Obiettivo The field of quantum dots (QDs) is one of the major growth areas in interdisciplinary field of physics, materials, chemistry, and engineering for the exploration of fundamental physical properties and potential/new functionalities. This will serve as a basis for creation of unique applications such as new display/lighting, photovoltaic device, TFTs and image sensors. However, there are serious impediments to the device performance such as high efficiency and longer life time due to the lack of understanding in charge transport and light-matter interaction mechanism in QD networks. Therefore, the proposed work is a comprehensive and fundamental understanding of underlying physics for charge transport in i) a single QD and surface, ii) QD/QD, iii) QD/interface/matrix, iv) QD/layer and /electrode, and v) bulk QD network systems and the creation of any real devices with new functionality. Enormous opportunities will arise from many unanswered questions of general nature/fundamental physical aspects of QDs related to charge transport that have still to be addressed. Thus, we will highlight and focus on strongly linked key themes and challenges that are at the heart of our proposed work. The main emphasis of proposed work will be on the understanding and control of charge transport dynamics in various QD systems, even though we explore the development of meaningful technologies and new devices based on QDs in the proposal. Our most intriguing issue is to expand the basic understanding of QDs for their potential applications. We will study interface dipole design/control, computational engineering for charge transport, analysis of the above five subsets, and will realise them into a full system with QD networks. Another challenge lies in integrating new QD materials with flexible/large-area substrates by monolayer-level control. We also propose the development of new synthetic routes for QDs with stable surface for supporting the above charge transport. This work will be underpinning research aimed at the development of the charge transport based QD devices with high efficiency and longer lifetime. These provide enormous opportunities to enable us not only to broaden and deepen our knowledge/experience in this area, but also to make rational predictions and open new device/system concepts unique to QD networks. Campo scientifico engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors Programma(i) FP7-IDEAS-ERC - Specific programme: "Ideas" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013) Argomento(i) ERC-AG-PE7 - ERC Advanced Grant - Systems and communication engineering Invito a presentare proposte ERC-2013-ADG Vedi altri progetti per questo bando Meccanismo di finanziamento ERC-AG - ERC Advanced Grant Istituzione ospitante THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE Contributo UE € 290 961,00 Indirizzo TRINITY LANE THE OLD SCHOOLS CB2 1TN Cambridge Regno Unito Mostra sulla mappa Regione East of England East Anglia Cambridgeshire CC Tipo di attività Higher or Secondary Education Establishments Contatto amministrativo Renata Schaeffer (Ms.) Ricercatore principale Jong Min Kim (Prof.) Collegamenti Contatta l’organizzazione Opens in new window Sito web Opens in new window Costo totale Nessun dato Beneficiari (2) Classifica in ordine alfabetico Classifica per Contributo UE Espandi tutto Riduci tutto THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE Regno Unito Contributo UE € 290 961,00 Indirizzo TRINITY LANE THE OLD SCHOOLS CB2 1TN Cambridge Mostra sulla mappa Regione East of England East Anglia Cambridgeshire CC Tipo di attività Higher or Secondary Education Establishments Contatto amministrativo Renata Schaeffer (Ms.) Ricercatore principale Jong Min Kim (Prof.) Collegamenti Contatta l’organizzazione Opens in new window Sito web Opens in new window Costo totale Nessun dato THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD Regno Unito Contributo UE € 2 163 689,00 Indirizzo WELLINGTON SQUARE UNIVERSITY OFFICES OX1 2JD Oxford Mostra sulla mappa Regione South East (England) Berkshire, Buckinghamshire and Oxfordshire Oxfordshire Tipo di attività Higher or Secondary Education Establishments Contatto amministrativo Gill Wells (Ms.) Collegamenti Contatta l’organizzazione Opens in new window Sito web Opens in new window Costo totale Nessun dato