S KIM 1100288 Bibliography
DAFTAR PUSTAKA
Abidin, A.Z., dkk. (2012). Sintesis dan Karakterisasi Polimer Superabsorben dari
Akrilamida. Jurnal Teknik Kimia Indonesia ,11(2), hlm. 87-93.
Ahmed, E. (2015). Hydrogel: Preparation, Characterization, and Application: A
Review. Journal of Advanced Research 6, hlm. 105-121.
Alla,
Ameduri,
et
al.
(2015).
Characterization
of
Poly
(Vinyl
Alcohol)/Acrylamide/Alkylammonium
Montmorillonite
Clay
Nanocomposites Prepared by Electron Beam Irradiation. Advanced
Composite Materials,24(1), hlm. 41-56.
et.al. (1997). Synthesis of Block Copolymers by Radical
Polymerization and Telomerization. Advances in Polymer Science,hlm.
127.
Baker, M et al. (2012).A review of Polyvinyl Alcohol and its Uses in Cartilage
and Orthopedic Applications. Willey Online Library.
Camargo, P.H.C, Satyanarayana, K.G danWypych, F. (2009). Nanocomposites:
Synthesis, Structure, Properties and New Application Opportunities.
Material Research, 12(1), hlm. 1-39.
Chen, et al. (2012). Graphene Oxide: Preparation, Functionalization, and
Electrochemical Application. Chemical Review, 112, 6027-6053.
Chotimah, N. (2013). Sintesis, Karakterisasi dan Uji Kinerja Biohidrogel
Berbahan Dasar EGN-PVA dengan Crosslinker Glutaraldehida
(Skripsi) Universitas Pendidikan Indonesia, Bandung.
Cong, H., Wang, P., and Yu, S. (2013). Stretchable and Self-Healing Graphene
Oxide-Polymer
Composite Hydrogels:
A Dual Network
Design.Chemistry of Material,hlm. 1-7.
Elliot, M. 1997. Superabsorbent Polymers. Product Development Scientist for
SAP, BASF Aktiengesellschaft.
Erizal. 2010. SintesisHidrogelSuperabsorbenPoli (Akrilamida-Ko-KaliumAkrilat)
denganTeknikRadiasidanKarakterisasinya. A Scientific Journal of The
Applications of Isotopes and Radiation , 6(2), hlm. 105-116.
Hadyawarman, dkk. (2008). Fabrikasi Material NanokompositSuperkuat,
RingandanTransparanMenggunakanMetode Simple Mixing.Jurnal
Nanosains daan Nanoteknologi, 1(1),hlm.14-21.
Hosseinzadeh, H. (2013). Synthesis and Swelling Properties of a Poly (Vinyl
Alcohol)-based Superabsorbing Hydrogel.Current Chemistry Letters 2 ,
hlm. 153-158.
52
53
Irwan, A., Sunardi, Syabatini, A. (2013). Polimer Superabsorben Berbasis
Akrilamida (AAm) Tercangkok Pati Bonggol Pisang (Musa
paradisiaca). ProsidingSemirata FMIPA Universitas Lampung (hlm.
45-53). Lampung: Universitas Lampung.
Kiatkamjornwong, S. (2007). Superabsorbent Polymers and Superabsorbent
Polymer Composites. Science Asia , 1, hlm. 39-43.
Kurnia, T.A. (2014). Sintesis dan Krakterisasi Hidrogel CRF Berbasis Akrilamida
dan Crosslinker N,Nā-Metilenbisakrilamida dengan Penambahan
Ekstrak SDT (Skripsi) UniversitasPendidikan Indonesia, Bandung.
Kurniadi, T. (2010). Kopolimerisasi Grafting Monomer Asam Akrilat pada
Onggok Singkong dan Karakterisasinya (Skripsi) Institut Pertanian
Bogor, Bogor.
Latfah, W.A., Hashim, S., dan Ibrahim, A.N. (2011). Polymer Hydrogels: A
Review. Polymer-Plastic Technology and Engineering, 50, hlm. 14751486.
Leona, R. (2008). HidrasiKation. Diaksesdarihttp://itb.ac.id.
Lisiyaningsih, D. (2013). PembuatandanKarakterisasi Biofilm PatiGembiliKitosandengan Plasticizer PolivinilAlkohol(Skripsi)UniversitasNegeri
Semarang, Semarang.
Liu and Huang. (2012).A Glucose Biosensor Based on Direct Electrochemistry of
Glucose Oxidase Immobilized onto Platinum Nanoparticles Modified
Graphene Electrode. Science China, Physics, Mechanics and
Astronomy, 55(7), hlm. 1163-1167.
Maitra, J and Shukla, V. (2014). Cross-linking in Hydrogels-A Review.American
Journal of Polymer Science, 4(2), hlm. 25-31.
Mehr, M and Kabiri, K. (2008). Superabsorbent Polymer Materials: A Review.
Iranian Polymer Journal, 17(6), 451-477.
Nurkomarasari, R. (2012). PengaruhCrosslinker N,Nā-Metilenbisakrilamida
(MBA)
TerhadapKinerjaKopolimerSuperabsorbenSelulosaBakterial
Nata De Soya ā AsamAkrilat yang DisintesisMenggunakanRadiasi
Microwave (Skripsi)UniversitasPendidikan Indonesia, Bandung.
Omidian, H and Park, K. (2008). Swelling Agent and Devices in Oral Drug
Delivery. Journal Drug Delivery Science Technology, 18(2).
Park, et al. (2008). Graphene Oxide Paper Modified by Divalent Ions-Enhancing
Mechanical Properties via Chemical Cross-Linking. American
Chemical Society, 2(3).
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu
54
Philippova, O et al. (2013). New Type of Swelling Behavior upon Gel Ionization:
Theory vs Experiment. American Chemical of Society Publications,
Macromolecules, 46, hlm. 9359-9367.
Povea, M, et al. (2011). Interpenetrated Chitosan-Poly (Acrylic Acid-CoAcrylamide) Hydrogels. Synthesis, Characterization and Sustained
Protein Release Studies. Material Science and Application , 2, hlm.
509-520.
Shen, J et al. (2011). Mechanical, Thermal and Swelling Properties of Poly
(acrylic acid)-Graphene Oxide Composite Hydrogels. Journal Soft
Matter , 8, hlm. 1831-1836.
Singh, A. et.al. (2010). Hydrogel: A Review. International Journal of
Pharmaceutical Sciences Review and Research , 4(2), hlm. 97-105.
Siregar, M. (2015). ProdukPencangkokanAnhidridMaleatpadaKaretAlamSiklis di
dalamPencampuran
Internal:
SifatFisikadanKompatibeltasdenganPoliamida. Agrium, 19(2).
Stankovic, S et al. (2006). Graphene-based Composite Materials. Nature,hlm.
442.
Stevens, M. (2001). Polymers Chemistry: An Introduction. Oxford University
Press, Inc.
Sultana, et.al. (2012). Effect of Mono- and Divalent Salts on the Properties of
Carboxymethyl Cellulose Hydrogels under Irradiation Technique.
International Journal Chemistry Science, 10(2),hlm. 627-634.
Swain, S., et al. (2013). Poly (Acrylamide-Co-Vinyl Alcohol)-Superabsorbent
Materials Reinforced by Modified Clay. Polymer Composites, hlm.
1794-1800.
Swantomo,
D.,
Megasari,
K.,
danSaptaaji,
R.
(2008).
PembuatanKompositPolimerSuperabsorbendenganMesinBerkasElektr
on. Seminar Nasional IV (hlm. 207-216). Yogyakarta: SDM
TeknologiNuklir.
Tanahashi, M. (2010). Development of Fabrication Methods of Filler/Polimer
Nanocomposites: With Focus on Simple Melt-Compounding-Based
Approach without Surface Modification of Nanofillers. Materials, 3.
Turodachi, N danLipsa, R. (2006). Copolymers Based on Poly(vinyl Alcohol)and
Acrylamide. Journal of Optoelectronics and Advanced Materials, 8(2),
hlm. 659-662.
Wang, W and Wang, A. (2008). Synthesis, Swelling Behavior, and Slow-Release
Characteristics of a Guar Gum-g-Poly (sodium acrylate)/Sodium
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu
55
Humate Superabsorbent. Journal of Appiled Polymer Science, 112(2),
hlm. 102-2111.
Yang, et al. (2010). Synthesis and Characterization of Layer-Aligned Poly (Vinyl
Alcohol)/Graphene Nanocomposite. Polymer , 51, hlm. 3431-3435.
Zhu, Y. et.al. (2010). Graphene and Graphene Oxide: Synthesis, Properties, and
Application.Advanced Materials, 20,hlm. 1-19.
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu
Abidin, A.Z., dkk. (2012). Sintesis dan Karakterisasi Polimer Superabsorben dari
Akrilamida. Jurnal Teknik Kimia Indonesia ,11(2), hlm. 87-93.
Ahmed, E. (2015). Hydrogel: Preparation, Characterization, and Application: A
Review. Journal of Advanced Research 6, hlm. 105-121.
Alla,
Ameduri,
et
al.
(2015).
Characterization
of
Poly
(Vinyl
Alcohol)/Acrylamide/Alkylammonium
Montmorillonite
Clay
Nanocomposites Prepared by Electron Beam Irradiation. Advanced
Composite Materials,24(1), hlm. 41-56.
et.al. (1997). Synthesis of Block Copolymers by Radical
Polymerization and Telomerization. Advances in Polymer Science,hlm.
127.
Baker, M et al. (2012).A review of Polyvinyl Alcohol and its Uses in Cartilage
and Orthopedic Applications. Willey Online Library.
Camargo, P.H.C, Satyanarayana, K.G danWypych, F. (2009). Nanocomposites:
Synthesis, Structure, Properties and New Application Opportunities.
Material Research, 12(1), hlm. 1-39.
Chen, et al. (2012). Graphene Oxide: Preparation, Functionalization, and
Electrochemical Application. Chemical Review, 112, 6027-6053.
Chotimah, N. (2013). Sintesis, Karakterisasi dan Uji Kinerja Biohidrogel
Berbahan Dasar EGN-PVA dengan Crosslinker Glutaraldehida
(Skripsi) Universitas Pendidikan Indonesia, Bandung.
Cong, H., Wang, P., and Yu, S. (2013). Stretchable and Self-Healing Graphene
Oxide-Polymer
Composite Hydrogels:
A Dual Network
Design.Chemistry of Material,hlm. 1-7.
Elliot, M. 1997. Superabsorbent Polymers. Product Development Scientist for
SAP, BASF Aktiengesellschaft.
Erizal. 2010. SintesisHidrogelSuperabsorbenPoli (Akrilamida-Ko-KaliumAkrilat)
denganTeknikRadiasidanKarakterisasinya. A Scientific Journal of The
Applications of Isotopes and Radiation , 6(2), hlm. 105-116.
Hadyawarman, dkk. (2008). Fabrikasi Material NanokompositSuperkuat,
RingandanTransparanMenggunakanMetode Simple Mixing.Jurnal
Nanosains daan Nanoteknologi, 1(1),hlm.14-21.
Hosseinzadeh, H. (2013). Synthesis and Swelling Properties of a Poly (Vinyl
Alcohol)-based Superabsorbing Hydrogel.Current Chemistry Letters 2 ,
hlm. 153-158.
52
53
Irwan, A., Sunardi, Syabatini, A. (2013). Polimer Superabsorben Berbasis
Akrilamida (AAm) Tercangkok Pati Bonggol Pisang (Musa
paradisiaca). ProsidingSemirata FMIPA Universitas Lampung (hlm.
45-53). Lampung: Universitas Lampung.
Kiatkamjornwong, S. (2007). Superabsorbent Polymers and Superabsorbent
Polymer Composites. Science Asia , 1, hlm. 39-43.
Kurnia, T.A. (2014). Sintesis dan Krakterisasi Hidrogel CRF Berbasis Akrilamida
dan Crosslinker N,Nā-Metilenbisakrilamida dengan Penambahan
Ekstrak SDT (Skripsi) UniversitasPendidikan Indonesia, Bandung.
Kurniadi, T. (2010). Kopolimerisasi Grafting Monomer Asam Akrilat pada
Onggok Singkong dan Karakterisasinya (Skripsi) Institut Pertanian
Bogor, Bogor.
Latfah, W.A., Hashim, S., dan Ibrahim, A.N. (2011). Polymer Hydrogels: A
Review. Polymer-Plastic Technology and Engineering, 50, hlm. 14751486.
Leona, R. (2008). HidrasiKation. Diaksesdarihttp://itb.ac.id.
Lisiyaningsih, D. (2013). PembuatandanKarakterisasi Biofilm PatiGembiliKitosandengan Plasticizer PolivinilAlkohol(Skripsi)UniversitasNegeri
Semarang, Semarang.
Liu and Huang. (2012).A Glucose Biosensor Based on Direct Electrochemistry of
Glucose Oxidase Immobilized onto Platinum Nanoparticles Modified
Graphene Electrode. Science China, Physics, Mechanics and
Astronomy, 55(7), hlm. 1163-1167.
Maitra, J and Shukla, V. (2014). Cross-linking in Hydrogels-A Review.American
Journal of Polymer Science, 4(2), hlm. 25-31.
Mehr, M and Kabiri, K. (2008). Superabsorbent Polymer Materials: A Review.
Iranian Polymer Journal, 17(6), 451-477.
Nurkomarasari, R. (2012). PengaruhCrosslinker N,Nā-Metilenbisakrilamida
(MBA)
TerhadapKinerjaKopolimerSuperabsorbenSelulosaBakterial
Nata De Soya ā AsamAkrilat yang DisintesisMenggunakanRadiasi
Microwave (Skripsi)UniversitasPendidikan Indonesia, Bandung.
Omidian, H and Park, K. (2008). Swelling Agent and Devices in Oral Drug
Delivery. Journal Drug Delivery Science Technology, 18(2).
Park, et al. (2008). Graphene Oxide Paper Modified by Divalent Ions-Enhancing
Mechanical Properties via Chemical Cross-Linking. American
Chemical Society, 2(3).
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu
54
Philippova, O et al. (2013). New Type of Swelling Behavior upon Gel Ionization:
Theory vs Experiment. American Chemical of Society Publications,
Macromolecules, 46, hlm. 9359-9367.
Povea, M, et al. (2011). Interpenetrated Chitosan-Poly (Acrylic Acid-CoAcrylamide) Hydrogels. Synthesis, Characterization and Sustained
Protein Release Studies. Material Science and Application , 2, hlm.
509-520.
Shen, J et al. (2011). Mechanical, Thermal and Swelling Properties of Poly
(acrylic acid)-Graphene Oxide Composite Hydrogels. Journal Soft
Matter , 8, hlm. 1831-1836.
Singh, A. et.al. (2010). Hydrogel: A Review. International Journal of
Pharmaceutical Sciences Review and Research , 4(2), hlm. 97-105.
Siregar, M. (2015). ProdukPencangkokanAnhidridMaleatpadaKaretAlamSiklis di
dalamPencampuran
Internal:
SifatFisikadanKompatibeltasdenganPoliamida. Agrium, 19(2).
Stankovic, S et al. (2006). Graphene-based Composite Materials. Nature,hlm.
442.
Stevens, M. (2001). Polymers Chemistry: An Introduction. Oxford University
Press, Inc.
Sultana, et.al. (2012). Effect of Mono- and Divalent Salts on the Properties of
Carboxymethyl Cellulose Hydrogels under Irradiation Technique.
International Journal Chemistry Science, 10(2),hlm. 627-634.
Swain, S., et al. (2013). Poly (Acrylamide-Co-Vinyl Alcohol)-Superabsorbent
Materials Reinforced by Modified Clay. Polymer Composites, hlm.
1794-1800.
Swantomo,
D.,
Megasari,
K.,
danSaptaaji,
R.
(2008).
PembuatanKompositPolimerSuperabsorbendenganMesinBerkasElektr
on. Seminar Nasional IV (hlm. 207-216). Yogyakarta: SDM
TeknologiNuklir.
Tanahashi, M. (2010). Development of Fabrication Methods of Filler/Polimer
Nanocomposites: With Focus on Simple Melt-Compounding-Based
Approach without Surface Modification of Nanofillers. Materials, 3.
Turodachi, N danLipsa, R. (2006). Copolymers Based on Poly(vinyl Alcohol)and
Acrylamide. Journal of Optoelectronics and Advanced Materials, 8(2),
hlm. 659-662.
Wang, W and Wang, A. (2008). Synthesis, Swelling Behavior, and Slow-Release
Characteristics of a Guar Gum-g-Poly (sodium acrylate)/Sodium
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu
55
Humate Superabsorbent. Journal of Appiled Polymer Science, 112(2),
hlm. 102-2111.
Yang, et al. (2010). Synthesis and Characterization of Layer-Aligned Poly (Vinyl
Alcohol)/Graphene Nanocomposite. Polymer , 51, hlm. 3431-3435.
Zhu, Y. et.al. (2010). Graphene and Graphene Oxide: Synthesis, Properties, and
Application.Advanced Materials, 20,hlm. 1-19.
Rosalina, 2015
SINTESIS DAN KARAKTERISASI HIDROGEL SUPERABSORBEN BERBASIS
KOMPOSIT POLI (AKRILAMIDA-KO-VINIL AKLOHOL)/GRAFIT OKSIDA
Universitas Pendidikan Indonesia | repository.upi.edu |
perpustakaan.upi.edu