週次 |
日期 |
單元主題 |
第1-1週 |
02/19 |
A. Catalytic growth of one-dimensional nanomaterials (a) Chemical vapor deposition method |
第1-2週 |
02/22 |
A. Catalytic growth of one-dimensional nanomaterials (b) Wire, tube, belt, sheet, etc. |
第2-1週 |
02/26 |
A. Catalytic growth of one-dimensional nanomaterials (a) Wire, tube, belt, sheet, etc. (b) Growth mechanism |
第2-2週 |
02/29 |
A. Catalytic growth of one-dimensional nanomaterials
(c) Growth mechanism |
第3-1週 |
03/04 |
B. Band theory and spectroscopic characterization (a)
Semiconductors |
第3-2週 |
03/07 |
B. Band theory and spectroscopic characterization (b)
Exciton and phonon |
第4-1週 |
03/11 |
B. Band theory and spectroscopic characterization (b)
Exciton and phonon (c) Quantum confinement |
第4-2週 |
03/14 |
B. Band theory and spectroscopic characterization (c)
Quantum confinement |
第5-1週 |
03/18 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (a)
Photolithographic techniques |
第5-2週 |
03/21 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (b) Fabrication of NT/NW-FET |
第6-1週 |
03/25 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (b) Fabrication of NT/NW-FET (c) Electric transport (I-Vsd and I-Vg curves) |
第6-2週 |
03/28 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (c) Electric transport (I-Vsd and I-Vg curves) |
第7-1週 |
04/01 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (d) Band bending |
第7-2週 |
04/04 |
民族掃墓節(放假) |
第8-1週 |
04/08 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (e) Scattering potential (f) Light on NT/NW-FET |
第8-2週 |
04/11 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (g) Hysteresis effect |
第9-1週 |
04/15 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (h) Electrostatic and chemical potentials |
第9-2週 |
04/18 |
C. Nanotube/nanowire field-effect transistors (NT/NW-FET) (i) Debye-Hückel screening length |
第10-1週 |
04/22 |
D. Neuron cells
(a) Ion channels |
第10-2週 |
04/25 |
D. Neuron cells (b) Membrane potential |
第11-1週 |
04/29 |
D. Neuron cells (b) Membrane potential (c) Action potential |
第11-2週 |
05/02 |
D. Neuron cells (c) Action potential |
第12-1週 |
05/06 |
D. Neuron cells (d) Hodgkin-Huxley model |
第12-2週 |
05/09 |
D. Neuron cells (e) Goldman equation |
第13-1週 |
05/13 |
D. Neuron cells (e) Goldman equation (f) Synaptic transmission |
第13-2週 |
05/16 |
D. Neuron cells (f) Synaptic transmission |
第14-1週 |
05/20 |
D. Neuron cells (g) Vesicle and neurotransmitter |
第14-2週 |
05/23 |
D. Neuron cells (h) Exocytosis and endocytosis |
第15-1週 |
05/27 |
E. Nanoscale biosensors
(a) NT/NW-FET
1. Surface modification |
第15-2週 |
05/30 |
E. Nanoscale biosensors
(a) NT/NW-FET 2. Sensitivity and selectivity |
第16-1週 |
06/03 |
E. Nanoscale biosensors
(a) NT/NW-FET 3. Langmuir binding model 4. Piont-contact and sheet-contact models |
第16-2週 |
06/06 |
E. Nanoscale biosensors
(a) NT/NW-FET 5. Extracellular analyte detection |
第17-1週 |
06/10 |
E. Nanoscale biosensors (b) Dielectrophoretic force to manipulate cells |
第17-2週 |
06/13 |
E. Nanoscale biosensors (c) Fluorescence resonance energy transfer (FRET) 1.
Förster model |
第18-1週 |
06/17 |
E. Nanoscale biosensors (c) Fluorescence resonance energy transfer (FRET) 1.
Förster model (d) Miscellaneous methods |
第18-2週 |
06/20 |
E. Nanoscale biosensors (d) Miscellaneous methods |