untitled

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(95 ) () ()95-2001-13-04-00-00-00-45 5 kw 95 013 1 2 3 4

(output) ( / ) 1 500 300 (impacts) ( ) 1. 5 4 3 2 1 28 5 9 14 26 63 54 8 46 2. 5 4 3 2 1 3. 5 4 3 2 1

4. 5 4 3 2 1 25

96,551 95,988-563 96 1. 2. 96,551 95,988-563 96 3. 4. 5. 96,551 95,988-563 96 128,140 119,140-9,000 96 128,140 119,140-9,000 96 224,691 215,128-9,563 1 2 3 4 5. 1 2 3 5% 4

5/ 1 70 % 80 % 30-40 0C 2 1 kw SOFC 2 kw / 1 1kW SOFC 2 1kW SOFC 3 2 kw SOFC Start-CD MARC (96 ) 1 2(kW ) 3 8 1(ECR-CVD) 2 (EL)>0.1%

1 500 300 6 1

()

(95 ) (outcome)

95-2001-13-04-00-00-00-45 ()94 04 98 12 224,691 1,647,191 () 12% 100 kw () kwsofc () () 1% 11

SOFC SOFC 1. (1)<0.5 (2) 30% (3) 300 (4) 2. (1) 12

(2) (3) (4) 1 kw SOFC 3. (1)(650 ~800 ) SOFC (2) 1 kw SOFC 4. (1) (2) 5. (1) (2) 13

() () (224,691) % 95,988 95,988 44.62 1. 2. 95,988 95,988 44.62 3. 4. 5. 95,988 95,988 44.62 119,140 119,140 55.38 119,140 119,140 55.38 215,128 215,128 100 95.74 95.74 % 7,179 7,179 14

15

(output) 16

17

18

19

(outcome) () 28 5 9 14 26 63 1.(4 ) (1) Heteroepitaxial growth of GaAs on Si by MOVPE using a-gaas/a-si double-buffer layers (a-gaas/a-si) EPD 10E6 Journal of Crystal Growth 295 (2006) 103 107 (2) The growth of single-phase In 2 Se 3 by using metalorganic chemical vapor deposition with dual-source precursors TMI H 2 Se MOCVD Si(111) Si(100) γ-in 2 Se 3 XRD(X-ray diffraction) SEM(scanning electron microscopy) PL 20K 2.14eV (exciton emissions) 1.93eV Appl Phys Letter (3) Hybrid Mode Tracking Control Mechanism Used in HCPV Tracker DNI 20

( Solar Energy) (4) A novel mechanism of GaAsN/InGaAs strain-compensated superlattice solar cells GaAsN/InGaAs, GaAs,, multi-junction current-matching Solar Energy Material and Solar Cells 2.(2 ) (1) Redundancy of Non-AUG Initiators: a clever mechanism to enhance the efficiency of translation in yeast non-aug Redundancy of Non-AUG Initiators EMBO Journal (SCI) (2) A short peptide derived from the appended domain of yeast valyl-trna synthetase contains an unexpected activity in transcription activation trna Molecular Microbiology 3.(8 ) (1)Performance simulation for an anode-supported SOFC using Star-CD Code 21

Journal of Power Sources (2)Microturbine Performance Testing with Twin Rotating Disk Regenerators 150 kw 28 % 14 % International Journal of Turbo & Jet-Engines (3)Thermal Stress Analysis of a Planar SOFC Stack SOFC (PEN) PEN PEN (Journal of Power Sources) (4)Effect of pretreatments on the anode structure of solid oxide fuel cells SOFC H2/O2 22

SEM Journal of Power Sources (5)Experimental Simulation on the Integration of Solid Oxide Fuel Cell and Micro-Turbine Generation System GT SOFC SOFC/GT SeqB GT GT SeqB J. of Power Source (6)Available Energy Analysis of a Solid Oxide Fuel Cell Power Plant GCTool Journal of the Electrochemical Society) (7)The Influence of Energy Recuperation on the Efficiency of Solid Oxide Fuel Cell Power System GCTool 23

4 30 % 67 % SOFC 72 % SOFC Energy & Fuels SCI (8)Supported Nafion Membrane For Direct Methanol Fuel Cell (Nafion 211 Nx-424) Nafion 117 112 Nafion 211 Nx-424 Nafion (Nafion 211112117) Nx-42 ( Nafion PTFE)Journal of Fuel Cell Science & Technology 4.(4 ) (1)High-Efficiency DC-DC Converter With High Voltage Gain and Reduced Switch Stress SOFC DC/DC IEEE Trans. On Industrial Electronics (2) OBDD-Based Evaluation of Reliability and Importance Measuresfor Multi-State Systems Subject to Imperfect Fault Coverage IEEE Transactions on Dependable and Secure Computing (3) An improved decomposition scheme for assessing the reliability of embedded systems by using dynamic fault trees Reliability Engineering & 24

System Safety (4)Software and Hardware co-design for MP3 Decoder MP3 IEEE International Region 10 5.(2 ) (1) Low-resistivity and gold-colored TiN films achieved by halide CVD with a low [NH3]/[TiCl4] flow rate TiN films Thin Solid Films (2) Low resistivity ohmic contact to n-type poly-gan using Ti/Au/Ni/Au multilayer metal system Ti/Au/Ni/Au GaN Solid-state Electronics () 54 8 46 1. (1) (2) 25

(3) (4) InN/InP/TiO2 InN/InP/TiO2 (5) InN/TiO2 InN/TiO2 (6) (7) 1KeV~1MeV 26

1 10 12 ~1 10 16 1/ 2 1 ppm 350~600 (8) (9) (10) (1) DNI (2) 0.3 (3) 5W 2. (1) (2) 60 27

(3) (4) 3. (1) (SOFC)Stack (2) (3) 28

4. SOFC SOFC DC/DC 97%; DC/AC DC/AC 94% 1kW SOFC DC/DC DC/AC 5. (1) (APCVD) 1-10nm 325nm He:Cd 400-750nm (2) 29

(PECVD) 1-10nm 325nm He:Cd 400-750nm (3) (APCVD) 1. 95 7 20 InGaP/GaAs/Ge 500 300 10 10 300 1 2. (1) 30

(2) (3) (4) SOFC PEMFC 3. (1) SOFC 1-100 kw SOFC (2) BCC (Business Communication Company) 2003 12 SOFC 22.2% 2008 SOFC 335 HTcermix 2008 SOFC 1000 4. (1) (2) 31

1. Sharp 2006 2GW2010 2020 9GW 100GW < 18 %5~6 / Wp >30%3 / Wp Emcore 2010 500MW 2. (1) 2011 10 2011 E3 (2) 95.. 50-60 32

(3) 3. (1) SOFC SOFC (2) SOFC (APU) SOFC SOFC 100 MW 4. 4-10 DVD 4-11 334 5. LED 1/8 1/2 LED 33

25 (1) 12 1 2 3 4 5 6 InN/TiO 2 / / BiVO 4 InN/TiO 2 0.17% Rh/CeO 2 (111)α-Al 2 O 3 (111) O 2 -CeO 2 Si InN (MOCVD) InN 400InN 2.4 10 7 cm -2 500 InN 1 10 9 cm -2 600 >10 9 cm -2 Multi-junction cell MOCVD junction GaAsN/InGaAs superlattice 1.0eV (1) LCL (2) (3) 34

7 8 9 InGaAsN/GaAs 10 11 12 OCVD (1) TiO 2-x N x 5-10nm (2) Journal of European Ceramic Society () (As, Sb, N) GaAsSbN (2) 5 1 () 2 () 3 () 4 () 1. 1-kW 2. 2-kW 3. 1-kW 35

5 () 4. 2kW 5. : (1) Optimal Design of a 1-kWe Thermal Plasma Reformer to be presented at the Fuel Cell Seminar, Honolulu, Hawaii (2) (3) Optimal Temperature Control for Hydrogen Reformer by Generalized Linear Quadratic Gaussian / Loop Transfer Recovery Method, in Proceedings of 2006 CACS Automatic Control Conference, Tamsui, Taiwan, Nov. 10-11, 2006, approved for presentation. (4) Analytical studies of ethanol steam reforming in the thermal plasma reformer, in Proceedings of NCHEFC-1 The 1 ST National Conference on Hydrogen Energy and Fuel Cell, Nantou, Taiwan, November 2-3, 2006, approved for presentation 20 Nm 3 /hr (3) 6 1 SOFC SOFC PEN 36

2 3 4 5 6 SOFC SOFC SOFC SOFC SOFC (three phase boundary) DPIV (Digital Particle Image Velocimetry) LIF ( Laser-induced Fluorescence ) SOFC 契 (Refractive Index Matching, RIM) ADINA (Single cell testing) SOFC SOFC/GT SOFC SOFC ring-on-ring PEN 1. La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3 δ (LSCF) LSCF-GDC-Ag LSCF/YSZ/Pt LSCF-GDC-Ag/YSZ/Pt LSCF-GDC-Ag/GDC/Pt 37

Ag/YSZ/Pt Pt/YSZ/Pt (AC impedance) LSCF-GDC-Ag 2. GDC (gadolinia-doped ceria) SOFC 3. Ni/GDC 4. SEM (4) 1 1 SOFC system dynamic models (5) 1 1 1. Stoichiometric z-cut coercive field 2. Brewster angle Brewster angle 38

2. 3. (The 11th OptoElectronics and Communications Conference) 4. (186209) 11 12 1 24 12 12 12 12 12 12 junction junction InP InP InP InP InP 12 39

40 12 (carbon counter electrode) 12 12,,,,, 12,,,,, 12 12 12 12 12 SOFC

12 SOFC 12 SOFC MD 12 SOFC CFD 12 SOFC 12 SOFC 隂 12 SOFC 12 41

12 () () 96 MW 96 MW 42

95 (SHF) SHF (96 ) / (96 )(97-98 ) (furfural)hmf(96 ) (97 ) /95 SHF (SSF) 96 SSF (96-98 ) SHF SSF ( 80 %) (98-100 )(5-15 ) ( 90 %) 1 kw SOFC 1. SOFC (1) SOFC 43

(MEA) (2) SOFC SOFC SOFC SOFC (3) SOFC SOFC start-up SOFC 2. SOFC (1) 1kW SOFC SOFC SOFC SOFC 44

SOFC SOFC (2) 1kW SOFC 95 1kW SOFC (3) 2 kw SOFC kw SOFC 2kW SOFC SOFC 45

() Fresnel Lenses 1~2% ()/ () () 95 10 14 () () () () () 46

03-4711400 6642 47