The Surface Coating Technologies of Glass

Yıl 2018, Cilt: 5 Sayı: 2, 475 - 500, 31.05.2018

Bekir Karasu , Beyza Sarıcaoğlu

https://doi.org/10.31202/ecjse.409685

Cited By: 3

Öz

Since its
discovery glass has been used in various application fields and thanks to
developing technology it is been improved. With the coating methods applied to glass
surfaces they are gaining extraordinary properties and fucntionality. So, glass
started to indicate more durability to external conditions (such as heat,
light, harmful radiations and pressure). In the current study, brief
description about glass coatings, historical development, various coating
methods and applications with several examples and latest development are mentioned.

Anahtar Kelimeler

Glass, Surface, Coating, History, Development

Cam Yüzey Kaplama Teknolojileri

Öz

Cam,
keşfedildiği dönemden günümüze dek çok farklı uygulama alanlarına sahip olmuş
ve her geçen gün gelişen teknoloji sayesinde ilerleme kaydetmiştir. Cam
yüzeylere uygulanan kaplama yöntemleri sayesinde, üretilen cam malzemeler
mevcut özelliklerinin ötesinde daha fazla işlevsellik edinmişler, böylece, dış
ortam koşullarına karşı (ısı, ışık, zararlı ışınlar, basınç) daha yüksek
dayanım sergilemeye başlamışlardır. Bu çalışmada da, cam yüzey kaplamaları
hakkında kısa bir tanımlama yapılmış, kaplama teknolojilerinin geçmişten
günümüze tarihsel gelişiminden bahsedilmiş, örneklerle cam yüzeyine uygulanan
kaplama yöntemlerinden söz edilmiş, kaplama çeşitleri üzerinde durulmuş ve
yüzey kaplama teknolojilerindeki son gelişmelere değinilmiştir.

Anahtar Kelimeler

Cam, Yüzey, Kaplama, Tarihçe, Gelişim

Kaynakça

• [1] http://www.teknikyaz.com/2015/05/yuzey-kaplama.html (Erişim Tarihi: 29.12.2017).
• [2] Arıca B., “Hidrofobik/Oleofobik Esaslı Fonksiyonel Yüzey Kaplama Materyallerinin Hazırlanması ve Geliştirilmesi”, Yüksek Lisans Tezi, Yıldız Teknik Üniversitesi, Fen Bilimleri Enstitüsü, İstanbul, 2012.
• [3] Sev A., Gür V., Özgen A., “Cephenin Vazgeçilmez Saydam Malzemesi Cam”, İstanbul, 2003 http://docplayer.biz.tr/4866786-Cephenin-vazgecilmez-saydam-malzemesi-cam.html (Erişim Tarihi: 26.04.2018).
• [4] http://www.hakkindabilgi.biz/camin-tarihi-gelisimi/ (Erişim Tarihi: 29.12.2017).
• [5] http://www.kulturvarliklari.gov.tr/TR,44944/antik-cam-tarihi.html (Erişim Tarihi: 29.12.2017).
• [6] Pulker H. K. “Coatings on Glass”, Elsevier, 1999.
• [7] Galser R. A., “Method of Forming Surface Films by Vapor Coating and the Article Resulting Therefrom”, U.S. Patent #2,478,817, 1949.
• [8] Holland L., “Vacuum Deposition of Thin Films”, Chapman and Hall Ltd., London, 1966.
• [9] Grubb A. D., “The LOF Semi–Continuous Thermal Evaporation Plant”, R&D Magazine, 1969, 20, No. 6, 42–46.
• [10] Chapin J. S., “Sputtering Source and Apparatus”, U.S. Patent #4,166,018, 1979.
• [11] Grubb A. D., Mosakowski T. S., Overacker W. G., “Production Techniques for High Volume Sputtered Films”, SPIE 325 Optical Thin Films, 1982, 74–80.
• [12] Hill R. J., Nadel S., Andreasen M., “History of Large Area Coatings”, Chapter 4 from 50 Years of Vacuum Coating Technology and the Growth of the Society of Vacuum Coaters, edited by Donald M. Mattox and Vivienne Harwood Mattox, Society of Vacuum Coaters, 2007.
• [13] Young P., Bernardi R., “Auto Solar Control Paper”, # 880050 in SAE Technical Paper Series, 1988.
• [14] McKelvey H. E., “Magnetron Cathode Sputtering Apparatus”, U.S. Patent #’s 4,356,073, 1982 and 4,422,916, 1983.
• [15] Görücü F., “Yapılarda Yalıtım Malzemesi Olarak Cam”, Türkiye Şişe ve Cam Fabrikaları A.Ş., TMH–Türkiye Mühendislik Haberleri, Sayı 427, 120, 2003.
• [16] “Seramik ve Cam Teknolojisi”, T.C. Milli Eğitim Bakanlığı, Ankara, 2013.
• [17]https://www.google.com.tr/search?q=ayna+kaplama&source=lnms&tbm=isch&sa=X&ved=0ahUKEwjLw8n1urXAhVNrRQKHWO4AqQQ_AUICigB&biw=1366&bih=588#imgrc= (Erişim Tarihi: 29.12.2017).
• [18] http://www.sisecam.com.tr/tr/inovasyon/arastirma-ve-teknoloji-gelistirme/yuzey-ve-kaplamalar (Erişim Tarihi: 29.12.2017).
• [19] http://www.iskteknik.com/makale/bina-golgeleme-sistemleri-ile-binalarda-enerji verimliliği-58c139fe737af (Erişim Tarihi: 29.12.2017).
• [20] Okuyucu H., “Yiterbiyum–Baryum–Bakır Oksit Süperiletken Şeritlerin Sol–Gel Metodu ile Üretimi ve Karakterizasyonu”, Doktora Tezi, Gazi Üniversitesi, Fen Bilimleri Enstitüsü, Ankara, 18–22, 2002.
• [21] Budaklıoğlu R., “Cam Yüzeylerine Sol–Jel Prosesiyle Hidrofob ve Oleofob Özelliklerin Kazandırılması”, Doktora Tezi, Yıldız Teknik Üniversitesi, Fen Bilimleri Enstitüsü, İstanbul, 2006.
• [22] Evcin A., “Afyonkarahisar Kocatepe Üniversitesi Kaplama Teknikleri” Ders Notları, 2006.
• [23] http://kilicneonreklam.com/cam-baski (Erişim Tarihi: 29.12.2017).
• [24] Kuşcuoğlu S., Yücesoy D., Engin S., “Cam Teknolojisine Giriş”, II. Cilt, Şişecam Eğitim Müdürlüğü, İstanbul, 1993.
• [25] Doyle P. J., “Glass Making Today Information Officer”, British Glass Industry Research Association, Sheffield, England, 1980.
• [26] Wigginton M., “Glass in Architecture”, Phaidon Press Ltd., London, 1996.
• [27] http://www.toracam.com/isicamsinerji.htm (Erişim Tarihi: 29.12.2017).
• [28] Güreren H., “Isı Yalıtımı ve Düzcam”, Trakya Cam Sanayii A.Ş., http://docplayer.biz.tr/3300437-Isi-yalitimi-ve-duzcam-haluk-gureren-trakya-cam-sanayii-as-hgureren-sisecam-com-tr.html (Erişim Tarihi: 26.04.2018).
• [29] “Cam Yapı Elemanları Kataloğu”, Şişecam, İstanbul, 1999.
• [30] Button D. and Pye B., “Glass in Building, Pilkington Glass”, Butterworth–Heinemann, Oxford, 1993.
• [31] https://www.firatpensenkronyapi.com/kategori/cam/reflekte-cam (Erişim Tarihi: 29.12.2017).
• [32] http://www.gra-pa.at/projects/NeueBaustoffe/03-bilder08.html (Erişim Tarihi: 29.12.2017).
• [33] Baranache R., “Designing with Fritted Glass”, Architecture, 83(5), New York, 149–152, 1997.
• [34] High Performance Commercial Building Facades, URL: www.gaia.lbl.gov/hpbf, (Erişim Tarihi: 10.10.2017).
• [35] Kahraman İ., “Cam Malzemenin Türleri, Özellikleri ve Sınıflandırılması”, Yüksek Lisans Tezi, Dokuz Eylül Üniversitesi, Fen Bilimleri Enstitüsü, İzmir, 2002.
• [36] https://turkish.alibaba.com/product-detail/silk-screen-printing-glass-enamelled-coating-glass-ceramic-glass-for-architecture-60570285524.html (Erişim Tarihi: 10.10.2017).
• [37] Yener A. K., “Binalarda Günışığından Yararlanma Yöntemleri: Çağdaş Teknikler”, VIII. Ulusal Tesisat Mühendisliği Kongresi Sempozyum Bildirisi, İzmir, 2007.
• [38] “Daylight in Buildings”, IEA, Report IEA SHC Task 21, Washington, 2000.
• [39] Sottile G. M., “Cleantech Daylighting Using Smart Glass: A Survey of Leed Accredited Professionals”, USA, pp. 201–204, 2008.
• [40] https://turkish.alibaba.com/product-detail/environmental-protection electrochromic-glass-film-electronic-smart-glass-60519671664.html (Erişim Tarihi: 10.10.2017).
• [41] Kazanasmaz T. ve Diler, Y., “Gelişmiş Cam Teknolojileri İle Enerji Etkinliğin Değerlendirmesi”, İzmir Yüksek Teknoloji Enstitüsü, Mimarlık Bölümü, http://docplayer.biz.tr/3954312-Gelismis-cam-teknolojileri-ile-enerji-etkinligin degerlendirmesi.html (Erişim Tarihi: 26.04.2018).
• [42] kisi.deu.edu.tr/burak.felekoglu/05.cam_part2.pdf (Erişim Tarihi: 29.12.2017).
• [43] Inoue T., Ichinose M., Ichikawa N., “Thermotropic Glass with Active Dimming Control for Solar Shading and Daylighting”, Energy and Buildings, 2008, Volume 40, Issue 3, 385–393.
• [44] Nasıl Çalışır–Bilim, Teknoloji ve İcatlar Ansiklopedisi, Gelişim Yayınları 4. Cilt, İstanbul, 1980.
• [45] Yılmaz R., Karasu B., “Havacılık ve Uzay Endüstrisinde Kullanılan Camlar”, Şişe Cam Teknik Bülten, 2017, Cilt: 46, Sayı: 3(232), 5–14.
• [46]Fotothing,http://www.fotothing.com/xnb/photo/c4210a41e7558301bc12d81cc852a25a/ (Erişim Tarihi: 10.10.2017).
• [47] Nun E., Oles M. and Scleich B., “Lotus Effect Surfaces”, Macromol. Symp., 2002.
• [48] Kula G., Karasu B., “Kendi Kendini Temizleyen Yüzeyler”, Seramik Türkiye Bilim Teknik ve Endüstri Dergisi, Seramik Federasyonu, 2017, No: 51, Mart–Ağustos Sayısı, 108–115.
• [49] Howarter J., A. and Youngblood J., P., “Self–Cleaning and Next Generation Anti–Fog Surfaces and Coatings”, Macromolecular Rapid Commun., 2008.
• [50]http://www.yaklasansaat.com/dunyamiz/bilim_ve_teknoloji/nanoteknoloji.asp(Erişim Tarihi: 10.10.2017).
• [51] Nadel S. J., Greene P., Rietzel J., Strumpfel J., “Equipment, Materials and Processes: A Review of High Rate Sputtering Technology for Glass Coating”, Thin Solid Films 442, 2003, 11–14.
• [52] Ozer N. M., Cronin J. P., “Sol–Gel Electrochromic Materials and Devices”, Key Engineering Materials 264–268, 2004, 337–342.
• [53] Ladwig A., Babayan S., Simith M., Hester M., Highland W., Koch R., Hicks R., “Atmospheric Plasma Deposition of Glass Coatings on Aluminum”, Surface and Coating Technology 201, 2007, 6460–6464.
• [54] Wen M., Chabagno J.–M., Silverman G., Bourrel M., “Edge–Strengthening of Flat Glass with Acrylate Coatings”, Journal of Non Crystalline Solids 354, 2008, 5060–5067.
• [55] Gao S.–L., Mäder E., Plonka R., “Nanocomposite Coatings for Healing Surface Defects of Glass Fibers and Improving Interfacial Adhesion”, Composites Science and Technology 68, 2008, 2892–2901.
• [56] Dal Bianco B., Bertoncello R., “Sol–Gel Silica Coatings for the Protection of Cultural Heritage Glass”, Nuclear Instruments and Methods in Physics Research B 266, 2008, 2358–2362.
• [57] Zayim E., Ö., Turhan I., Tepehan F. Z., Ozer N. M., “Sol–Gel Deposited Nickel Oxide Films for Electrochromic Applications”, Solar Energy Materials and Solar Cells 92(2), 2008, 164–169.
• [58] Boccaccini A. R., Rossetti M., Roether J. A., Zein S. H. S., Ferraris M., “Development of Titania Coating on Glass Foams”, Construction and Building Materials 23, 2554–2558, 2009.
• [59] Mohelnikova, J., “Materials for Reflective Coatings for Window Glass Applications”, Construction and Building Materials 23, 2009, 1993–1998.
• [60] Schoemaker S., Willert–Porada M., “Rapid Thermal Processing of Nano–Crystalline Indium Tin Oxide Transparent Conductive Oxide Coatings on Glass by Flame Impingement Technology”, Thin Solid Films 517, 2009, 3053–3056.
• [61] Fathi M. H., Doosthmohammadi A., “Bioactive Glass Nanopowder and Bioglass Coating for Biocompatibility Improvement of Metallic Implant”, Journal Of Materials Processing Technology 309, 2009, 1385–1391.
• [62] Bharati S., Soundrapandian C., Basu D., Datta S., “Studies on a Novel Bioactive Glass and Composite Coating with Hydroxyapatite on Titanium Based Alloys: Effect of ɤ–Sterilization on Coating”, Journal of European Ceramic Society 29, 2009, 2527–2535.
• [63] San Vicente G., Bayón R., Germán N., Morales A., “Long–Term Durability of Sol–Gel Porous Coatings for Solar Glass Covers”, Thin Solid Films 517, 2009, 3157–3160.
• [64] Bolelli G., Cannillo V., Gadow R., Killinger A., Lusvarghi L., Rauch J., “Microstructural and in vitro Characterisation of High–Velocity Suspension Flame Sprayed (HVSFS) Bioactive Glass Coatings”, Journal of European Ceramic Society 29, 2009, 2249–2257.
• [65] Schmid G., Eisenmenger–Sittner C., Hell J., Horkel M., Keding M., Mahr H., “Optimization of a Container Design for Deposition Uniform Metal Coatings on Glass Microspheres by Magnetron Sputtering”, Surface & Coating Technology 205, 2010, 1929–1936.
• [66] Jonnson A., Roos A., Jonson E. K., “The Effect of Transparency and Light Scattering of Dip Coated Antireflection Coatings on Window Glass and Electrocromic Foil”, Solar Energy Materials & Solar Cells 94, 2010, 992–997.
• [67] Kobayashi A., Kuroda T., Kimura H., Inoue A., “Effect of Spraying Condition on Property of Zr–Based Metallic Glass Coating by Gas Tunnel Type Plasma Spraying”, Materials Science and Engineering B 173, 2010, 122–125.
• [68] Bolelli G., Cannillo V., Gadow R., Killinger A., Lusvarghi L., Sola A., Stiegler N., “Microstructure of an in–vitro Behaviour of a Novel High Veleocity Suspension Flame Sprayed (HVSFS) Bioactive Glass Coatings”, Surface & Coating Technology 205, 2010, 1145–1149.
• [69] Nagamedianova Z., Ramírez–García R. E., Flores–Arévalo S. V., Miki–Yoshida M., Arroyo–Ortega M., “Solar Heat Reflective Glass by Nanostructured Sol–Gel Multilayer Coatings”, Optical Materials 33, 2011, 1999–2005.
• [70] Crombez R., McMinis J., Veerasamy V. S., Shen W., “Experimental Study of Mechanical Properties and Scratch Resistance of Ultra–Thin Diamond–Like–Carbon (DLC) Coatings Deposited on Glass”, Tribology International 44, 2011, 55–62.
• [71] Ganbavle V. V., Bangi U. K. H., Latth S. S., Mahadik, S. A., Rao A. V., “Self–Cleaning Silica Coating on Glass by Single Step Sol–Gel Route”, Surface & Coating Technology 205, 2011, 5338–5344.
• [72] Bannier E., Darut G., Sánchez E., Denoiirjean A., Bordes M. C., Salvador M. D., Rayón E., Ageorges H., “Microstructure and Photocatalitic Activity of Suspension Plasma Sprayed TiO2 Coatings on Steel and Glass Substrates”, Surface & Coating Technology 206, 2011, 378–386.
• [73] Yoon S., Kim J., Bae G., Kim B., Lee C., “Formation of Coating and Tribological Behavior of Kinetic Sprayed Fe–Based Bulk Metallic Glass”, Journal of Alloys and Compound 509, 2011, 347–353.
• [74] Wu Y., Chen S., Jiang J., Li H., Gao K., Zhang P., “The Effect of 58S Bioactive Glass Coating on Polyethylene Terephthalates in Graft–Bone Healing”, Journal of Bionic Engineering 9, 2012, 470–477.
• [75] Zhu W., Tong D., Xu J., Liu Y., Ma J., “Multifunctional Composite Multilayer Coatings on Glass with Self–Cleaning Hydrophilicity and Heat–Insulating Properties”, Thin Solid Films 526, 2012, 201–211.
• [76] Yugeswaran S., Kobayashi A., Suresh K, Rao K. P., Subramanian B., “Wear Behavior of Tunnel Type Plasma–Sprayed Zr–Based Metallic Glass Composite Coatings”, Applied Surface Science 258, 2012, 8460–8468.
• [77] Chen M., Shen M., Wang X., Zhu S. and Wang F., “Oxidation and Thermal Shock Behavior of a Glass–Alumina Composite Coating on K38G Superalloy at 1000 oC”, J. Mater. Sci. Technol., 2012, 28(5), 433–438.
• [78] Shütz A., Günthner M., Motz G., Greißl O., Glatzel U., “Characterisation of Novel Precursor–Drived Ceramic Coatings with Glass Filler Particles on Steel Substrates”, Surface & Coating Technology 207, 2012, 319–327.
• [79] Wang Z.–J., Kwon D.–J., Gu Ga.–Y., DeVries K, L., Park J.–M., “Surface Control and Cryogenic Durability of Transparent CNT Coatings on Dip–Coated Glass Substrates”, Journal of Colloid and Interface Science 386, 2012, 415–420.
• [80] Kamalisarvestani M., Saidur R., Mekhilef S., Javadi F. S., “Performance, Materials and Coating Technologies of Thermochromic Thin Film on Smart Windows”, Renewable and Sustainable Energy Reviews 26, 2013, 353–364.
• [81] Chang Y.–Y., Cheng C.–M., Liou Y.–Y., Tillmann W., Hoffmann F., Sprute T., “High Temperature Wettability of Multicomponent CrAlSiN and TiAlSiN Coatings by Molten Glass”, Surface & Coating Technology 231, 2013, 24–28.
• [82] Jiao Y., Xiao G.–Y., Xu W.–H., Zhu R.–F., Lu Y.–P., “Factors Influencing the Deposition of Hydroxyapatite Coating onto Hollow Microspheres”, Materials Science and Engineering C 33, 2013, 2744–2751.
• [83] Cheng J. B., Liang X. B., Wang Z. H., Xu B. S., “Dry Sliding Friction and Wear Properties of Metallic Glass Coating and Martensite Stainless Coatings”, Tribology International 60, 2013, 140–146.
• [84] Barletta M., Puopolo M., Gisario A., Vesco S., “Application and Drying at Ambient Temperature of Thick Organic–Inorganic Hybrid Coatings on Glass”, Surface & Coating Technology 236, 2013, 212–223.
• [85] Wang S., Zhang W., “Influence of Heat Treatment for Coating of Nickel Plating on Hollow Glass Beads”, Physics Procedia 50, 2013, 219–224.
• [86] Suresh K., Yugeswaran S., Rao K. P., Kobayashi A., Shum P. W., “Sliding Wear Behavior of Gas Tunnel Type Plasma Sprayed Ni–Based Metallic Glass Composite Coatings”, Vacuum 88, 2013, 114–117.
• [87] Yugeswaran S., Kobayashi A., Suresh K., Subramanian B., “Characterization of Gas Tunnel Type Plasma Sprayed TiN Reinforced Fe–Based Metallic Glass Coatings”, Journal of Alloys and Compound 551, 2013, 168–175.
• [88] Zuber K., Hall C., Murphy P., Ewans D., “Enhanced Abrasion Resistance of Ultrathin Reflective Coatings on Polymeric Substrates: An Improvement upon Glass Substrates”, Wear 297, 2013, 986–991.
• [89] Dong H., Li X., Huang X., Zhou Y., Jiang W., Chen L., “Improved Oxidation Resistance of Thermoelectric Skutterudites Coated with Composite Glass”, Ceramics International 39, 2013, 4551–4557.
• [90] Chen M., Shen M., Wang X., Zhu S., Wang F., “Interfacial Reaction between SiO2–Al2O3–ZnO–CaO Based Glass Coatings and K38G Superalloy Substrates”, Surface & Coating Technology 216, 2013, 145–151.
• [91] Cattini A., Latka L., Bellucci D., Bolelli G., Sola A., Lusvarghi L., Pawlowski L., Cannillo V., “Suspension Plasma Sprayed Bioactive Glass Coatings: Effects of Processing on Microstructure, Mechanical Properties and in–vitro Behavior”, Surface & Coating Technology 220, 2013, 52–59.
• [92] Louloudakis D., Vernardou D., Spanakis E., Katsarakis N., Koudoumas E., “Electrochemical Properties of Vanadium Oxide Coatings Grown by APCVD on Glass Substrates”, Surface & Coating Technology 230, 2013, 186–189.
• [93] Trespidi F., Timò G., Galeotti F., Pasini M., “PDMS Antireflection Nano–Coating for Glass Substrate”, Microelectronic Engineering 126, 2014, 13–18.
• [94] Cattini A., Bellucci D., Sola A., Pawlowski L., Cannillo V., “Functional Bioactive Glass Topcoats on Hyrdroxyapatite Coatings: Analysis of Microstructure and in–vitro Bioactivity”, Surface & Coating Technology 240, 2014, 110–117.
• [95] Yugeswaran S., Kobayashi A., “Metallic Glass Coatings Fabricated by Gas Tunnel Type Plasma Spraying”, Vacuum 110, 2014, 177–182.
• [96] Schweiger S., Neubauer C., Fraser S. D., Klein T., Schennach R., Reichmann A., Gruber–Woelfler H., “Coating on Glass Substrates to Prevent Alkali Ion Diffusion into Pharmaceutical Solution”, Surface & Coating Technology 258, 2014, 1249–1255.
• [97] An Y., Hou G., Chen J., Zhao X., Liu G., Zhou H., Chen J., “Microstructure and Tribological Properties of Iron–Based Metallic Glass Coatings Prepared by Atmospheric Plasma Spraying”, Vacuum 107, 2014, 132–140.
• [98] De Bard M., Hutter, H., Schreiner M., Bertoncello R., “Sol–Gel Silica Coating for Potash–Lime–Silica Stained Glass: Applicability and Protective Effect”, Journal of Non–Crystalline Solids 390, 2014, 45–50.
• [99] Múgica–Vidal R., Alba–Elías F., Sainz–García E., Ordieres–Meré J., “Atmospheric Plasma–Polimerization of Hydrophobic and Wear–Resistant Coatings on Glass Substrates”, Surface & Coating Technology 259, 2014, 374–385.
• [100] Ting J. A. S., Rosario L. M. D., Lee Jr H. V., Ramos H. J., Tumlos R. B., “Hyrophobic Coating on Glass Surfaces via Application of Silicone Oil and Activated Using a Microwave Atmospheric Plasma Jet”, Surface & Coating Technology 259, 2014, 7–11.
• [101] Chakraborty J., Sengupta S., Ray S., Ghosh S., Kapoor R., Gouri S. P., Pande G., Datta S., “Multifunctional Gradient Coatings of Phosphate–Free Bioactive Glass on SS316L Biomedical Implant Materials for Improved Fixation”, Surface & Coating Technology 240, 2014, 437–443.
• [102] Huang K., Cai S., Xu G., Ren M., Wang X., Zhang R., Niu S., Zhao H., “Sol–Gel Derived Mesoporous 58S Bioactive Glass Coatings on AZ31 Magnesium Alloy and in–vitro Degredation Behavior”, Surface & Coating Technology 240, 2014, 137–144.
• [103] Qu J., Song J., Qin J., Song Z., Zhang W., Shi Y., Zhang T., Zhang H., Zhang R., He Z., Xue X., “Transparent Thermal Insulation Coatings for Energy Efficient Glass Windows and Curtain Walls”, Energy and Buildings 77, 2014, 1–10. [104] Nielsen K. H., Orzol D. K., Koynov S., Carney S., Hultstein E., Wondraczek L., “Large Area, Low Cost Anti–Reflective Coating for Solar Glass”, Solar Energy Materials & Solar Cells 128, 2014, 283–288.
• [105] Zhang H., Hu,Y., Hou G., An Y., Liu G., “The Effect of High–Velocity Oxy–Fuel Spraying Parameters on Microstructure, Corrosion and Wear Resistance of Fe–Based Metallic Glass Coatings”, Journal of Non–Crystalline Solids 436, 2014, 37–44.
• [106] Dave V., Gupta H. O., Chandra R., “Nanostructured Hyrophobic DC Sputtered Inorganic Oxide Coating for Outdoor Glass Insulators”, Applied Surface Science, 2014, 231–239.
• [107] Concustell A., Henao J., Dosta S., Cinca N., Cano I. G., Guilemany J. M., “On the Formation of Metallic Glass Coatings by Means of Cold Gas Spray Technology”, Journal of Alloys and Compounds 651, 2015, 764–772.
• [108] Holubová B., Cílová Z. Z., Kučerová I., Zlámal M., “Weatherability of Hybrid Organic–Inorganic Silica Protective Coatings on Glass”, Progress in Organic Coatings 88, 2015, 172–180.
• [109] Cordero–Arias L., Cabanas–Polo S., Goudouri O. M., Misra S. K., Giabert J., Valsami–Jones E., Sachez E., Virtanen S., Boccaccini A. R., “Electrophoretic Deposition of Zn/Alginate and ZnO–Bioactive Glass/Alginate Composite Coatings for Antimicrobial Applications”, Materails Science and Engineering C 55, 2015, 137–144.
• [110] Monsalve M., Lopez E., Ageorges H., Vargas F., “Bioactivity and Mechanical Properties of Bioactive Glass Coatings Fabricated by Flame Spraying", Surface & Coatings Technology 268, 2015, 142–146.
• [111] Yuan Y., Chen Y., Chen W. L., Hong R. J., “Preparation, Durability and Thermostability of Hyrdophobic Antireflective Coatings for Solar Glass Cover”, Solar Energy 118, 2015, 222–231.
• [112] Zhang J., Mei G., Zhao S., Meng H., Xie Z., “A Fused Glass Coating for Oxidation Protection of Mo–W–ZrO2 Cermet”, Surface & Coatings Technology 261, 2015, 189–194.
• [113] Zhu Y., Fu J., Zheng C., Ji Z., “Effect of Laser Shock Peening without Absorbent Coating on the Mechanical Properties of Zr–Based Bulk Metallic Glass”, Optics & Laser Technology 75, 2015, 157–163.
• [114] Jiang–Fen H., Yong–Liang, Z., Kong–Jun Z., Cui-–Yan L., Li–Yun C., Lei Z., Hai–Bo Q., Bo–Ye Z., Wei,H., Chun–Yan Y., “Microstructure and Oxidation Protection of Borosilicate Glass Coating Prepared by Pulse Arc Discharge Deposition for C/C Composites”, Ceramics International 41, 2015, 4662–4667.
• [115] Rezayi T., Entezari M. H., “Achieving to a Superhydrophobic Glass with High Transparency by a Simple Sol–Gel–Dip Coating Method”, Surface & Coatings Technology 276, 2015, 557–564.
• [116] Cachafeiro H., Fdez. de Arevalo L., Vinuesa R., Goikoetxea J., Barriga J., “Impact of Solar Selective Coating Ageing on Energy Cost”, Energy Procedia 69, 2015, 299–309.
• [117] Espino–Estévez M. R., Fernández–Rodríguez C., González–Díaz O. M., Navío J. A., Fernández–Hevia D., Doña–Rodríguez J. M., “Enhancement of Stability and Photoactivity of TiO2 Coatings on Annular Glass Reactors to Remove Emerging Pollutants from Waters”, Chemical Engineering Journal 279, 2015, 488–497.
• [118] Catauro M., Bollino F., Papale F., Ciprioti S. V., “Investigation of Bioactivity, Biocompatibility, Thermal Behavior and Antibacterial Properties of Calcium Silicate Glass Coatings Containing Ag”, Journal of Non–Crystalline Solids 422, 2015, 16–22.
• [119] Surekha, K. and Sundararajan, S., “Self–Cleaning Glass”, Chapter 4 in Anti–Abrasive Nanocoatings, Elsevier, 2015.
• [120] Shao G., Wu X., Kong Y., Cui S., Shen X., Jiao C., Jiao J., “Thermal Shock Behavior of Infrared Radiation Property of Integrative Insulation Consisting of MoSi2/Borosilicate Glass Coating and Fibrous ZrO2 Ceramic Substrate”, Surface & Coatings Technology 270, 2015, 154–163.
• [121] Wang X., Chen M., Zhu S., Wang F., “Oxidation Behavior of Glass–Based Composite Thermal Barrier Coating on K417G Superalloy with NiCoCrAlY Bond Coat at 1000 oC”, Surface & Coatings Technology 270, 2015, 314–323.
• [122] “Sputter Yöntemi ile Temperlenebilir Low–E Kaplama (60’43 T)”, İncelemeli Patent Tescil Karar Tarihi: 21.04.2016, Şişecam A.Ş.
• [123] “Bir Çözelti ile Kaplanmış Cam Eldesi (Antireflekte)”, İncelemesiz Patent, Tescil Karar Tarihi: 21.06.2016, Şişecam A.Ş.
• [124] Domaradzki J., Kaczmarek D., Mazur M., Wojcieszak D., Halarewicz J., Glodek S., Domanowski P., “Investigations of Optical and Surface Properties of Ag Single Thin film Coating as Semitransparent Heat Reflective Mirror”, Materials Science–Poland, 2016, 34(4), 747–753.
• [125] Bobzin K., Öte M., Linke T. F. and Königstein T., “Process Development for Innovative Iron Alloy Metallic Glass Coatings”, Advanced Engineering Materials 18, 2016, 1833–1840.
• [126] Burkov A. A., Pyachin S. A., Zaytsev A. V., Kirichenk, E. A., Teslina M. A., Syuy N. A., “Development and Study of FeWMoCrBC Metallic Glass Coatings Synthesized by Electrospark Deposition”, Letters on Materials, 2016, 6 (3), 163–167.
• [127] Henao J., Concustell A., Dosta S., Cinca N., Cano I. G. and Guilemany J. M., “Influence of the Substrate on the Formation of Metallic Glass Coatings by Cold Gas Spraying”, Journal of Thermal Spray Technology, 2016, Vol. 25(5), 992–1008.
• [128] Chu Z., Yang Y., Chen X., Yan D., Huang D., Lei W., Liu Z., “Characterization and Tribology Performance of Fe–Based Metallic Glassy Composite Coatings Fabricated by Gas Multiple–Tunnel Plasma Spraying”, Surface & Coatings Technology 292, 2016, 44–48.
• [129] Kiefer K., Amlung M., Aktas O. C., de Oliveira P. W., Abdul–Khaliq H., “Novel Glass–Like Coatings for Cardiovascular Implant Application: Preparation, Characterization and Cellular Interaction”, Material Science and Engineering C 58, 2016, 812–816.
• [130] Seuss S., Heinloth M, Boccaccini A. R., “Development of Bioactive Composite Coatings Based on Combination of PEEK, Bioactive Glass and Ag Nanoparticles with Antibacterial Properties", Surface & Coatings Technology 301, 2016, 100–105.
• [131] Henao J., Concustell A., Cano I. G., Dosta S., Cinca N., Guilemany J. M., Suhonen T., “Novel Al–Based Metallic Glass Coatings by Cold Gas Spray”, Materials and Design 94, 2016, 253–261.
• [132] Díaz L. A., Cabal B., Prado C., Moya J. S., Torrecillas R., Fernández A., Arhire I., Krieg P., Killinger A., Gadow R., “High–Velocity Suspension Flame Sprayed (HVSFS) Soda–Lime Glass Coating on Titanium Substrate: Its Bactericidal Behaviour”, Journal of European Ceramic Society 36, 2016, 2653–2658.
• [133] Laouamri H., Giljean S., Arnol G., Kolli, M., Bouaouadja N., Tuilier M.–H., “Roughness Influence on the Optical Properties and Scratch Behavior of Acrylic Coating Deposited on Sandblasted Glass”, Progress in Organic Coatings 101, 2016, 400–406.
• [134] Lampert F., Jensen A. H., Din R. U., Møller P., “Hydrogen Silsesquioxane Based Silica Glass Coatings for the Corrosion Protection of Austenitic Stainless Steel”, Surface & Coatings Technology 307, 2016, 879–885.
• [135] Wu H., Lan X.−D., Liu Y., Li F., Zhang W.−D., Chen Z.−J., Zai X.−F., Zeng A. H., “Fabrication, Tribological and Corrosion Behaviors of Detonation Gun Sprayed Fe−Based Metallic Glass Coating”, Trans. Nonferrous Met. Soc. China 26, 2016, 1629−1637.
• [136] Wen Q., Zhou W., Su J., Qing Y., Luo F., Zhu D., “High Performance Electromagnetic Interference Shielding of Lamellar MoSi2/Glass Composite Coatings by Plasma Spraying”, Journal of Alloys and Compounds 666, 2016, 359−365.
• [137] Stazi F., Giampaoli M., Tittarelli F., Di Perna C., Munafò P., “Durability of Different Glass Coatings in Humid and Saline Environments, Ageing Impact on Heat−Light Transmission and Thermal Confort”, Building and Environment 105, 2016, 210−224.
• [138] Ramani R. V., Ramani B. M., Saparia A. D., Savaliya C., Rathod K. N., Markna J. H., “Cr–ZnO Nanostructured Thin Film Coating on Borosilicate Glass by Cost Effective Sol–Gel Dip Coating Method”, Ain Shams Engineering Journal, 2016, http://dx.doi.org/10.1016/j.asej.2016.04.015.
• [139] Reyes Y., Durán A., Castro Y., “Glass–Like Cerium Sol–Gel Coatings on AZ31B Magnesium Alloy for Controlling the Biodegradation of Temporary Implants”, Surface & Coatings Technology 307, 2016, 574–582.
• [140] Nian Y.–Y., Youh M.–J., Chang C.–P., Chen,Y.–C., Ger M.–D., “Preparation of Styrene–γ–Methacryloxypropyltrimethoxysilane/Pd Nanoparticles as Ink for Ink–Jet Printing Technology and Electroless Nickel Plating on Glass”, Journal of the Taiwan Institute of Chemical Engineers 68, 2016, 423–430.
• [141] Fu G. Y., We L. Q., Shan, X., Zhang X. M., Ding J., Lv C. C., Liu Y., Ye S. F., “Influence of a Cr2O3 Glass Coating on Enhancing the Oxidation Resistance of 20MnSiNb Structural Steel”, Surface & Coatings Technology 294, 2016, 8–14.
• [142] Cuce E., “Toward Multi–Functional PV Glazing Technologies in Low/Zero Carbon Buildings: Heat Insulation Solar Glass–Latest Developments and Future Prospects”, Renewable and Sustainable Energy Reviews 60, 2016, 1286–1301.
• [143] Rodriguez O., Curran D. J., Papini M., Placek L. M., Wre A. W., Schemitch, E. H., Zalzal P., Towler M. R., “Characerization of Silica–Based and Borate–Based, Titanium–Containing Bioactive Glasses for Coating Metallic Implants”, Jornal of Non–Crystalline Solids 433, 2016, 95–102.
• [144] Baoyu Z., Xinge G., Xiaohua C., Wenzhi Y., Ziming C., Wei H., Fujun S., Honggang S., “Improvement of the Corrosion Resistance of Steel Wires by Manufacturing Continuous Bulk Metallic Glass–Coated Steel Wires”, Rare Metal Materials and Engineering, 2016, 45(11): 2818–2822.
• [145] Hunt R., Cording C. “Selecting the Best Float Glass Coating Technology”, Glass International, 2017, 40 (1), 46–472.
• [146] Bera A., Deb K., Bera T., Sinthika S., Thapa R., Saha B., “Effect of Mg Substitution in Delafossite Structured CuFeO2 Thin Film Deposited on FTO Coated Glass Substrate and Its Diode Characteristics”, Thin Solid Films 642, 2017, 316–323.
• [147] Naumkin A. V., Rodlovskaya E. N., Vasnev V. A., Izmaylov B. A., Markova G. D., Dvoryak S. V. and Ivanov A. S., “Organoelement Coatings on Glass as Precursors for Biochip Technologies, Macromol Symp., 375, 1–5, 2017.
• [148] Wang H.–Y., Zhang H., Jiang H., Wang G.–Q., Xiong C.–R. “Preparation of Coating Glass with High Visible Transmittance and High UV Cut–off”, Wuji Cailiao Xuebao/Journal of Inorganic Materials, 2017, 32 (7), 758–764.
• [149] Wu L. Y. L., Zhao Q., Huang H., Lim R. J., “Sol–Gel Based Photochromic Coating for Solar Responsive Smart Window”, Surface & Coatings Technology 320, 2017, 601–607.
• [150] Nam Y.–V., Choi J.–H., Lee W.–J., Kim C.–G., “Fabrication of a Thin and Lightweight Microwave Absorber Containing Ni–Coated Glass Fibers by Electroless Plating”, Composites Science and Technology 145, 2017, 165–172.
• [151] Yao Y., Lee K.–T., Sheng X., Batara N. A., Hong N., He J., Xu L., Hussain M. M., Atwater H. A., Lewis N. S., Nuzzo R. G. and Rogers J. A., “Porous Nanomaterials for Ultrabroadband Omnidirectional Anti–Reflection Surfaces with Applications in High Concentration Photovoltaics”, Adv. Energy Mater., 2017, 7, 1–9.
• [152] Ryshchenko M. I., Belostotskaya L. A., Trusova Yu. D., Shchukina L. P., Pavlova L. V., “Glass–Crystal Coatings for Ceramic Face Bricks”, Voprosy Khimii i Khimicheskoi Tekhnologii, 2017, (5), 58–64.
• [153] Rezaei S. D., Shannigrahi S., Ramakrishna S., “A Review of Conventional, Advanced and Smart Glazing Technologies and Materials for Improving Indoor Environment”, Solar Energy Materials Solar Cells 159, 2017, 26–51.
• [154] Ya M., Su Z., Zou P., Chen J., Li F., Feng Q., Yao X., “Dielectric Properties under High Electric Field for Silicon Doped Alumina Thin Film with Glass–Like Structure Derived from Sol-Gel Process”, Journal of Alloys and Compounds 690, 2017, 249–255.
• [155] Goleus V. I., “Properties of Borosilicate Glass Frit as a Basis for Obtaining Glass–Enamel Coatings”, Voprosy Khimii i Khimicheskoi Tekhnologii, 2017, (3), 47–52.
• [156] Granqvist C. G. and Niklasson G. A., “Thermochromic Oxide–Based Thin Films and Nanoparticle Composites for Energy–Efficient Glazings”, Buildings, 2017, 7, 3; doi:10.3390/buildings7010003.
• [157] Estrada–Martíneza J., Reyes–Gasga J., García–García R., Vargas–Becerril N., Zapata–Torres M. G., Gallardo–Rivasa N. V., Mendoza–Martíneza A. M., Paramo–García U., “Wettability Modification of the AISI 304 and 316 Stainless Steel and Glass Surfaces by Titanium Oxide and Titanium Nitride Coating”, Surface & Coatings Technology 330, 2017, 61–70.
• [158] Barua N. K., Ragini T., Subasri R., “Sol–Gel Derived Single–Layer Zeolite–Based Coatings on Glass for Broadband Antireflection Properties”, Journal of Non–Crystalline Solids 469, 2017, 51–55.
• [159] Zawadzka K., Godlewska E., Mars K., Nocun M, Kryshtal A., Czyrska–Filemonowicz A., “Enhancement of Oxidation Resistance of CoSb3 Thermoelectric Material by Glass Coating”, Materials and Design 119, 2017, 65–75.
• [160] Pospiech D., Jehnichen D., Starke S., Müller F., Bünker T., Wollenberg A., Häußler L., Simon F., Grundke K., Oertel U., Opitz M., Kruspe R., “Multifunctional Methacrylate–Based Coatings for Glass and Metal Surfaces”, Applied Surface Science 399, 2017, 205–214.
• [161] Cheng J., Wang B., Liu Q., Liang X., “In–Situ Sythesis of Novel Al–Fe–Si Metallic Glass Coating by Arc Spraying”, Journal of Alloys and Compounds 716, 2017, 88–95.
• [162] Pacaphol K., Aht–Ong D., “The Influences of Silanes on Interfacial Adhesion and Surface Properties of Nanocellulose Film Coating on Glass and Aluminum Substrates”, Surface & Coatings Technology 320, 2017, 70–81.
• [163] Osadnik M., Wrona A., Lis M., Kamińska M., Bilewska K., Czepelak M., Czechowska K., Moskal G., Więcław G., “Plasma–Sprayed Mo–Re Coatings for Glass Industry Applications”, Surface & Coatings Technology 318, 2017, 349–354.
• [164] Rehman M. A. U., Bastan F. E., Haider B., Boccaccini A. R., “Electrophoretic Deposition of PEEK/Bioactive Glass Composite Coatings for Orthopedic Implants: A Design of Experiments (DoE) Study”, Materials & Design 130, 2017, 223–230.
• [165] Li Y., Matinmanesh A., Curran D. J., Schemitsch E. H., Zalzal P., Papini M., Wren A. W., Towler M. R., “Characterization and Fracture Property of Different Strontium–Containing Borate–Based Glass Coating for Ti6Al4V Substrates”, Jornal of Non–Crystalline Solids 458, 2017, 69–75.
• [166] Adak D., Ghosh S., Chakrabart P., Mondal, A., Saha H., Mukherjee R., Bhattacharyya R., “Self–Cleaning V–TiO2:SiO2 Thin–Film Coatings with Enhanced Transmission for Solar Glass Cover and Related Applications”, Solar Energy 155, 2017, 410–418.
• [167] Múgica–Vidal R., Alba–Elías F., Sainz–García E., Pantoja–Ruiz M., “Atmospheric Pressure Air Plasma Treatment of Glass Substrates for Improved Silver/Glass Adhesion in Solar Mirrors”, Solar Energy Materials and Solar Cells 169, 2017, 287–296.
• [168] Wang B., Hua Y., Ye Y., Chen R., Li Z., “Transparent Superhydrophobic Solar Glass Prepared by Fabricating Groove–Shaped Arrays on the Surface”, Applied Surface Science 426, 2017, 957–964.
• [169] Askar K., Wang J., Leo S.–Y., Kim C., Fenton A. M., Jiang P., Jiang B., “Scalable Parallel Self–Assembly of Nanoparticle Anti–Reflection Coatings”, Thin Solid Film 621, 2017, 156–164.
• [170] Tao X., Li X., Gu L., Xu,X., Guo, A., Hou F., Liu J., “Effect of TaSi2 Content on the Structure and Properties of TaSi2–MoSi2–Borosilicate Glass Coating on Fibrous Insulation for Enhanced Surficial Thermal Radiation”, Surface & Coatings Technology 316, 2017, 122–130.
• [171] Zhang W., Tu J., Long W., Lai W., Sheng Y., Guo T., “Preparation of SiO2 Anti–Reflection Coatings by Sol-Gel Method”, Energy Procedia 130, 2017, 72–76.
• [172] Bouvard O., Lanini M., Burnier L., Witte R., Cuttat B., Salvadè A., Schüler A., “ Nano & Microstructured Materials for Renewable Energies (Solar Nano and Micro Microtechnologies)”, Energy Procedia 122, 2017, 781–786.
• [173] Ardakan A. M., Sok E., Niemasz J., “Electrochromic Glass vs Fritted Glass: An Analysis of Glare Control Performance”, Energy Procedia 122, 2017, 343–348.
• [174] Bik M., Stygar M., Jelén P., Dąbrowa J., Leśniak M., Brylewski T., Sitarz M., “Protective–Conducting Coating Based on Black Glasses (SiOC) for Application in Solid Oxide Fuel Cell”, International Journal of Hydrogen Energy 42, 2017, 27298–27307.
• [175] Wu L. Y. L., Zhao Q., Huang H., Lim R. J., “Sol–Gel Based Photochromic Coating for Solar Responsive Smart Window”, Surface & Coatings Technology 320, 2017, 601–607.
• [176] Siecker J., K. Kusakana K., Numbi B. P., “A Review of Solar Photovoltaic Systems Cooling Technologies”, Renewable and Sustainable Energy Reviews 79, 2017, 192–203.
• [177] Nam Y.–W., Choi J.–H., Lee W.–J., Kim C.–G., “Fabrication of a Thin and Lightweight Microwave Absorber Containing Ni–Coated Glass Fibers by Elecroless Plating”, Composites Science and Technology 145, 2017, 165–172.
• [178] Fernadez J. S., Gentil P., Pires R. A., Reis R. L., Hatton P. V., “Multifuntional Bioactive Glass and Glass–Ceramic Biomaterials with Antibacterial Properties for Repair and Regeneration of Bone Tissue”, Acta Biomateriala 59, 2017, 2–11.
• [179] Garlisi C., Palmisano G., “Radiation Free Superhydrophilic and Antifogging Properties of E–beam Evaporated TiO2 Films on Glass”, Applied Surface Science 420, 2017, 83–93.
• [180] Lee J., Liou M.–L., Duh J.–G., “The Development of a Zr–Cu–Al–Ag–N Thin Film Metallic Glass Coating in Pursuit of Improved Mechanical, Corrosion and Antimicrobial Property for Bio-Medical Application”, Surface & Coatings Technology 310, 2017, 214–222.
• [181] Bouarioua A., Zerdaoui M., “Photocatalytic Activities of TiO2 Layers Immobilized on Glass Substrates by Dip–Coating Technique toward the Decolorization of Methyl Orange as a Model Organic Pollutant”, Jornal of Environmental Chemical Engineering 5, 2017, 1565–1574.
• [182] Dalai S., Savithri V. and Sharma P., “Investigating the Effect of Cobalt Loading on Thermal Conductivity and Hydrogen Storage Capacity of Hollow Glass Microspheres (HGMs)”, Materials Today: Proceedings 4, 11608–11616, 2017. [183] Chang C. M., Yang C. J., Wang K.–K., Liu J.–K., Hsu J. H., Huang J. C., “On the Reflectivity and Antibacterial/Antifungal Responses of Al–Ni–Y Optical Thin Film Metallic Glass Composites”, Surface & Coatings Technology 327, 2017, 75–82.
• [184] Addanki S., Nedumaran D., “Fabrication of Ozone Sensors on Porous Glass Substrates Using Gold and Silver Thin Films Nanoislands”, Optik 150, 2017, 11–21.
• [185] Kewvilai A., Tanathakorn, R., Laobuthee, A., Rattanasakulthong, W., Rodchanarowan, A., “Electroless Copper Plating on Nano–Silver Activated Glass Substrate: A Single–Step Activation”, Surface & Coatings Technology 319, 2017, 260–266.
• [186] Lampert F., Christiansen A. B., Din R. U., Gonzalez–Garcia Y., Møller P., “Corrosion Resistance of AISI 316L Coated with an Air–Cured Hydrogen Silsesquioxane Based Spin–on–Glass Enamel in Chloride Environment”, Corrosion Science 127, 2017, 260–266.
• [187] Carlier T., Saitzek S., Méar F. O., Blach J.–F., Ferri A., Huvé M., Montagne L., “Aluminosilicate Glass Thin Films Elaborated by Pulsed Laser Deposition”, Applied Surface Science 397, 2017, 13–18.
• [188] Arabatzis I., Todorova N., Fasaki I., Tsesmeli C., Peppas A., Li W. X., Zhao Z., “Photocatalytic, Self–Cleaning, Antireflective Coating for Photovoltaic Panels: Characterization and Monitoring in Real Conditions”, Solar Energy 159, 2018, 251–259.
• [189] Enrichi F., Armellini C., Belmokhtar S., Bouajaj A., Chiappini A., Ferrari M., Quandt A., Righini G. C., Vomiero A., Zur L., “Visible to NIR Downconversion Process in Tb3+–Yb3+ Codoped Silica–Hafnia Glass and Glass-Ceramic Sol–Gel Waveguides for Solar Cells”, Journal of Luminescence 193, 2018, 44–50.
• [190] Zhukov A., Ipatov M., del Val J. J., Churyukanova, M., Zhukova, V., “Tailoring of Magnetic Properties of Heusler–Type Glass–Coated Microwires by Annealing, Journal of Alloys and Compounds 732, 2018, 561–566.
• [191] Liu Z., Ji J., Jiang J., Wang J., “Experimental Analysis for Electromangnetic Scattering Characteristics of Aluminum–Doped Zinc Oxide (AZO) Coated Glass”, Optik 155, 2018, 561–566.
• [192] Yusof N. N., Ghoshal S. K., Arifin R., Awang A., Tewari H. S., Hamzah K., “Self–Cleaning and Spectral Attributes of Erbium Doped Sodium–Zinc–Tellurite Glass: Role of Titania Nanoparticles”, Journal of Non–Crystalline Solids 481, 2018, 225–238.
• [193] Koçak A., Karasu B., “General Evaluations of Nanoparticles”, El–Cezeri Journal of Science and Engineering (EJCSE), 2018, Vol. 5, No: 1, 191–236.
• [104] Nielsen K. H., Orzol D. K., Koynov S., Carney S., Hultstein E., Wondraczek L., “Large Area, Low Cost Anti–Reflective Coating for Solar Glass”, Solar Energy Materials & Solar Cells 128, 2014, 283–288.
• [183] Chang C. M., Yang C. J., Wang K.–K., Liu J.–K., Hsu J. H., Huang J. C., “On the Reflectivity and Antibacterial/Antifungal Responses of Al–Ni–Y Optical Thin Film Metallic Glass Composites”, Surface & Coatings Technology 327, 2017, 75–82.