Nanowires for Energy Applications, Volume 98, covers the latest breakthrough research and exciting developments in nanowires for energy applications. This volume focuses on various aspects of Nanowires for Energy Applications, presenting interesting sections on Electrospun semiconductor metal oxide nanowires for energy and sensing applications, Integration into flexible and functional materials, Nanowire Based Bulk Heterojunction Solar Cells, Semiconductor Nanowires for Thermoelectric Generation, Energy Scavenging: Mechanical, Thermoelectric, and Nanowire synthesis/growth methods, and more.
Nanowires for Energy Applications, Volume 98, covers the latest breakthrough research and exciting developments in nanowires for energy applications. This volume focuses on various aspects of Nanowires for Energy Applications, presenting interesting sections on Electrospun semiconductor metal oxide nanowires for energy and sensing applications, Integration into flexible and functional materials, Nanowire Based Bulk Heterojunction Solar Cells, Semiconductor Nanowires for Thermoelectric Generation, Energy Scavenging: Mechanical, Thermoelectric, and Nanowire synthesis/growth methods, and more.
Dr. Sudha Mokkapati did her PhD on monolithic integration of compound semiconductor quantum dot based optoelectronic devices at the Australian National University. Following PhD, in 2008, she joined the Center for Sustainable Energy Systems at the Australian National University as a post-doctoral researcher. She worked as a Super Science Fellow and then as a Research Fellow at the Research School of Physics and Engineering, Australian National University from 2012-2016. In 2016, She joined the School of Physics and Astronomy, Cardiff University as a lecturer. Her current research interests include nanophotonics with compound semiconductors, semiconductor nanowire lasers and nanostructured solar cells.
Inhaltsangabe
1. Inorganic Nanofibers by Electrospinning Techniques and Their Application in Energy Conversion and Storage Systems Tim Ludwig, Christoph Bohr, Albert Queraltó, Robert Frohnhoven, Thomas Fischer and Sanjay Mathur 2. Top-Down Etching of Si Nanowires Amit Solanki and Handon Um 3. Group IV Nanowires for Carbon-Free Energy Conversion Samik Mukherjee, Simone Assali and Oussama Moutanabbir 4. Nanoscale Analyses Applied to Nanowire Devices Valerio Piazza, Lorenzo Mancini, Hung-Ling Chen, Stéphane Collin and Maria Tchernycheva 5. Semiconductor Nanowires for Thermoelectric Generation Gerard Gadea, Alex Morata and Albert Tarancon 6. Measurement of the Thermoelectric Properties of Individual Nanostructures Francesco Rossella, Giovanni Pennelli and Stefano Roddaro 7. Piezoelectric Semiconducting Nanowires Yonatan Calahorra, Canlin Ou, Chess Boughey and Sohini Kar-Narayan 8. Nanowire-Based Bulk Heterojunction Solar Cells Olivia D. Hentz, Jayce J. Cheng, Paul H. Rekemeyer, Nina Andrejevic and Silvija Gradecak
1. Inorganic Nanofibers by Electrospinning Techniques and Their Application in Energy Conversion and Storage Systems Tim Ludwig, Christoph Bohr, Albert Queraltó, Robert Frohnhoven, Thomas Fischer and Sanjay Mathur 2. Top-Down Etching of Si Nanowires Amit Solanki and Handon Um 3. Group IV Nanowires for Carbon-Free Energy Conversion Samik Mukherjee, Simone Assali and Oussama Moutanabbir 4. Nanoscale Analyses Applied to Nanowire Devices Valerio Piazza, Lorenzo Mancini, Hung-Ling Chen, Stéphane Collin and Maria Tchernycheva 5. Semiconductor Nanowires for Thermoelectric Generation Gerard Gadea, Alex Morata and Albert Tarancon 6. Measurement of the Thermoelectric Properties of Individual Nanostructures Francesco Rossella, Giovanni Pennelli and Stefano Roddaro 7. Piezoelectric Semiconducting Nanowires Yonatan Calahorra, Canlin Ou, Chess Boughey and Sohini Kar-Narayan 8. Nanowire-Based Bulk Heterojunction Solar Cells Olivia D. Hentz, Jayce J. Cheng, Paul H. Rekemeyer, Nina Andrejevic and Silvija Gradecak
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