Characteristics of Sudan Iii-Poly(N Vinylcarbazole) Composite Film for Optical Sensor Application
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. Taunaumang H., D. Taawoeda, (2007). Efek Permukaan dan Suhu Substrat Pada Orientasi Molekul dan Momen Dipol Film Tipis Hasil Deposisi Vakum Dari Molekul Berbasis Azobenzene, Laporan Hasil Penelitian Fundamental, Dibiayai oleh DP2M Ditjen Dikti Depdiknas.
. Taunaumang H., Wenas DR, D. Taawoeda, (2008). Pengembangan Material Fotorefraktif Untuk Aplikasi Fotonik, Laporan Hasil Penelitian Hibah Bersaing, Dibiayai oleh DP2M Ditjen Dikti Depdiknas.
. Taawoeda D, H. Taunaumang (2009). Pengembangan Material Fotorefraktif Untuk Aplikasi Fotonik, Laporan Hasil Penelitian Hibah Bersaing, Dibiayai oleh DP2M Ditjen Dikti Depdiknas.
. Taunaumang H.,D. Taawoeda (2011), Pengembangan Film Tipis Komposit DR19/PVK Untuk Aplikasi Sensor Optik, Laporan Hasil Penelitian Hibah Bersaing, Dibiayai oleh DP2M Ditjen Dikti Depdiknas. [5]. Taunaumang H, (2012), Fabrikasi dan Karakerisasi Film Tipis Komposit Sudan III/PVK. Laporan Hasil Penelitian Hibah Bersaing, Dibiayai oleh DP2M Ditjen Dikti Depdiknas.
. Ho, M-S., A. Natanshon, and P. Rochon.1996, Azo Polymers for Reversible Optical Storage.9, Copolymers Containing Two Types of Azobenzene Side Groups, Macromolecules.29, 44-49.
. Kersey , A.D, A Review of Recent Developments in Fiber Optic Sensor Technology, 1996, Optical Fiber Technology, 2, 291–317.
. Kim R. Rogers’, Edward J. Poziomek’, (1996), Fiber Optic Sensors For Environmental Monitoring, Chemosphere. Vol. 33, No. 6. pp. 1151-l174.
. Ramamoorthy R; P.K. Dutta, S.A. Akbar, Oxygen sensors: Materials, Methods, designs and applications, Journal of Materials Science, 38 (2003) 4271 – 4282.
. Parry D.A, M.Mat Sallah,L.S.Miller, I.R. Peterson, and R.Hollyoak,
Investigation Into The Respons of an Optical Gas Sensor Based On Polymeric LB Films, 1997, Supramolecular Science ,427-435.
. Worsfold O; C. Malins, M.G. Forkan, I.R. Peterson, B.D. MacCraith,D,J.
Walton, Optical NO2 sensing based on sol-gel entrapped azobenzene dyes,
. Luo, J, Jinggui Qin, Hu Kang, and Chend Ye, A Postfunctionlization Strategy To Develop PVK-Besed Nonlinear Optical Polymers with a High Density of Chromophore and Improved Processibility, Chem. Mater., 2011,13, 927-931.
. Colthup, N.B., L.H. Dally, S.E. Wiberly. (1975), Introduction to Infrared and Raman Spectroscopy, Academic Press, London.
. Alkins, E. (1974), X-Ray Structure Determination of Polymers, In Electronic structure of Polymers and Molecular Crystals, Edited by J-M. Andre, J. Ladik, J. Delhalle, Plenum Press, New York, 199-226.
. Gede, U.W. (1995), Polymer Physics, Chapman & Hall, London
. Silverstein, R.W., G.C. Bassler. (1967), Spectrometer Identification of Organic Compounds, Second Edition, John Willey & Sons, Inc. USA, 148-169.
. Meng, X., A. Natanshon, C. Barret, and P. Rochon. 1996, Azopolymer for Reversible Optical Storage.10. Cooperative Motion of Polar Side Groups in Amorphous Polymers, Macromolecules, 29, 946-952.
DOI: http://dx.doi.org/10.12962/j20882033.v25i3.534
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