S FIS 120441 Bibliography
DAFTAR PUSTAKA
Aimin, C.dkk.(2012). “Microwave sintering of thermistor ceramics, sintering of
ceramics – new emerging techniques, Dr. ArunachalamLakshmanan
(Ed.)”.ISBN : 987 – 953 – 51 – 0017 – 1. [Pdf]
Tersedia: http://www.intechopen.com/books/sintering-of-ceramics-newemerging- techniques/microwave-sintering-of-thermistor-ceramics
Ali, W.M. dkk. (2007). Influence of The Fabrication Process on The Performance
of X – Band Filters. Proceeding of Asia – Pacific Microwave Conference
2007.
Allenic, A. L.(2008).Structural, electrical and optical properties of p-type ZnO
epitaxial films. United States: UMI Microform.
ASTM Standard, Designation E 112 – 96. (2004). Standard Test Methods for
Determining Average Grain Size.American Society for Testing Material,
Philadelpia.
Cullity, B. D.(1956). Elementerof x-ray difraction. United States of America:
Adison-wesley company, Inc.
Barsoum, M. W. (2003). “Fundamentals of ceramics” Series in Materials Science
and
Engineering.Bristol
and
Philadelphia:
Institute of Physics
Publishing.
Callister, W. D. (2007).An introduction.material science and engineering.
(EdisiKetujuh), United States of America: John Wiley & Sons, Inc.
Dede, T.,Syarif, G. D., & Karim, S. (2007). Karakteristikkeramiktermistor NTC
daripasiryarosit
yang
berstrukturhematitdenganpenambahanoksidamangan.Prosiding Seminar
NasionalSainsdanTeknologiNuklir PTNBR-BATAN Bandung, 17-18 juli
2007.
Fajarin,
R.
dkk.(2015).
Pengaruh
sinteringterhadapsifatferroelektrikdandielektrik
temperature
PbTiO3
doping
48
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
49
ZnOdenganmetodemechanical alloying.MEKANIKA 14 (1) September
2015 InstitutTeknologiSepuluh November, Surabaya.
Firnando,
H.
G.&Astuti.
(2015).
Pengaruhsuhupada
proses
sonikasiterhadapmorfologipartikeldankristalinitasnanopartikel
Fe 3O4.
JurnalFisikaUnand4 (1); terbit: 1 Januari 2015 ISSN : 2302 – 8491.
UniversitasAndalas, Padang.
Fuad,
A.
dkk.(2010).
Sintesadankarakterisasisifatstrukturnanopartikel
xMnxO4denganmetodekopresipitasi.ProsidingPertemuanIlmiah
Fe3XXIV
Jateng& DIY; 10April 2010 hal 139-145.UniversitasNegeri Malang,
Malang.
Indiani, E.&Umiati, A. K. (2009).Keramikporselenberbasis feldspar sebagaibahan
isolator.TELKOMNIKA 7 (2)Hal : 83 – 92 Agustus 2009 ISBN : 1693 –
6930. UniversitasDiponegoro.
Jadhav, R.N., Mathad, S. N., Puri, V. (2012).Studies on the properties of
Ni0.6Cu0.4Mn2O4 NTC ceramic due to Fe doping.Ceramics International
38 Hal.5181-5188University Kolhapur, India.
Jagtap, S. dkk.(2010). „Lead free‟ thick film thermistors: a study of variation in
glass frit concentration and organics composition. Journal Material
Electron (21) Hal: 861 – 867University of Pune, India.
Kim, J. dkk.(2013). Input impedance calibration of buffer-less thermistor
temperature measurement system.International Journal of Control and
Automatic6 (6) Hal. 413 – 422.Hallym University, Korea.
Kingery, W. D. dkk.(1975). “Introduction to ceramics”.New York: Johm Wiley &
Sons, Inc.
Klym, H. dkk.(2014). Integrated thick-film nanostructures based on spinel
ceramics.Nanosclae Research Letters Springer Open Journal 9 Hal.149,
Ukraina.
Kohli, P. S., Devi, P.& Reddy, P. (2012). Synthesis and electrical behavior study
of Mn3O4nanoceramic powder for low temperature NTC thermistor.
Jurnal Material Science.23 Hal. 1891 – 1897 21 Maret 2012.. Central
Scientific Instruments Organization, India.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
50
Lee, W. &Park, J. (2014).NTC thermistors of Y-Al-Mn-Fe-Ni-Cr-O ceramics for
wide temperature range measurement. Proceedings of The 6th
International Conference on Sensing Technology, Inggris.
Luo, Y. dkk.(2009). NTCR behavior of La – doped BaBiO3 ceramics. Research
Article Advances in Materials Science and Engineering,Hindawi
Publishing corporation.
McMurry&Fay.(2003). “Chemistry”EdisiKeempat.Prentice hall.
Maulana, E. (2015). Teknologi Film TebalMikroelektronika. [Pdf]
Tersedia
:http://maulana.lecture.ub.ac.id/files/2015/10/03-Teknologi-
Film-Tebal-Mikroelektronika.pdf [25 Januari 2016]
Park, K. & Bang, D. Y. (2003).Electrical properties of Ni-Mn-Co-(Fe) oxide
thick-film NTC thermistors prepared by screen printing.Journal of
Material Science : Material in Electronics 14 Hal 81-87 Sejong
University, Korea.
Sahoo, S., Parashar, S. K. S, & Ali, S. M. (2014). CaTiO3 nano ceramic for
NTCR thermistor based sensor application. Journal of Advanced
Ceramics 3 (2) hal.117-124. KIIT University, India.
Solikha, W., Syarif, D. G. &Suhendi, E. (2011).Pembuatankeramik Fe2O3 yang
didoping 10% molCuOdenganmenggunakanmetode screen printing untuk
sensor gas etanol. Prosiding Seminar NasionalSainsdanTeknologiNuklir
PTNBR – BATAN Bandung 22 Juni 2011.
Syarif,
D. G. (2007). KarakterisasikeramiktermistorFe2O3 : 1mTi hasil sinter
danperlakuanpanas.JurnalIlmiahTeknikMesin 9 (1) Hal 1 – 10.
UniversitasTrisakti. Jakarta.
Syarif,
D.
G.dkk.
(2007).
Pembuatankeramikdaribahanmanganitdankarakterisasilistriknyasebelum
dansesudahiradiasi
gamma.Prosiding
Seminar
NasionakSainsdanTeknologiNuklir PTNBR-BATAN bandung, 17-18 Juli
2007.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
51
Syarif, D. G., Guntur, D. S. &Yamin, M. (2005). Pembuatankeramiktermistor
NTC
berbahandasaryarositdanevaluasikarakteristiknya.Prosiding
Seminar NasionalSainsdanTeknikNuklir.P3TkN – BATAN, Bandung.
Syarif,
D.
G.
dkk.(2009).
MgAl2O3untukbahanbakarnuklirmariks
dibuatdariserbukhasil
Karakterisasikeramik
inert
HEM
(IMF)
yang
padasuhu
sinter
1500°C.JurnalSainsdanTeknologiNuklir Indonesia 10 (2) Hal. 97 –
106PTNBR – BATAN Bandung.
Whitten, dkk.(2004). “General Chemistry” EdisiKetujuh. Thomson: Brooks Cole .
Wiendartun, Syarif, D. G.&Rusdiana, D. (2009).Karakteristikkeramik film tebal
CuFe2O4untuktermistor
NTC
yang
dibuatdenganmenggunakan
Fe2O3dari mineral yarosit.ArtikelBalaiKeramik No. 11 Terbit : 27 Mei
2009.
Wiendartun.dkk.
(2008).
Pembuatandankarakterisasikeramik
CuFe2O4untuktermistor NTC denganmenggunakan Fe2O3dari mineral
yarositasli.ArtikelBalaiKeramik No. 8 Terbit : 23 Juli 2008.
Wiendartun, Waslaluddin, &Syarif, D. G. 2013.Effect of MnO 2 addition on
characteristics of Fe2TiO5 ceramics for NTC thermistors utilizing
commercial and local iron oxide.Journal of The Australian Ceramic
Society 49 (2) Hal. 141-147Education of Indonesian University,
Bandung.
Xin, M. dkk. (2014). Effect of Mn doping on the optical, structural and
photoluminescence
synthesized
by
properties
sol-gel
of
nanostrusturedZnO
technique.
Journal
thin
film
superlattices
and
Microstructure 74 Hal. 234-241 Dalian Nationalities University, China.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Aimin, C.dkk.(2012). “Microwave sintering of thermistor ceramics, sintering of
ceramics – new emerging techniques, Dr. ArunachalamLakshmanan
(Ed.)”.ISBN : 987 – 953 – 51 – 0017 – 1. [Pdf]
Tersedia: http://www.intechopen.com/books/sintering-of-ceramics-newemerging- techniques/microwave-sintering-of-thermistor-ceramics
Ali, W.M. dkk. (2007). Influence of The Fabrication Process on The Performance
of X – Band Filters. Proceeding of Asia – Pacific Microwave Conference
2007.
Allenic, A. L.(2008).Structural, electrical and optical properties of p-type ZnO
epitaxial films. United States: UMI Microform.
ASTM Standard, Designation E 112 – 96. (2004). Standard Test Methods for
Determining Average Grain Size.American Society for Testing Material,
Philadelpia.
Cullity, B. D.(1956). Elementerof x-ray difraction. United States of America:
Adison-wesley company, Inc.
Barsoum, M. W. (2003). “Fundamentals of ceramics” Series in Materials Science
and
Engineering.Bristol
and
Philadelphia:
Institute of Physics
Publishing.
Callister, W. D. (2007).An introduction.material science and engineering.
(EdisiKetujuh), United States of America: John Wiley & Sons, Inc.
Dede, T.,Syarif, G. D., & Karim, S. (2007). Karakteristikkeramiktermistor NTC
daripasiryarosit
yang
berstrukturhematitdenganpenambahanoksidamangan.Prosiding Seminar
NasionalSainsdanTeknologiNuklir PTNBR-BATAN Bandung, 17-18 juli
2007.
Fajarin,
R.
dkk.(2015).
Pengaruh
sinteringterhadapsifatferroelektrikdandielektrik
temperature
PbTiO3
doping
48
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
49
ZnOdenganmetodemechanical alloying.MEKANIKA 14 (1) September
2015 InstitutTeknologiSepuluh November, Surabaya.
Firnando,
H.
G.&Astuti.
(2015).
Pengaruhsuhupada
proses
sonikasiterhadapmorfologipartikeldankristalinitasnanopartikel
Fe 3O4.
JurnalFisikaUnand4 (1); terbit: 1 Januari 2015 ISSN : 2302 – 8491.
UniversitasAndalas, Padang.
Fuad,
A.
dkk.(2010).
Sintesadankarakterisasisifatstrukturnanopartikel
xMnxO4denganmetodekopresipitasi.ProsidingPertemuanIlmiah
Fe3XXIV
Jateng& DIY; 10April 2010 hal 139-145.UniversitasNegeri Malang,
Malang.
Indiani, E.&Umiati, A. K. (2009).Keramikporselenberbasis feldspar sebagaibahan
isolator.TELKOMNIKA 7 (2)Hal : 83 – 92 Agustus 2009 ISBN : 1693 –
6930. UniversitasDiponegoro.
Jadhav, R.N., Mathad, S. N., Puri, V. (2012).Studies on the properties of
Ni0.6Cu0.4Mn2O4 NTC ceramic due to Fe doping.Ceramics International
38 Hal.5181-5188University Kolhapur, India.
Jagtap, S. dkk.(2010). „Lead free‟ thick film thermistors: a study of variation in
glass frit concentration and organics composition. Journal Material
Electron (21) Hal: 861 – 867University of Pune, India.
Kim, J. dkk.(2013). Input impedance calibration of buffer-less thermistor
temperature measurement system.International Journal of Control and
Automatic6 (6) Hal. 413 – 422.Hallym University, Korea.
Kingery, W. D. dkk.(1975). “Introduction to ceramics”.New York: Johm Wiley &
Sons, Inc.
Klym, H. dkk.(2014). Integrated thick-film nanostructures based on spinel
ceramics.Nanosclae Research Letters Springer Open Journal 9 Hal.149,
Ukraina.
Kohli, P. S., Devi, P.& Reddy, P. (2012). Synthesis and electrical behavior study
of Mn3O4nanoceramic powder for low temperature NTC thermistor.
Jurnal Material Science.23 Hal. 1891 – 1897 21 Maret 2012.. Central
Scientific Instruments Organization, India.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
50
Lee, W. &Park, J. (2014).NTC thermistors of Y-Al-Mn-Fe-Ni-Cr-O ceramics for
wide temperature range measurement. Proceedings of The 6th
International Conference on Sensing Technology, Inggris.
Luo, Y. dkk.(2009). NTCR behavior of La – doped BaBiO3 ceramics. Research
Article Advances in Materials Science and Engineering,Hindawi
Publishing corporation.
McMurry&Fay.(2003). “Chemistry”EdisiKeempat.Prentice hall.
Maulana, E. (2015). Teknologi Film TebalMikroelektronika. [Pdf]
Tersedia
:http://maulana.lecture.ub.ac.id/files/2015/10/03-Teknologi-
Film-Tebal-Mikroelektronika.pdf [25 Januari 2016]
Park, K. & Bang, D. Y. (2003).Electrical properties of Ni-Mn-Co-(Fe) oxide
thick-film NTC thermistors prepared by screen printing.Journal of
Material Science : Material in Electronics 14 Hal 81-87 Sejong
University, Korea.
Sahoo, S., Parashar, S. K. S, & Ali, S. M. (2014). CaTiO3 nano ceramic for
NTCR thermistor based sensor application. Journal of Advanced
Ceramics 3 (2) hal.117-124. KIIT University, India.
Solikha, W., Syarif, D. G. &Suhendi, E. (2011).Pembuatankeramik Fe2O3 yang
didoping 10% molCuOdenganmenggunakanmetode screen printing untuk
sensor gas etanol. Prosiding Seminar NasionalSainsdanTeknologiNuklir
PTNBR – BATAN Bandung 22 Juni 2011.
Syarif,
D. G. (2007). KarakterisasikeramiktermistorFe2O3 : 1mTi hasil sinter
danperlakuanpanas.JurnalIlmiahTeknikMesin 9 (1) Hal 1 – 10.
UniversitasTrisakti. Jakarta.
Syarif,
D.
G.dkk.
(2007).
Pembuatankeramikdaribahanmanganitdankarakterisasilistriknyasebelum
dansesudahiradiasi
gamma.Prosiding
Seminar
NasionakSainsdanTeknologiNuklir PTNBR-BATAN bandung, 17-18 Juli
2007.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
51
Syarif, D. G., Guntur, D. S. &Yamin, M. (2005). Pembuatankeramiktermistor
NTC
berbahandasaryarositdanevaluasikarakteristiknya.Prosiding
Seminar NasionalSainsdanTeknikNuklir.P3TkN – BATAN, Bandung.
Syarif,
D.
G.
dkk.(2009).
MgAl2O3untukbahanbakarnuklirmariks
dibuatdariserbukhasil
Karakterisasikeramik
inert
HEM
(IMF)
yang
padasuhu
sinter
1500°C.JurnalSainsdanTeknologiNuklir Indonesia 10 (2) Hal. 97 –
106PTNBR – BATAN Bandung.
Whitten, dkk.(2004). “General Chemistry” EdisiKetujuh. Thomson: Brooks Cole .
Wiendartun, Syarif, D. G.&Rusdiana, D. (2009).Karakteristikkeramik film tebal
CuFe2O4untuktermistor
NTC
yang
dibuatdenganmenggunakan
Fe2O3dari mineral yarosit.ArtikelBalaiKeramik No. 11 Terbit : 27 Mei
2009.
Wiendartun.dkk.
(2008).
Pembuatandankarakterisasikeramik
CuFe2O4untuktermistor NTC denganmenggunakan Fe2O3dari mineral
yarositasli.ArtikelBalaiKeramik No. 8 Terbit : 23 Juli 2008.
Wiendartun, Waslaluddin, &Syarif, D. G. 2013.Effect of MnO 2 addition on
characteristics of Fe2TiO5 ceramics for NTC thermistors utilizing
commercial and local iron oxide.Journal of The Australian Ceramic
Society 49 (2) Hal. 141-147Education of Indonesian University,
Bandung.
Xin, M. dkk. (2014). Effect of Mn doping on the optical, structural and
photoluminescence
synthesized
by
properties
sol-gel
of
nanostrusturedZnO
technique.
Journal
thin
film
superlattices
and
Microstructure 74 Hal. 234-241 Dalian Nationalities University, China.
Puspita Sari, 2016
PENGARUH SUHU PEMBAKARAN TERHADAP KARAKTERISTIK LISTRIK KERAMIK FILM TEBAL
BERBASIS Fe2O3–MnO–ZnO UNTUK TERMISTOR NTC
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu