Using nanomaterials for improving conversion efficiency of solar cells. The group has discovered a nanomaterial-based light in-coupling approach for standard silicon-based solar cells promising more than 1% increase in conversion efficiency. The material development and experimental realization is currently ongoing.
Furthermore, Dr. Greve is part of the recently granted research project FUSENOW, led by the University of Tromsø. In this project Dr. Greve, together with the research team at UiB, is developing a new targets for laser-driven fusion. The aim of the project is to achieve improved laser-driven fusion with rapid and stable ignition of fusion fuel by using resonant plasmonic nano-antennas for
Together with Dr. Zalieckas, Dr. Greve is also doing research within the field of quantum sensing primarily through nitrogen vacancies in diamonds.
Dr. Greve is as part of the SFI-center Smart Ocean working on developing anti-biofouling surfaces for subsea transparent and non-transpartent surfaces.
For a full list of Martin's publications, click here (external link).