TY - JOUR T1 - Evaluation of waste human hair as graphene oxide and examination of some characteristics properties TT - Atık İnsan Saçının Grafenoksit Olarak Değerlendirilmesi ve Bazı Karakteristik Özelliklerinin İncelenmesi AU - Nevruzoğlu, Vagif AU - Bal Altuntaş, Derya PY - 2020 DA - January Y2 - 2019 DO - 10.31202/ecjse.594819 JF - El-Cezeri JO - El-Cezeri Journal of Science and Engineering PB - Tayfun UYGUNOĞLU WT - DergiPark SN - 2148-3736 SP - 104 EP - 110 VL - 7 IS - 1 LA - en AB - Inthis study, graphene oxide was synthesized from activated carbon obtained fromwaste hair for the first time using Modified Hummers method. the ScanningElectron Microscopy (SEM), Fourier Transform Infrared Spectroscopy (FT-IR),Raman Spectroscopy and X-Ray Diffraction (XRD) analysis results of synthesizedgraphene oxide were examined. In SEM images, graphene oxide structures wereobserved as very thin layers. In addition, the characteristic peaks of grapheneoxide were observed in FT-IR spectroscopy and Raman spectroscopy. In the XRDspectra, reflections of the graphene oxide were seen in plane (001) at 2θ=13.66.It was determined that this structure was hexagonal crystal structure. Thedistance d (6.39Å) between the planes and the weave parameters were determinedto be 12.80 Å. The transformation process for actived carbon production fromhuman hair waste was patented by Turkish Patent and Trademark Office (TurkishPatent Institute Application Number: (2017/10764). KW - İnsan saçı; grafen oksit; aktif karbon; Modifiye Hummers Yöntemi. N2 - Son zamanlarda, üstün elektriksel, mekanik, termal veoptik özelliklere sahip nanomalzeme , grafen önemli bir araştırma konusu halinegelmiştir. Bu çalışmada, modifiye Hummers yöntemi kullanılarak ilk kez atıksaçtan elde edilen aktif karbondan grafen oksit sentezlendi. Sentezlenen grafen oksitin TaramalıElektron Mikroskobu (SEM), Fourier Dönüşüm Kızılötesi (FT-IR) Spektroskopisi,Raman Spektroskopisi ve X Işını Kırınım (XRD) analiz sonuçları incelendi. SEMgörüntülerinde katmanlı ve çok ince tabakalar halinde grafen oksit yapılarıgözlendi. Ayrıca, FT-IR spektroskopisi ve Raman spektroskopisinde ise grafenoksite ait karakteristik pikler görüldü. XRD spektrumda grafen oksite ait 2θ =13.66 °de (0.01) düzleminde yansımalar görüldü. Oluşan bu yapının hekzagonalkristal yapıda olduğu belirlendi. Düzlemler arasındaki d mesafesi (6.39) veörgü parametreleri 12.80 Å olarak belirlendi. İnsan saçı atıklarından aktif karbon üretimi dönüşüm süreci, TürkiyePatent ve Marka Ofisi tarafından patentlendi (Türkiye Patent Enstitüsü BaşvuruNumarası: (2017/10764). CR - Referans1 Gupta, A., “Human Hair “Waste” and Its Utilization: Gaps and Possibilities”, J. Waste Manag., 2014, 1–17. CR - Referans2 Leblond, C. P.. “Histological Structure of Hair, With a Brief Comparison to Other Epidermal Appendages and Epidermis Itself ”, Ann. N. Y. Acad. Sci., 1951, 53,464–75. CR - Referans3 Banat, F. A., Al-Asheh, S., “The use of human hair waste as a phenol biosorbent”, Adsorpt. Sci. Technol, 2001,19, 599–608. CR - Referans4 Novoselov K. S., Geim A. K., Morozov S. V., Jiang D., Zhang Y., Dubonos S. V., Grigorieva I. V., Firsov A. A., “Electric field effect in atomically thin carbon films”, Science, 2004, 306(5696), 666-669. CR - Referans5 Skrzetuska E., Puchalski M., Krucińska I., “Chemically driven printed textile sensors based on graphene and carbon nanotubes”, Sensors, 2014, 14, 16816-16828. CR - Referans6 Park S., Ruoff R.S., “Chemical methods for the production of graphenes”, Nat Nanotechnol., 2009,4,217-24. CR - Referans7 Poh H.L, Šaněk F., Ambrosi A., Zhao G., Sofer Z., Pumera M., “Graphenes prepared by Staudenmaier, Hofmann and Hummers methods with consequent thermal exfoliation exhibit very different electrochemical properties”, Nanoscale. 2012, 7,4(11):3515-22. CR - Referans8 An J. E., Jeon G. W., Jeong Y. G., “Preparation and properties of polypropylene nanocomposites reinforced with exfoliated graphene”, Fibers And Polymers, 2012,13, 4, 507-514. CR - Referans9 Ramlan A. H., Sirata S., Ismail E., Buys Y. F., Purwanto H., Mustafah Y., Md Din M. F., Ani M.H. “Effects of hydrogen during annealing process of graphene synthesis via chemical vapor deposition” ,Materials Today Proceedings, 2019, 7, 2, 675-685. CR - Referans10 Reina A, Jia X, Ho J, Nezich D, Son H, Bulovic V, Dresselhaus MS, Kong J., Large Area, Few- Layer Graphene Films on Arbitrary Substrates by Chemical Vapor Deposition, Nano Letters, 2009, 9(1), 30-35. CR - Referans11 Kosynkin, D. V., Higginbotham, A. L., Sinitskii, A.,Lomeda, J. R., Dimiev, A., Price, B. K., & Tour, J. M., “Longitudinal unzipping of carbon nanotubes to form graphene nanoribbons”. Nature, 2009, 458(7240),872-875. CR - Referans12 Yazdi G.R., Akhtar F., Ivanov I.G., Schmidt S., Shtepliuk I., Zakkarov A., Iakimov T., Yakimova R.,“Effect of epitaxial graphene morphology on adsorption of ambient species" Applied Surface Science, 2019, 486, 30, 239-248. CR - Referans13 Park S., Ruoff R., “Chemical methods for the production of graphene”, Nature Nanotechnology, 2009, 4: 217-224. CR - Referans14 Bal Altuntas D., Tepeli Y., Anik U., “Graphene-metallic nanocomposites as modifiers in electrochemical glucose biosensor transducers”, 2016, 2DMater.,3(034001). CR - Referans15 Shahrıary L., Athawale A. A., “Graphene Oxide Synthesized by using Modified Hummers Approach”, International Journal of Renewable Energy and Environmental Engineering, 2014, 2(1),1-6. CR - Referans16 Paulchamy B, Arthi G, Lignesh B.D., “A Simple Approach to Stepwise Synthesis of Graphene Oxide Nanomaterial”, 2015, J. Nanomed Nanotechnol , 6,1-6. CR - Referans17 Hanifah M.F.R, Jaafar J., Aziz M., Ismail A.F., Rahman M.A., Othman M.H.D., “Synthesis of graphene oxide nanosheets via modified hummers’ method and ıts physicochemical properties”, Jurnal Teknologi, 2015, 74(1): 189-192. CR - Referans18 Sofla R. L. M., Rezaei M., Babaie A., “Investigation of the effect of graphene oxide functionalization on the physical, mechanical and shape memory properties of polyurethane/reduced graphene oxide nanocomposites”, Diamond and Related Materials, 2019, 95, 195-205. CR - Referans19 Ferrari A.C., “Raman spectroscopy of graphene and graphite: disorder, electron-phonon coupling, doping and nonadiabatic effects”, Solid State Communications, 2007, 143(1): 47-57. CR - Referans20 Chen W., Yan L., Bangal P.R., “Chemical reduction of graphene oxide to graphene by sulfurcontaining compounds” The Journal of Physical Chemistry C, 2010, 114(47): 19885-19890. UR - https://doi.org/10.31202/ecjse.594819 L1 - https://dergipark.org.tr/en/download/article-file/947549 ER -