Pembuatan Dan Karakterisasi Nanokomposit Polyvinyl Alkohol Dengan Partikulat ZnS Sebagai Penguat
DAFTAR PUSTAKA
Abdullah, M., (2008), Pengantar Nanosains, ITB, Bandung
Abdullah, M., Virgus, Y., Nirmin dan Khairurrijal, (2008), Review : Sintesis
Nanomaterial, Jurnal Nanosains & Nanoteknologi, Vol. 1, No.2
Alvaro, A.A. de Quieiroz; Mayler Martins; Demetrio A.W.Soares; Ecio J.Franca,
(2008), Modeling of ZnS quantum dots synthesis by DFT techniques,
Journal of Molecular Structure, 873, 121-129
Ashby, Michael F & Jones, David R H., (1980), Engineering Materials, An
Introduction to their Properties and Applications, editing by R.J.
Brook, Pergamon Press, New York.
Bielecki, S., Krystinowicz, A., Turkiewcz, M. B. C., Kalinowska, H. (2005),
Bacterial cellulose, in: Polysaccharides and polyamide in the food
industry: Properties, production and patents, Wiley VCH, Weinhein
Birdi, K.S., (2003), Handbook of Surface and Colloid Chemistry, CRC Press,
Boca Raton.
Brinker, C.J dan Scherer,G.W., (1990), Sol-Gel Science: The Physiscs and
Chemistry of Sol-Gel Processing, Academic Press, Boston.
Brown, R, (2002), Handbook of Polymer Testing, Rapra Technology Limited,
Shawbury.
Borah, J.P, Barman, J., Sarma, K.C, (2008), Structural and Optical Properties
of ZnS Nanoparticles, Chalcogenide Letters, Vol.5, No.9, p.201-208..
Busnaina, A.,(2007), Nanomanufacturing Handbook, CRC Press, New York
Bhushan, B., (2007), Handbook of Nanotechnology, Springer Science+Business
Media, Inc. New York.
Campos, J.B., Prokhorov, E., Sanchez, I.C., Barcenas, J.G.L, Ramirez, A.M,
Hernandez, J.G., Castro, Y.L., Rio, R.E., (2012), Molecular Dynamics
Analysis of PVA-AgnP Composites by Dielectric Spectroscopy, Journal
of Nanomaterial, Vol. 20
Chang, J.Y.; Godovsky,D.Y.; Han, M.J.; Hassan, C.M; Kim, J.; Lee, B; Lee, Y;
Peppas, N.A.; Quirk, R.P; Yoo, T., (2000), Biopolymers PVA
Hydrogels Anionic Polymerisation Nanocomposites, Springer-Verlag
Berlin Heidelberg.
Deborah D.L. Chung, 2010, Composite Materials Science and Applications,
Springer London Dordrecht Heidelberg NewYork
Deerinck, T.J., 2008, The Application of Fluorescent Quantum Dots to
Confocal, Multiphoton, and Electron Microscopic Imaging,
Toxicologic Pathology, 36:112-116
DeMerlis, C.C dan Schoneker,D.R., 2003, Review of the Oral Toxicity of
Polyvinyl Alcohol(PVA), Food and Chemical Toxicology, Vol. 41,
p.319-326
73
Universitas Sumatera Utara
Dumbrava, A.,V Ciupina, G. Prodan, (2005), Dependence on Grain Size and
Morphology of Zinc Sulfide Particles by the Synthesis Route,
Rom.Journ.Phys., Vol.50, Nos. 7-8,P.831-836, Bucharest
Dumbrava, A., Badea, C., Prodan, G., Popovici, V., (2009), Zinc Sulfide Fine
Particles Obtained At Low Temperature, Chalcogenide Letters 6 :
437- 443
Erizal dan Rahayu, 2009, Thermo-Responsive Hidrogel of PolyVinyl Alcohol
(PVA) – Co-N-Isoprovyl Acrylamide (NIPAAM) Prepared by –
Radiation as a Matrix Pumping/On-Off System, Indo.J. Chem.9 (1) :
19-27
Ganguli. D., 1999, Sol–Emulsion–Gel Synthesis of Ceramic Particles. Bull.
Mater. Sci., 22: 221–226
Ganguli D., Chatterjee M.1997, Ceramic Powder Preparation: A Handbook.
Boston: Kluwer Academic Publishers.
Garces, J. M., Moll, D. J., Bicerano, J., Fibiger, R., and McLeod, D. G. (2000).
Polymeric Nanocomposites for Automotive Applications. Advanced
Materials, 12, 1835-1839.
Gea, S, (2010), Innovative Bio-nanocomposites Based on Bacterial Cellulose,
Thesis Doctor, Queen Mary University of London
Gogotsi, Y., (2006), Nanomaterials Handbook, Taylor & Francis Group, New
York
Guozhong Cao, (2004), Nanostructures & Nanomaterials : Synthesis,
Properties & Applications, Imperial College Press, London
Hadi, K., (2000), Mekanika Struktur Komposit, Penerbit Departemen
Pendidikan Nasional, Jakarta.
Hans, Eckhardt Schaefer., (2009), Nanoscience, Fak. Mathematik und Physik
Institut für Theoretische und Angewandte Physik, Germany
Hartomo, A.J, (1995), Bahan Polimer Kontruksi Bangunan, Gramedia Pustaka
Umum, Jakarta
Hatakeyama,T., Zhenhai Liu, (1998), Handbook of Thermal Analysis, John
Wiley & Sons Ltd, Baffins Lane, Chichester
Hosokawa M., Kiyoshi Nogi, Makio Naito, Toyokazu Yokoyama, (2007),
Nanoparticle Technology Handbook, Elsevier, Amsterdam, Netherlands
Jordan, J., Jacob, K. I., Tannenbaum, R., Sharaf, M. A., and Jasiuk, I. (2005).
Experimental Trends In Polymer Nanocomposites- A Review. Material
Science and Engineering A, 393, 1-11
Kousik Dutta, Sujit Manna, S.K. De, (2009), Optical and Electrical
Characterizations of ZnS nanoparticles embendded in conducting
polymer, Synthetic Metals, Vol. 159, Issues 3-4, pages 315-319
74
Universitas Sumatera Utara
Kumar, A.P., Dilip Depan, Namrata Singh Tomer, Raj Pal Singh, (2009),
Nanoscale particles for Polymer Degradation and StabilizationTrends and Future Perspectives, Progres in Polymer Science, 34,
p.479-515
Lagashetty, A and A Venkataraman, 2009, Polymer Nanocomposites,
Resonance, Gulbarga.
Mancini,L.H., dan Esposito, C.L., (2008), Nanocomposites : Preparation,
Properties and Performance, Nova Science Publisher, Inc, New York
Manias, E., Polizos,G.,Nakajima,H., dan Heidecker, M.J., 2007, Fundamental of
Polymer Nanocomposite Technology, John Wiley & Sons,Inc.
Motlan, Guanghua, Z., Tomsia, K.D., McBean, K., Phillips, M.R., dan Goldys,
E.M. (2007), Anneling of ZnS nanocrystals grown by Colloidal
Synthesis, Optical Materials, 29, p. 1579-1583
Murugadoss,G., Rajamannan, B., Madhusudhanan, U., (2009), Synthesis and
Characterization of Water-Soluble ZnS: Mn2+ Nanocrystals,
Chalcogenide Letters Vol. 6, No. 5, p. 197 - 201
Nicolais, L., Milella, E., Meo, M., (2011), Composite Materials: a Vision for
the Future, Springer-Verlag, London.
Patra,S., Mondal, S and Mitra, P (2009), Preparation of ZnS and SnS
Nanopowders by Modified SILAR Technique, Journal of Physical
Sciences, Vol. 13, 229-234.
Rastogi Trading Company, PVA properties.htm
Rema D.B.S., Raveendran, R. and Vaidyan, A.V, 2007, Synthesis and
Characterization of Mn2+-Doped ZznS Nanoparticles, Pramana Journal
Physics, Vol. 68, No. 4, p. 679-687
Sakka,S.,(2004),
Handbook
Hiraka,Osaka,Japan
of
Sol-Gel
Science
and
Technology.
Saptono, R., 2008, Ilmu Pengetahuan Bahan, Departemen of Metallurgi and
Material Fakultas Teknik UI
Saxena, S.K., 2004, Polyvinyl Alcohol (PVA), Chemical and Technical
Assessment, FAO
Schadler, L. S. (2003). Polymer-based and Polymer-filled Nanocomposite.
Wiley-VCH,Weinhem.
Shimao,M., Tamogami,T., Kishida,S., dan Harayama, S., 2000, The Gene pvaB
encodes Oxidized Polyvinyl Alcohol Hydrolase of Pseudomonas sp.
Strain VM15C and forms an operan with the Polyvinyl Alcohol
Dehydrogenase Gene pvaA, Microbiology, 146, 649-657
Sirait, M dan Khairiah. (2011), Sintesis dan Karakterisasi Pertumbuhan
Nanopartikel ZnS dengan Metode Kopresipitasi, Skripsi, Unimed
Srivastava, A dan Vishwakarma H.L., (2009), Synthesis and Optical Properties
of Bulk and Doped Zinc Sulfide Nanocrystals., 3 : 77-81
75
Universitas Sumatera Utara
Sun, P., Chen, J., Liu Z, W., Liu, Z , T. (2009). Poly(vinyl Alcohol)
Functionalized -cyclodextrin as an Incluion Complex. Journal of
Macromolecular Science, Part A: Pure and Applied Chemistry, 46, 533540.
Surdia, T, (2000), Pengetahuan Bahan Teknik, Penerbit Pradaya Paramita,
Jakarta.
Tiziana Di Luccio, dkk, Structural Studies of Thin Film of Semiconducting
Nanoparticles in Polymer Matrices, arxiv.org/pdf/cond-mat/0607488
Ubale, A.U. dan Kulkarni, D.K., (2005), Preparation and Study of Thickness
Dependent Electrical Characteristics of Zinc Sulfide Thin Films, Bull.
Material Sciences, 28, p.43-47
Ubale, A.U., Sangawar,V.S. dan Kulkarni, D.K., (2007), Size Dependent Optical
Characteristics of Chemically Deposited Nanostructured ZnS Thin
Films, Bull. Material Sciences, 30, p.147-151
Utracki, L.A.,(1999), Polypropylene Blends with Elastomers, In : KargerKoccis,K. Polypropylene : A-Z Reference. Dordrecht:Kluwer Publishers.
Wageh, S, dkk. (2003), Growth and optical properties of colloidal ZnS
nanoparticles, Journal of Crystal Growth 255,332-337
Warad, H., Suhane, A; Y.Boontongkong; C.Thanachayanont dan J.Dutta, (2004),
Colloidal Synthesis of Semiconductor Nanoparticles, The Third
Thailand Materials Science and Technology (MSAT III), Bangkok, Page
16-18
Yun Fu, S.,Bernd Lauke, Yiu-Wing Mai, (2009), Science and Engineering of
Short Fibre Reinforced Polymer Composites, CRC Press, Boston.
Zhang, L,. Zhipeng Wang, Chen Xu, Yi Li, Jianping Gao, Wei Wang and Yu Liu,
(2011), High Strength Graphene Oxide/Polyvinyl Alcohol Composite
hydrogels, Journal of Materials Chemistry, 21, p.10399-10406.
76
Universitas Sumatera Utara
Abdullah, M., (2008), Pengantar Nanosains, ITB, Bandung
Abdullah, M., Virgus, Y., Nirmin dan Khairurrijal, (2008), Review : Sintesis
Nanomaterial, Jurnal Nanosains & Nanoteknologi, Vol. 1, No.2
Alvaro, A.A. de Quieiroz; Mayler Martins; Demetrio A.W.Soares; Ecio J.Franca,
(2008), Modeling of ZnS quantum dots synthesis by DFT techniques,
Journal of Molecular Structure, 873, 121-129
Ashby, Michael F & Jones, David R H., (1980), Engineering Materials, An
Introduction to their Properties and Applications, editing by R.J.
Brook, Pergamon Press, New York.
Bielecki, S., Krystinowicz, A., Turkiewcz, M. B. C., Kalinowska, H. (2005),
Bacterial cellulose, in: Polysaccharides and polyamide in the food
industry: Properties, production and patents, Wiley VCH, Weinhein
Birdi, K.S., (2003), Handbook of Surface and Colloid Chemistry, CRC Press,
Boca Raton.
Brinker, C.J dan Scherer,G.W., (1990), Sol-Gel Science: The Physiscs and
Chemistry of Sol-Gel Processing, Academic Press, Boston.
Brown, R, (2002), Handbook of Polymer Testing, Rapra Technology Limited,
Shawbury.
Borah, J.P, Barman, J., Sarma, K.C, (2008), Structural and Optical Properties
of ZnS Nanoparticles, Chalcogenide Letters, Vol.5, No.9, p.201-208..
Busnaina, A.,(2007), Nanomanufacturing Handbook, CRC Press, New York
Bhushan, B., (2007), Handbook of Nanotechnology, Springer Science+Business
Media, Inc. New York.
Campos, J.B., Prokhorov, E., Sanchez, I.C., Barcenas, J.G.L, Ramirez, A.M,
Hernandez, J.G., Castro, Y.L., Rio, R.E., (2012), Molecular Dynamics
Analysis of PVA-AgnP Composites by Dielectric Spectroscopy, Journal
of Nanomaterial, Vol. 20
Chang, J.Y.; Godovsky,D.Y.; Han, M.J.; Hassan, C.M; Kim, J.; Lee, B; Lee, Y;
Peppas, N.A.; Quirk, R.P; Yoo, T., (2000), Biopolymers PVA
Hydrogels Anionic Polymerisation Nanocomposites, Springer-Verlag
Berlin Heidelberg.
Deborah D.L. Chung, 2010, Composite Materials Science and Applications,
Springer London Dordrecht Heidelberg NewYork
Deerinck, T.J., 2008, The Application of Fluorescent Quantum Dots to
Confocal, Multiphoton, and Electron Microscopic Imaging,
Toxicologic Pathology, 36:112-116
DeMerlis, C.C dan Schoneker,D.R., 2003, Review of the Oral Toxicity of
Polyvinyl Alcohol(PVA), Food and Chemical Toxicology, Vol. 41,
p.319-326
73
Universitas Sumatera Utara
Dumbrava, A.,V Ciupina, G. Prodan, (2005), Dependence on Grain Size and
Morphology of Zinc Sulfide Particles by the Synthesis Route,
Rom.Journ.Phys., Vol.50, Nos. 7-8,P.831-836, Bucharest
Dumbrava, A., Badea, C., Prodan, G., Popovici, V., (2009), Zinc Sulfide Fine
Particles Obtained At Low Temperature, Chalcogenide Letters 6 :
437- 443
Erizal dan Rahayu, 2009, Thermo-Responsive Hidrogel of PolyVinyl Alcohol
(PVA) – Co-N-Isoprovyl Acrylamide (NIPAAM) Prepared by –
Radiation as a Matrix Pumping/On-Off System, Indo.J. Chem.9 (1) :
19-27
Ganguli. D., 1999, Sol–Emulsion–Gel Synthesis of Ceramic Particles. Bull.
Mater. Sci., 22: 221–226
Ganguli D., Chatterjee M.1997, Ceramic Powder Preparation: A Handbook.
Boston: Kluwer Academic Publishers.
Garces, J. M., Moll, D. J., Bicerano, J., Fibiger, R., and McLeod, D. G. (2000).
Polymeric Nanocomposites for Automotive Applications. Advanced
Materials, 12, 1835-1839.
Gea, S, (2010), Innovative Bio-nanocomposites Based on Bacterial Cellulose,
Thesis Doctor, Queen Mary University of London
Gogotsi, Y., (2006), Nanomaterials Handbook, Taylor & Francis Group, New
York
Guozhong Cao, (2004), Nanostructures & Nanomaterials : Synthesis,
Properties & Applications, Imperial College Press, London
Hadi, K., (2000), Mekanika Struktur Komposit, Penerbit Departemen
Pendidikan Nasional, Jakarta.
Hans, Eckhardt Schaefer., (2009), Nanoscience, Fak. Mathematik und Physik
Institut für Theoretische und Angewandte Physik, Germany
Hartomo, A.J, (1995), Bahan Polimer Kontruksi Bangunan, Gramedia Pustaka
Umum, Jakarta
Hatakeyama,T., Zhenhai Liu, (1998), Handbook of Thermal Analysis, John
Wiley & Sons Ltd, Baffins Lane, Chichester
Hosokawa M., Kiyoshi Nogi, Makio Naito, Toyokazu Yokoyama, (2007),
Nanoparticle Technology Handbook, Elsevier, Amsterdam, Netherlands
Jordan, J., Jacob, K. I., Tannenbaum, R., Sharaf, M. A., and Jasiuk, I. (2005).
Experimental Trends In Polymer Nanocomposites- A Review. Material
Science and Engineering A, 393, 1-11
Kousik Dutta, Sujit Manna, S.K. De, (2009), Optical and Electrical
Characterizations of ZnS nanoparticles embendded in conducting
polymer, Synthetic Metals, Vol. 159, Issues 3-4, pages 315-319
74
Universitas Sumatera Utara
Kumar, A.P., Dilip Depan, Namrata Singh Tomer, Raj Pal Singh, (2009),
Nanoscale particles for Polymer Degradation and StabilizationTrends and Future Perspectives, Progres in Polymer Science, 34,
p.479-515
Lagashetty, A and A Venkataraman, 2009, Polymer Nanocomposites,
Resonance, Gulbarga.
Mancini,L.H., dan Esposito, C.L., (2008), Nanocomposites : Preparation,
Properties and Performance, Nova Science Publisher, Inc, New York
Manias, E., Polizos,G.,Nakajima,H., dan Heidecker, M.J., 2007, Fundamental of
Polymer Nanocomposite Technology, John Wiley & Sons,Inc.
Motlan, Guanghua, Z., Tomsia, K.D., McBean, K., Phillips, M.R., dan Goldys,
E.M. (2007), Anneling of ZnS nanocrystals grown by Colloidal
Synthesis, Optical Materials, 29, p. 1579-1583
Murugadoss,G., Rajamannan, B., Madhusudhanan, U., (2009), Synthesis and
Characterization of Water-Soluble ZnS: Mn2+ Nanocrystals,
Chalcogenide Letters Vol. 6, No. 5, p. 197 - 201
Nicolais, L., Milella, E., Meo, M., (2011), Composite Materials: a Vision for
the Future, Springer-Verlag, London.
Patra,S., Mondal, S and Mitra, P (2009), Preparation of ZnS and SnS
Nanopowders by Modified SILAR Technique, Journal of Physical
Sciences, Vol. 13, 229-234.
Rastogi Trading Company, PVA properties.htm
Rema D.B.S., Raveendran, R. and Vaidyan, A.V, 2007, Synthesis and
Characterization of Mn2+-Doped ZznS Nanoparticles, Pramana Journal
Physics, Vol. 68, No. 4, p. 679-687
Sakka,S.,(2004),
Handbook
Hiraka,Osaka,Japan
of
Sol-Gel
Science
and
Technology.
Saptono, R., 2008, Ilmu Pengetahuan Bahan, Departemen of Metallurgi and
Material Fakultas Teknik UI
Saxena, S.K., 2004, Polyvinyl Alcohol (PVA), Chemical and Technical
Assessment, FAO
Schadler, L. S. (2003). Polymer-based and Polymer-filled Nanocomposite.
Wiley-VCH,Weinhem.
Shimao,M., Tamogami,T., Kishida,S., dan Harayama, S., 2000, The Gene pvaB
encodes Oxidized Polyvinyl Alcohol Hydrolase of Pseudomonas sp.
Strain VM15C and forms an operan with the Polyvinyl Alcohol
Dehydrogenase Gene pvaA, Microbiology, 146, 649-657
Sirait, M dan Khairiah. (2011), Sintesis dan Karakterisasi Pertumbuhan
Nanopartikel ZnS dengan Metode Kopresipitasi, Skripsi, Unimed
Srivastava, A dan Vishwakarma H.L., (2009), Synthesis and Optical Properties
of Bulk and Doped Zinc Sulfide Nanocrystals., 3 : 77-81
75
Universitas Sumatera Utara
Sun, P., Chen, J., Liu Z, W., Liu, Z , T. (2009). Poly(vinyl Alcohol)
Functionalized -cyclodextrin as an Incluion Complex. Journal of
Macromolecular Science, Part A: Pure and Applied Chemistry, 46, 533540.
Surdia, T, (2000), Pengetahuan Bahan Teknik, Penerbit Pradaya Paramita,
Jakarta.
Tiziana Di Luccio, dkk, Structural Studies of Thin Film of Semiconducting
Nanoparticles in Polymer Matrices, arxiv.org/pdf/cond-mat/0607488
Ubale, A.U. dan Kulkarni, D.K., (2005), Preparation and Study of Thickness
Dependent Electrical Characteristics of Zinc Sulfide Thin Films, Bull.
Material Sciences, 28, p.43-47
Ubale, A.U., Sangawar,V.S. dan Kulkarni, D.K., (2007), Size Dependent Optical
Characteristics of Chemically Deposited Nanostructured ZnS Thin
Films, Bull. Material Sciences, 30, p.147-151
Utracki, L.A.,(1999), Polypropylene Blends with Elastomers, In : KargerKoccis,K. Polypropylene : A-Z Reference. Dordrecht:Kluwer Publishers.
Wageh, S, dkk. (2003), Growth and optical properties of colloidal ZnS
nanoparticles, Journal of Crystal Growth 255,332-337
Warad, H., Suhane, A; Y.Boontongkong; C.Thanachayanont dan J.Dutta, (2004),
Colloidal Synthesis of Semiconductor Nanoparticles, The Third
Thailand Materials Science and Technology (MSAT III), Bangkok, Page
16-18
Yun Fu, S.,Bernd Lauke, Yiu-Wing Mai, (2009), Science and Engineering of
Short Fibre Reinforced Polymer Composites, CRC Press, Boston.
Zhang, L,. Zhipeng Wang, Chen Xu, Yi Li, Jianping Gao, Wei Wang and Yu Liu,
(2011), High Strength Graphene Oxide/Polyvinyl Alcohol Composite
hydrogels, Journal of Materials Chemistry, 21, p.10399-10406.
76
Universitas Sumatera Utara