BIAS
Funder: London Mathematical Society
Duration: February 2023 - March 2003
Research in pair
Funder: London Mathematical Society
Duration: February 2023 - July 2023
Funder: Engineering & Physical Sciences Research Council
Duration: January 2023 - December 2025
Funder: Economic & Social Research Council
Duration: September 2022 - September 2025
Funder: Economic and Social Research Council
Duration: September 2022 - August 2005
Funder: Arts and Humanities Research Council (AHRC)
Duration: February 2022 - February 2023
Funder: Natural Environment Research Council
Duration: October 2021 - May 2022
Funder: Natural Environment Research Council
Duration: January 2021 - July 2024
Funder: Innovate UK
Duration: January 2021 - June 2021
Funder: Arts and Humanities Research Council (AHRC)
Duration: December 2020 - May 2022
Funder: Natural Environment Research Council
Duration: November 2020 - October 2022
Funder: Natural Environment Research Council
Duration: September 2020 - September 2021
Funder: Arts and Humanities Research Council (AHRC)
Duration: February 2020 - July 2022
Funder: European Regional Development Fund (ERDF) / Greater London Authority (GLA)
Duration: October 2019 - March 2023
Funder: European Regional Development Fund (ERDF) / Greater London Authority (GLA)
Duration: October 2019 - June 2023
Funder: Engineering and Physical Sciences Research Council (EPSRC)
Duration: July 2019 - June 2022
Funder: Office for National Statistics (ONS)
Duration: April 2019 - March 2020
Funder: The UK Office for National Statistics (ONS)
Duration: April 2019 - March 2020
Funder: TWI Ltd
Duration: March 2019 - March 2022
Funder: Economic & Social Research Council
Duration: November 2018 - May 2020
Funder: Arts and Humanities Research Council (AHRC)
Duration: October 2018 - March 2023
Funder: Innovate UK
Duration: October 2018 - March 2019
Funder: Arts and Humanities Research Council (AHRC)
Duration: September 2018 - August 2021
Funder: IEHS
Duration: August 2018 - February 2019
Assessing the bioreactive fraction of the thislte in DNA damage repair and ageing
Funder: Alvant Ltd
Duration: August 2018 - February 2019
Funder: Fondazione Minoprio
Duration: June 2018 - July 2018
Funder: National Structural Integrity Research Centre
Duration: January 2018 - January 2021
Funder: Science and Technology Facilities Council (STFC)
Duration: November 2017 - May 2019
Funder: National Structural Integrity Research Centre
Duration: October 2017 - September 2020
Funder: University of Oxford
Duration: October 2017 - September 2023
Funder: Biotechnology & Biological Sciences Research Council
Duration: September 2017 - August 2019
Funder: InnovateUK
Duration: April 2017 - March 2020
High efficiency solid state lighting (SSL), in the form of LEDs, is becoming the main light source for general lighting. Unfortunately LEDs cannot operate at high power without loss of efficiency, a problem which does not affect laser diode light sources. Algae growth and horticulture are areas where maximal efficiency with an optimal light spectrum is critical to achieving the lowest running costs. Laser diodes, correctly heat managed and integrated with spectrum selected, low cost phosphors capable of handling high light intensities, and integrated optics for channelling and spreading the light, offer a means of developing next generation light sources for plant growth. The project will integrate the technology components, including laser diode sources, their power supplies and heat management, new phosphor materials, designs for optical light guides and light spreading including the phosphors and their heat management, along with production techniques and integrate them into systems for submersible, full volume algae growth and area illumination plant horticulture. The prototypes will be installed and monitored in test sites for algae growth for waste water treatment and plant growth in an indoor farm.