PP2 Organic and Earth-Abundant Inorganic Thin-Film Cells

Program Package 2 involves collaborative research into a range of organic and inorganic thin-film solar cell technologies with the overall goal of demonstrating efficiency above 16% (raised from 15% in late 2015) during the program for cells of above 1cm2 area and of demonstrating the feasibility of costs below the SunShot targets. In late 2015 ACAP undertook to expand its thin film activities into a stronger focus on perovskites, an exciting "new" photovoltaic material.

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Chief Investigators: Yi-Bing Cheng
Overview: We aim to:
Chief Investigators: Gavin Conibeer
Overview: Third generation photovoltaics describes the development of materials that can be used to engineer performance by manipulating the bandgap, phonon response or light-trapping properties of the absor
Chief Investigators: Shujuan Huang
Overview: This project is developing models of phonon dynamics, electron-phonon interaction and efficiency models to be fully consistent and predictive of real material systems.
Chief Investigators: Santosh Shrestha
Overview: This projects\'s aims are to:
Chief Investigators: Shujuan Huang
Overview: Investigate hot carrier (HC) absorber using nanostructures.
Chief Investigators: Santosh Shrestha; Shujuan Huang; Gavin Conibeer
Overview: Aims of this project are:
Chief Investigators: Santosh Shrestha; Shujuan Huang
Overview: This project aims to develop electrically coupled devices of slowed carrier cooling absorber with energy selective contacts.
Chief Investigators: Ivan Perez-Wurfl; Gavin Conibeer
Overview: The focus of our research activities during this period has been on characterisation and modelling to be applied to silicon quantum dot (QD) materials and solar cells.
Chief Investigators: Ivan Perez-Wurfl, Gavin Conibeer
Overview: The project will develop vertical device structures through investigation of conducting transparent layers for bottom contacts.
Chief Investigators: Ivan Perez-Wurfl, Prof Gavin Conibeer
Overview: The aim of this activity is to complete the modelling of absorption in silicon quantum dots (QDs) and to improve our understanding of absorption and the origin of photovoltage in order to optimise

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