Font Size: a A A
Keyword [Optoelectronic]
Result: 1 - 20 | Page: 1 of 10
1. Optoelectronic Molecular Design (Including Second-Order Nonlinear Optical Materials, Two-Photon Absorption Materials And Light-Emitting Materials)
2. Preparation And Optoelectronic Property Of Carbon Nanotube/rare-earth Phthalocyanine Hybrids
3. Optoelectronic Properties Of Transition-Metal Alkynyl σ Monomer And Polymer: Quantum Chemical Studies
4. Design, Synthesis, And Optoelectronic Properties Of Charge Transporting Materials For OLEDs
5. Crystal Structures And Optoelectronic Functions Of Phenyl-Substituent Distyrylbenzene Derivatives
6. The Synthesis, Characterization And Optoelectronic Properties Of The Cruciform Oligo(Phenylenevinylene)s With A Biphenyl Linkage Center
7. Organic Donor-acceptor Heterojunction Optoelectronic Composites With Ordered Nanostructures
8. Theoretical Investigations On The Organic Oligomer Light-Emitting Materials
9. Study Of 9, 10-phenanthrenequinone, Poly(Fluorene) And Optoelectronic Properties Of Related Materials
10. Study On The Preparation And Properties Of Nanocrystals/Polymer Optoelectronic Composite Materials
11. The Design, Synthesis And Optoelectronic Properties Of Molecular Glasses On Fluorene Trimers
12. The Influences Of Supramolecular Interactiontions On Optoelectronic Properties Of Organic π-Conjugated Materials
13. Synthesis And Optoelectronic Properties Of Organic Small Molecules, Oligomers And Dendrimers
14. Study On Synthesis Of High Quality Hydrothermal ZnO And Related Optoelectronic Properties
15. Silicon/organic Semiconductor Composite Optoelectronic Materials And Devices
16. Preparation And Optoelectronic Properties Of ZnO Thin Films By Single Source Chemical Vapor Deposition
17. The Studies On The Transport Behaviors And The Controlling Methods Of Oxide Semiconductor Nanowires Schottky Barriers
18. Theoretical Study On The Optoelectronic Properties Of Cyclometalated Platinum(Ⅱ) And Iridium (Ⅲ) Complexes
19. Preparation And Optoelectronic Properties Of MgxZn1-xO Ternary Compounds
20. Principle Of Fiber Self-Alignment Using Wetting Force Of Solder And Interfacial Reactions In Laser Soldering
  <<First  <Prev  Next>  Last>>  Jump to