| Date |
Title |
Research Group |
| Feb. 8, 2010 |
* Sterilization by a Diamond LED |
Energy Enabling Technology Group |
| Jan. 15, 2010 |
* Development of a new electric power device that enables the grid-connection of numerous distributed generators |
Energy Enabling Technology Group |
| Aug. 24, 2009 |
* Development of an Easily Recyclable "Lithium-Copper Rechargeable Battery" |
Energy Interface Technology Group |
| May 11, 2009 |
* New Electric Power Device Developed to Help Enable the Introduction of Numerous Distributed Generators |
Superconductor Technology Group |
| April 6, 2009 |
* Development of a visible light responsive photocatalyst using tungsten oxide |
Solar Light Energy Conversion Group |
| April 6, 2009 |
* Fabrication of robust superhydrophobic surfaces |
Energy Interface Technology Group |
| Feb. 24, 2009 |
* Development of a New-type Lithium-Air Battery with Large Capacity |
Energy Interface Technology Group |
| Oct. 28, 2008 |
* Development of an efficient tandem type dye-sensitized solar cell |
Solar Light Energy Conversion Group |
| July 9, 2008 |
* Development of a Visible Light Responsive Photocatalyst using Tungsten Oxide under Indoor Lighting |
Solar Light Energy Conversion Group |
| June 23, 2008 |
* Synthesis of single crystalline spinel LiMn2O4 nanowires |
Energy Interface Technology Group |
| Oct. 4, 2007 |
* Introduction of distributed energy networks to residential homes |
Energy Network Group |
| July 1, 2007 |
* Simple fabrication of hollow microspheres using microbubbles as templates |
Thermal and Fluid System Group |
| May 28, 2007 |
* Successful 65% Reduction in the Energy Consumption of a Circulating Pump by Using a Surfactant |
Thermal and Fluid System Group |
| June 26, 2006 |
* Superhydrophobic surface fabricated from hydrophilic materials |
Energy Interface Technology Group |
| Dec. 11, 2005 |
* Novel melting method for lightweight hydrogen adsorbing alloy |
Hydrogen Energy Group |
| Oct. 11, 2005 |
* Nanoporues Materials for Lithium Storage Device with High Power and High Energy Densities |
Energy Interface Technology Group |
| Oct. 11, 2005 |
* Development of acoustic emission method for monitoring superconducting devices |
Superconductor Technology Group |
| July 4, 2005 |
* Super CO tolerant anode catalysts for fuel cells - A new generation electro-catalysts based on organic metal complexes |
- |
| July 4, 2005 |
* Detoxification of Dioxins under Mild Conditions |
Combustion Control Group |
| April 13, 2005 |
* Biogas Plant to Recover Hydrogen and Methane Quickly |
Biomass Group |
| April 13, 2005 |
* Monoenergetic Electron Beam Generation in Laser-driven Plasma Acceleration |
Power Laser Group |
| April 6, 2005 |
* New Melting Process for Hydrogen Storage Alloy |
Hydrogen Energy Group |
| Feb 21, 2005 |
* Direct Power Generation from Waste Heat/a> |
Thermoelectric Energy Conversion Group |
| Feb. 3, 2005 |
* Electrode Made from Mesoporous Nanocomposite Materials to Upgrade Power Density of Lithium Rechargeable Battery by Two Orders of Magnitude or More |
Nano Energy Materials Group |
| Jan. 19, 2005 |
* Synthesis of Self-ordered Nanoporous Crystalline Metal Oxide Materials |
Nano Energy Materials Group |
| Oct. 1, 2004 |
* Development of High Performance Catalyst for Polymer Electrolyte Fuel Cells |
Green Energy Lab. |
| Aug. 12, 2004 |
* Monoenergetic Electron Beam Generated from Laser Plasma Accelerator, World First |
Power Laser Group |
| Jul. 28, 2004 |
* World First Biogas Plant to Recover Hydrogen and Methane Quickly from Kitchen Waste |
Biomas Group |
| Mar. 5, 2004 |
* Successfully Test of Fault Current Limiter by Series-parallel Resonant LC Circuit |
Superconductivity Applications Group |
| Feb. 18, 2004 |
* Synthesis of Nanoporous Crystalline Metal Oxide Materials |
Nano Energy Materials Group |
| Jan. 20, 2004 |
* DME Fueled Courtesy Bus |
Clean Power System Group |
| Jan. 20, 2004 |
* Organic/Inorganic Molecular-Hybrid Polymer Electrolytes for Intermediate Temperature Operation |
Nano Energy Materials Group |
| Jan. 20, 2004 |
* Silicon Nanoblocks Pave The Way for A New Conceptual Nanoarchitecture |
Cluster Advanced Nanoprocesses CRT |
