Add to ORKGSwinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolidating the university’s position as one of Australia’s leading nanophotonics research hubs. The facility, complete with ‘cleanroom’, will enable Swinburne researchers to manipulate nanoparticles— which are a fraction of the width of a human hair—with incredible accuracy. This will make it possible for them to take their research in sensing, solid-state lighting and solar energy conversion to the next level. Professor of Nanophotonics Saulius Juodkazis, says his research group at the Centre for Micro-Photonics—which is looking at how cutting edge plasmonics techniques can be applied to improve the efficiency of solar cells—will benefit immensel...
20 th International Conference and School on quantum electronics. Organized for Institute of Electr...
Nanoplasmonics recently has emerged as a new frontier of photovoltaic research. Noble metal nanostru...
Three candidates for micro- to nano-scale light sources for application in various forms of scanning...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne's new $8 million plasmonics laboratory. The facility will enable Swinburne researchers to ...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
Rising global temperature calls for innovative ways to deal with the ever-growing energy demand. Lum...
From the photoinduced transport of energy that accompanies photosynthesis to the transcontinental tr...
Dr Baohua Jia, Senior Research Fellow at the Centre for Micro-Photonics at Swinburne University has ...
Dr Baohua Jia, Senior Research Fellow at the Centre for Micro-Photonics at Swinburne University has ...
20 th International Conference and School on quantum electronics. Organized for Institute of Electr...
Nanoplasmonics recently has emerged as a new frontier of photovoltaic research. Noble metal nanostru...
Three candidates for micro- to nano-scale light sources for application in various forms of scanning...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne University of Technology is set to open its new $8 million plasmonics laboratory, consolid...
Swinburne's new $8 million plasmonics laboratory. The facility will enable Swinburne researchers to ...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
An international team of plasmonics researchers has developed a novel type of nanoantenna that could...
Rising global temperature calls for innovative ways to deal with the ever-growing energy demand. Lum...
From the photoinduced transport of energy that accompanies photosynthesis to the transcontinental tr...
Dr Baohua Jia, Senior Research Fellow at the Centre for Micro-Photonics at Swinburne University has ...
Dr Baohua Jia, Senior Research Fellow at the Centre for Micro-Photonics at Swinburne University has ...
20 th International Conference and School on quantum electronics. Organized for Institute of Electr...
Nanoplasmonics recently has emerged as a new frontier of photovoltaic research. Noble metal nanostru...
Three candidates for micro- to nano-scale light sources for application in various forms of scanning...