials and Devices", 2015.
[2] Miranda, G. M., What is a Nanosuperconductor? (11th April 2019). AZO Nano [Online] 16th November 2021. Available at:
https://www.azonano.com/article.aspx?ArticleID=5184

Nanoparticles and Superconductors:
[1] Demming, A., Superconductivity-pairing up with nanotechnology (28 Feb 2018). Physics World, Feature: Nanomaterials [Online] 13th November 2021. Available at:
https://physicsworld.com/a/superconductivity-pairing-up-with-nanotechnology/

[2] Keiji, E., Tsujita, Y., Nakamura, K., Sasayama, T., Yoshida, T. Biosensing utilizing magnetic markers and superconducting quantum interference devices.
Superconductor Science and Technology, Vol. 30, No.5, 2017.
[3] Sukmas, W., Tsuppayakorn-aek, P., Pinsook, U., Pinsook, U., Bovornratanaraks, T., Near-room-temperature superconductivity of Mg/Ca substituted metal hexahydride under pressure. J. of Alloys and Compounds, Vol.849, 2020.
[4] Somayazulu, M., Ahart, M., Mishra, A. K., Geballe, Z. M., Baldini, M., Meng, Y., Struzhkin, V. V., Hemley, R. J., Evidence for Superconductivity above 260 K in Lanthanum Superhydride at Megabar Pressures. Phys. Rev. Lett., Vol.122, Issue 2, 2019.

Magnetic Nanoparticles:
[1] Buzea, C., Pacheco, I. Nanomaterial and Nanoparticle: Origin and Activity. Springer, Eds. Ghorbanpour M., Manika K., Varma A. "Nanoscience
and Plant–Soil Systems." Vol 48. pp.71-112, 2017.
[2] Shen, J., Hu, Y., Shi, M., Li, N., Ma, H., Ye, M. One Step Synthesis of Graphene Oxide−Magnetic Nanoparticle Composite. J. Phys. Chem. C Vol.114, No.3, pp.1498–1503, 2010.
[3] Albert, E.L., Sajiman, M.B., Che Abdullah, C.A. Incorporation of magnetic nanoparticle to graphene oxide via simple emulsion method and their cytotoxicity. Appl Nanosci Vol.9, pp.43–48, 2019.
[4] Koh, I., Josephson, L., Magnetic Nanoparticle Sensors. Sensors, Vol.9, pp.8130-8145, 2009.

Magnetic Biosensors:
[1] Bi, S., Cui, Y., Dong, Y., Zhang, N. Target-induced self-assembly of DNA nanomachine on magnetic particle for multi-amplified biosensing of nucleic acid, protein, and cancer cell. Biosensors and Bioelectronics, Vol.53, pp.207-213, 2014.
[2] Llandro, J., Palfreyman, J.J., Ionescu, A., Barnes, C. H. W. Magnetic biosensor technologies for medical applications: a review. Med Biol Eng Comput Vol.48, pp.977–998, 2010.

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