klasifikasi teknologi...
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KLASIFIKASI TEKNOLOGI
MIKROELEKTRONIKAEka Maulana, ST, MT, MEng.
Teknik ElektroUniversitas Brawijaya
KLASIFIKASI TEKNOLOGI MIKROELEKTRONIKA
MIKRO-ELEKTRONIKA
Devais Diskrit Teknologi Film IC Monolitik
Film Tebal Film Tipis Bipolar MOSPCB
HibridaIMT
SMT
Trend Perkembangan Ukuran IC
Rambut
Serbuk sari
Bakteri
Asap Rokok
1970
Virus
1980 1990 2000 2010Tahun
1
10
100
10-1Ukura
nF
itur
Devais
(um
)
©2002 John Wiley & Sons, Inc. M. P. Groover, “Fundamentals of Modern Manufacturing 2/e”
Evolution of Electronic Devices
Simon D, Electronic Device for Nano-CMOS Era, Pan Stanford Publishing
ASPEK KLASIFIKASI DAN PERKEMBANGAN
TEKNOLOGI BAHAN
TEKNOLOGI PROSES
Silicon Processing, Fabrikasi dan Packaging IC
TEKNOLOGI DESAIN dan SIMULASI
TEKNOLOGI SISTEM INTEGRASI
TEKNOLOGI APLIKASI
TEKNOLOGI UJI dan VERIVIKASI
TEKNOLOGI KOMPUTASI DAN PEMODELAN
Fenomena Dasar Teknologi Nano
PhotonsL > 10 nm
l=0.1-10 mm
PhononsL=10-100 nm
l=1 nm
ElectronsL=10-100 nm
l=10-50 nm
L---Mean free path
l---wavelength
MoleculesL = 1-100 nm
l=1 nm
G Chan, MIT - Cambrige
Solar Cell: Applied Nanotech
Silicon-Based Material Solar Cell
Efficiency up to 14-25% (market)
High cost material
High cost processing
Long life time
DSSC (Dye-Sensitized Solar Cell)
Natural Dye-Sensitized
Efficiency under 5% (lab)
low cost materials
Low cost processing
Flexible substrates
Biomimic Approach
Energy Conversion to Electricity
DSSC
Sunlight
Electric
energy
chemical
energy
Photosynthesis
V
Chlorophyll extraction of papaya
and jatropha leaves in DSSC
Sholeh HP, Eka Maulana, et.al. Organic Solar Cell in DSSC 2013
References
M. P. Groover, 2002. “Fundamentals of Modern Manufacturing
2/e”, John Wiley & Sons, Inc.
Eka Maulana, Applied Science of Nanotechnology in
Engineering Seminar, Dec 21st 2013
Sholeh HP, Eka Maulana, et.al. Organic Solar Cell in DSSC 2013
Simon D, Electronic Device for Nano-CMOS Era, Pan Stanford
Publishing
G Chan, MIT - Cambrige