Makale / ArticleMSc. N. Mete KaleliAr-Ge Uzman%u0131 R&D SpecialistNano Malzemelerin Kaplama Alan%u0131nda Kullan%u0131m%u0131: Hekzagonal Bor Nitr%u00fcrUse of Nanomaterials in the Coatings Field: Hexagonal Boron Nitride%u00d6zetG%u00fcn%u00fcm%u00fcz teknolojisinde h%u0131zla ilerleme kaydeden nano malzemelerin kullan%u0131m%u0131 s%u0131kl%u0131kla artmaktad%u0131r. Her alanda %u00f6n%u00fcm%u00fcze %u00e7%u0131kmaya ba%u015flayan nano malzemeler d%u00fcnya %u00e7ap%u0131nda ara%u015ft%u0131r%u0131lmaya devam etmektedir. %u0130la%u00e7, kozmetik, enerji, savunma ve bir%u00e7ok alanda kullan%u0131lmaya devam edilen nano malzemelerin, kullan%u0131lan %u00fcr%u00fcnlerin kalite ve %u00f6zelliklerini art%u0131rd%u0131%u011f%u0131 bilinmektedir. %u00dcretim maliyetleri kalitesine g%u00f6re art%u0131%u015f g%u00f6steren nano malzemelerin, d%u00fc%u015f%u00fck kaliteli olanlar%u0131 bile kullan%u0131ld%u0131%u011f%u0131 %u00fcr%u00fcn%u00fcn %u00f6zelliklerinde olumlu art%u0131%u015f g%u00f6stermektedir. Hekzagonal bor nitr%u00fcr bunlardan bir tanesidir. Giri%u015fBeyaz grafen olarak literat%u00fcrde yeri ge%u00e7en bor ve azot atomlar%u0131n%u0131n bal pete%u011fi yap%u0131s%u0131nda ba%u011f kurarak olu%u015fan hekzagonal bor nitr%u00fcr; yal%u0131tkan, beyaz renkli, g%u00fc%u00e7l%u00fc s%u00fcrt%u00fcnme ve k%u0131r%u0131lma direnci sa%u011flayan nano malzemedir. %u00d6zellikle plazma kaplama ile matkap u%u00e7lar%u0131nda s%u00fcrt%u00fcnme k%u0131r%u0131lma direncinin %30%u2019a kadar y%u00fckseldi%u011fi uzmanlar taraf%u0131ndan g%u00f6zlemlenmi%u015ftir. %u0130nsan v%u00fccudu i%u00e7erisinde k%u0131r%u0131lan ve onar%u0131lamayacak kemikler i%u00e7in kullan%u0131lan implantlar%u0131n enfeksiyon riski ameliyat ortam%u0131 y%u00fcz%u00fcnden %u00e7ok fazlad%u0131r. Bu gibi bir durumda v%u00fccut i%u00e7erisinde enfeksiyon g%u00f6steren implanta sahip hastan%u0131n tekrar ameliyata girerek implant%u0131n temizlenmesi ve gerekirse de%u011fi%u015ftirilmesi gerekmektedir. Olduk%u00e7a sorunlu olan bu s%u00fcre%u00e7 bir%u00e7ok hastada ya%u015fanmaktad%u0131r. Yap%u0131lan ara%u015ft%u0131rmalar, v%u00fccut i%u00e7erisinde kullan%u0131lan implantlar%u0131n plazma y%u00f6ntemi ile bor nitr%u00fcrle kaplanmas%u0131n%u0131n enfeksiyon riskini ciddi bir %u015fekilde d%u00fc%u015f%u00fcrd%u00fc%u011f%u00fcn%u00fc ortaya koymu%u015ftur.AbstractThe use of nanomaterials, which are rapidly advancing in today%u2019s technology, is increasing frequently. Nanomaterials, which have begun to appear in almost every field, continue to be researched worldwide. It is known that nanomaterials used in pharmaceuticals, cosmetics, energy, defense, and many other sectors improve the quality and properties of the products in which they are applied. Although the production costs of nanomaterials increase depending on their quality, even low-quality nanomaterials provide positive improvements in the properties of the products they are used in. Hexagonal boron nitride is one such material.IntroductionHexagonal boron nitride, referred to in the literature as %u201cwhite graphene,%u201d is a nanomaterial formed by boron and nitrogen atoms bonded in a honeycomb structure. It is an insulating, white-colored material that provides high resistance to friction and fracture. Experts have observed that, especially when applied via plasma coating on drill bits, it can increase resistance to friction and fracture by up to 30%.The risk of infection for implants used in the human body for fractured bones that cannot heal is very high due to the surgical environment. In such cases, patients with infected implants must undergo another surgery to clean and, if necessary, replace the implant. This highly problematic process is experienced by many patients. Research has shown that coating implants used in the body with boron nitride via the plasma method significantly reduces the risk of infection.24 TURKCOAT Aral%u0131k / December - Ocak / January 2026