eprintid: 4405
rev_number: 38
eprint_status: archive
userid: 1903
dir: disk0/00/00/44/05
datestamp: 2010-09-28 09:46:50
lastmod: 2016-04-20 13:39:05
status_changed: 2010-09-28 09:46:50
type: conference_item
metadata_visibility: show
item_issues_count: 0
creators_name: Cánovas Díaz, Enrique
creators_name: Martí Vega, Antonio
creators_name: García-Linares Fontes, Pablo
creators_name: Antolín Fernández, Elisa
creators_name: Fuertes Marrón, David
creators_name: Tablero Crespo, César
creators_name: Luque López, Antonio
title: Predicted photoreflectance signatures on QD selective contacts for hot carrier solar cells
ispublished: pub
subjects: renovables
subjects: electronica
abstract: The CO2 emission of our present energy transformation processes, based mainly on burning fossil fuels, is possibly the main cause of global climatic change. The photovoltaic conversion of solar energy is a clean way of producing which for sustainability should (and most probably will) become a major source of electricity. The sun is a huge resource but relatively diluted and it is reasonable to expect that only high efficiency extraction can be cost effective for mass exploitation. New concepts are neccessary such as hot carrier solar cells.
date: 2008
date_type: published
publisher: Standford University
official_url: http://gcep.stanford.edu/events/symposium2008/index.html
full_text_status: public
pres_type: poster
place_of_pub: EEUU
event_title: GCEP Research Symposium 2008
event_location: Standford, USA
event_dates: 01/10/2008-03/10/2008
event_type: conference
institution: Telecomunicacion
department: Electronica2
refereed: TRUE
book_title: Proceedings of GCEP Research Symposium 2008
rights: by-nc-nd
citation:   Cánovas Díaz, Enrique and Martí Vega, Antonio and García-Linares Fontes, Pablo and Antolín Fernández, Elisa and Fuertes Marrón, David and Tablero Crespo, César and Luque López, Antonio  (2008).  Predicted photoreflectance signatures on QD selective contacts for hot carrier solar cells.  In: "GCEP Research Symposium 2008", 01/10/2008-03/10/2008, Standford, USA.    
document_url: https://oa.upm.es/4405/2/INVE_MEM_2008_60294.pdf