Dr Prabhu Selvaraj

Pronouns: He/him
  • Research Associate in Advanced Building Facade Design

Background

Prabhu is currently a Research Associate at the Centre for Renewable Energy Systems Technology (CREST), º¬Ðß²ÝÊÓƵ, UK. He received his PhD degree (2019) in Renewable Energy Engineering from the University of Exeter, UK. He was awarded MSc (2014) and BSc (2012) in Physics from Bharathiar University, India.

Prior to joining º¬Ðß²ÝÊÓƵ, Prabhu was a post-doctoral researcher at the University of Exeter (February 2021- December 2022), involved in EPSRC-EUED, Advanced building façade design and ERDF-ESIF, Energy Independent Farming projects. After his PhD, Prabhu worked as an Energy Modelling Analyst at Pure World Energy Ltd, UK, where he developed site-specific CHP energy and financial models using electric and gas data gathered from site visits and performed carbon emission calculations using all the energy data from the existing fleet to develop generation forecast models.

Qualifications and awards

  • 2019 PhD in Renewable Energy (University of Exeter, UK)
  • 2014 MSc Physics (Bharathiar University, India)
  • 2012 BSc Physics (Bharathiar University, India)

Prabhu’s current work at CREST focuses on

  • Developing and testing new edge seal materials, and producing vacuum glazing prototypes, integrating with switchable elements, and experimentally characterise their performance
  • Undertaking experimental work, to build and characterise transpired inverted absorber CPCs based novel prototype façade components
  • Developing façade system component model, validation, and parametric analysis
  • Design and characterisation of small-scale thermochemical energy storage systems

Other Research Interests are in,

  • Building Integrated Photovoltaics
  • New Generation Solar Cells
  • Life Cycle Analysis
  • Energy Modelling

Selected publications

  1. Selvaraj, H. Baig, T.K. Mallick, J. Siviter, A. Montecucco, W. Li, M. Paul, T. Sweet, M. Gao, A.R. Knox, S. Sundaram, “Enhancing the efficiency of transparent dye-Sensitised solar cells using concentrated light” Sol. Energy Mater. Sol. Cells. 2018, 175, 29.
  2. Selvaraj, H. Baig, T.K. Mallick, S. Sundaram, “Charge transfer mechanics in transparent dye-Sensitised solar cells under Low concentration” Mater. Lett. 2018, 222, 78.
  3. Selvaraj, H. Baig, T.K. Mallick, J. Siviter, A. Montecucco, W. Li, M. Paul, T. Sweet, M. Gao, A.R. Knox, S. Sundaram, “Enhancing the efficiency of transparent dye-Sensitised solar cells using concentrated light” Sol. Energy Mater. Sol. Cells. 2018, 175, 29.
  4. Selvaraj, A. Ghosh, T.K. Mallick, S. Sundaram, “Investigation of semi- transparent DSSCs for fenestration integration” Renewable Energy. 2019, 141, 516-525.
  5. Ghosh, P. Selvaraj, S. Sundaram, T.K. Mallick, “The colour rendering index and correlated colour temperature of dye-sensitised solar cell for adaptive glazing application” Sol. Energy. 2018, 163, 537.
  6. Roy, A. Ghosh, S. Bhandari, Selvaraj, S. Sundaram, T.K. Mallick, “Color Comfort Evaluation of Dye-Sensitized Solar Cell (DSSC) Based Building-Integrated Photovoltaic (BIPV) Glazing after 2 Years of Ambient Exposure” J. Phys. Chem. C 2019, 123, 39.
  7. Wan, Y. Ho, S. Nunez-Sanchez, L. Chen, M. Lopez-Garcia, J. Pugh, B. Zhu, P. Selvaraj, T. Mallick, S. Senthilarasu, M.J. Cryan, “A selective metasurface absorber with an amorphous carbon interlayer for solar thermal applications” Nano Energy. 2016, 26, 392