Nanodiamond synthesis and characterization, as well as its Use as an anti-polishing agent on SiO2 substrate

Durlab Das; K. Illayaraja; A Karthik

doi:10.53730/ijhs.v6nS5.9402

Authors

Durlab Das Assistant Professor, Department of Aeronautical Engineering, Dhanalakshmi Srinivasan College of Engineering & Technology, Chennai, India
K. Illayaraja Assistant Professor, Department of Aeronautical Engineering, Dhanalakshmi Srinivasan College of Engineering & Technology, Chennai, India
Karthik A Assistant Professor, Department of Mechanical Engineering, Dhanalakshmi Srinivasan College of Engineering and Technology, India

Keywords:

Nanodiamond, Surfacemodification, SiO2-based substrate

Abstract

Nanodiamond particles were produced, purified, and described in the current work. The surface of the nanodiamond was then oxidised to create a uniform coating of COOH groups. Finally, the functionalized particles were placed on the SiO2 substrate and their anti-polishing properties were studied. FT-TR, TGA, TEM, and SEM were used to characterise the products of this study.

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References

MaierF, RiedelM, MantelB,etal. Originofsurfaceconductivityindiamond. PhysicalReviewLetters.2000;85(16):3472.

GuE, ChoiHW, LiuC,etal. Reflection/transmission confocal microscopy characterization of single-crystal diamond microlensarrays. Applied Physics Letters. 2004;84(15):2754-6.

Savvides N. Optical constant sandas sociated function sofmeta stable diamond like a morphouscar bon film sin the energyrange 0.5-7.3eV.JAppPhy. 1986;59(12):4133-45.

GraebnerJE, JinS, KammlottGW, etal. Large anisotropicthermal conductivity insyn the ticdiamondfilms.Nature.1992;359(6394):401.

KanerRB, GilmanJJ, TolbertSH. Designing super hard materials. Science.2005;308(5726):1268-9.

TroupeCE, DrummondIC, GrahamC,etal. Diamond-based glucosesensors. Diamond and Related Materials.1998;7(2-5):575-80.

Korobeinichev OP, Ermolin NE, Chernov AA, et al. Flame structure, kinetics and mechanism of chemical reactions inflames of mixed composition based on ammonium perchlorate and polybutadiene rubber. Combustion, Explosion andShockWaves. 1992;28(4):366-71.

GreinerNR, PhillipsDS, JohnsonJD, etal. Diamonds indetonation soot. Nature.1988;333(6172):440-5.

SchrandAM, HensSA, ShenderovaOA. Nanodiamond particles: Properties and perspectives for bioapplications. Critical Reviewsin Solid State and Materials Sciences. 2009;34(1-2):18-74.

MochalinVN, ShenderovaO, HoD,etal. The properties and applications of nanodiamonds. Nature Nano technol.2012;7:11-23.

ShenderovaOA, McGuireGE. Science and engineering of nanodiamond particle surfaces for biological applications. Biointer phases.2015;10(3):030802.

NaglA, Hemelaar SR, SchirhaglR. Improving surface anddefect center chemistry off luorescent nanodiamonds for imaging purposes-a review. Analytical and Bioanal Chem. 2015;407(25):7521-36.

JabeenS, KausarA, MuhammadB, etal. A review on polymeric nanocomposites of nanodiamond, carbon nanotube and nanobifiller: Structure, preparation and properties. Polymer-Plastics Technol and Eng.2015;54(13):1379-409.

Efremov VP, Zakatilova EI. T heanalysis of thermal stability of detonation nanodiamond. JPhy: Conference Series.2016;774(1):012014.

ChengJ, HeJ, LiC,etal. Facile approach to function alizenano diamond particles with V-shapedpolymerbrushes. Chemistry of Materials. 2008;20(13):4224-30.

WangZ, XuC, LiuC. Surface modification and intrinsicgreen fluores cenceemission of adetonation nanodiamond.JournalofMaterialsChemistryC. 2013;1(40):6630-6.

StehlikS, VargaM, LedinskyM,etal. Size and Purity Control of HPHT Nanodiamonds down to1nm. The Journal of Physical Chemistry C. 2015;119(49):27708-20.

Kozak H, Remes Z, Houdkova J, etal.Chemical modifications and stability of diamond nanoparticles resolved by infrared spectroscopy and Kelvin forcemicroscopy.JNanoparticleRes.2013;15:1568-72.

Djuraev, A. M., Alpisbaev, K. S., & Tapilov, E. A. (2021). The choice of surgical tactics for the treatment of children with destructive pathological dislocation of the hip after hematogenous osteomyelitis. International Journal of Health & Medical Sciences, 5(1), 15-20. https://doi.org/10.21744/ijhms.v5n1.1813

Chung PH, Perevedent seva E, TuJS, etal. Spectroscopic study of bio-function alized nanodiamonds. Diamondand Related Materials. 2006;15(4-8):622-5.

Suryasa, I. W., Rodríguez-Gámez, M., & Koldoris, T. (2021). Health and treatment of diabetes mellitus. International Journal of Health Sciences, 5(1), i-v. https://doi.org/10.53730/ijhs.v5n1.2864

WahabZ, FoleyEA, PellechiaPJ, etal. Surface function alization of nanodiamond with phenylphosphonate. Journal of Colloid and Interface Science.2015;450:301-9.

BousaD, LuxaJ, MazanekV,etal. Toward grapheme chloride: Chlorination of grapheme and grapheneoxide.RSC Advances.2016;6(71):66884-92.

LisichkinGV, Korol’kovVV, TarasevichBN,etal. Photo chemical chlorination of nanodiamond and interaction of its modified surface with C-nucleophiles. Russian Chemical Bulletin.2006;55(12):2212-9.