My research interest are focused on the field of nanofabrication, photonics and plasmonic systems. We are working on applications within renewable energy, energy transition and sensing techonolgies. 

Two of our key research interests today are:
- Improve the "standard" silicon solar cell using tailored plasmonic systems to increase their conversion efficicency.
- Development of a quantum diamond microscope for imaging- and ultrasenitive sensing applications.

 

Nano161 - Introduction to nanotechnology and intstrumentation

Energi210 - Energy physics and technology

SDG207 - Energy transition

PHYS101 - Basic Course in Mechanics and Thermodynamics

Academic article

• Sabrina Daniela Eder; Xiaodong Guo; Thomas Kaltenbacher et al. (2015). Focusing of a neutral helium beam with a photon-sieve structure. (external link)
• Sabrina Daniela Eder; Thomas Reisinger; Martin Møller Greve et al. (2012). Focusing of a neutral Helium beam below one micron. (external link)
• Sabrina Daniela Eder; Ranveig Flatabø; Anders K Ravn et al. (2018). Fast resolution change in neutral helium atom microscopy. (external link)
• Spiros Kotopoulis; Sabrina Daniela Eder; Martin Møller Greve et al. (2013). Lab-on-a-chip device for fabrication of therapeutic microbubbles on demand. (external link)
• Lars Egil Helseth; Martin Møller Greve (2023). Wetting of porous thin films exhibiting large contact angles. (external link)
• Martin Møller Greve; Bodil Holst (2013). Optimization of an electron beam lithography instrument for fast, large area writing at 10 kV acceleration voltage. (external link)
• Ranveig Flatabø; Akshay Agarwal; Richard Hobbs et al. (2018). Exploring proximity effects and large depth of field in helium ion beam lithography: large-area dense patterns and tilted surface exposure. (external link)
• John Benjamin Lothe; Mali Husby Rosnes; Anna Dorota Kosinska et al. (2025). Synthesizing aluminum nanoparticles using DC diode sputtering and gas aggregation cluster source. (external link)
• Thomas Reisinger; Sabrina Daniela Eder; Martin Møller Greve et al. (2010). Free-standing silicon-nitride zoneplates for neutral-helium microscopy. (external link)
• Håvard Stavn Ugulen; Ranveig Flatabø; Mansoor A. Sultan et al. (2022). Experimental and theoretical investigation of waveguided plasmonic surface lattice resonances. (external link)
• Jon Olav Grepstad; Martin Møller Greve; Thomas Reisinger et al. (2013). Nanostructuring of free-standing, dielectric membranes using electron-beam lithography. (external link)
• Martin Møller Greve; Das Bijoy; Issac Ibrahim et al. (2020). Electric‐Potential‐Induced Complete Control of Magnetization in MnZnSb Metallic Ferromagnets. (external link)
• Justas Zalieckas; Ivan Rios Mondragon; Paulius Pobedinskas et al. (2022). Polycrystalline diamond coating on orthopedic implants: Realization and role of surface topology and chemistry in adsorption of proteins and cell proliferation. (external link)
• Ranveig Flatabø; Martin Møller Greve; Sabrina Daniela Eder et al. (2017). Atom sieve for nanometer resolution neutral helium microscopy. (external link)
• Martin Møller Greve; Thomas Odijk Håvardstun; Bodil Holst (2013). Measuring the localized surface plasmon resonance effect on large arrays (5 mm × 5 mm) of gold and aluminum nanoparticles on borosilicate glass substrates, fabricated by electron beam lithography. (external link)
• Sol Johanne Xiang Helleseth Mehammer; Martin Møller Greve; Pawel Jan Kosinski et al. (2024). Investigation of Erosion and Deposition Due to Flows with Particles. (external link)
• Henock Demessie Yallew; Jana Jágerská; Martin Møller Greve (2022). Long, stitch-free slot waveguide with s-bend tapered couplers for IR-sensing applications using electron beam lithography. (external link)
• Martin Møller Greve; Alexandre Vial; Jakob J. Stamnes et al. (2013). The Beynon Gabor zone plate: a new tool for de Broglie matter waves and hard X-rays? An off axis and focus intensity investigation. (external link)
• Justas Zalieckas; Martin Møller Greve; Luca Bellucci et al. (2024). Quantum sensing of microRNAs with nitrogen-vacancy centers in diamond. (external link)
• Jon Olav Grepstad; Martin Møller Greve; Bodil Holst et al. (2013). Finite-size limitations on quality factor of guided resonance modes in 2D photonic crystals. (external link)
• Vårin Renate Andvik Holm; B. Y Zheng; Philip Denby et al. (2018). Work Function-Driven Hot Electron Extraction in a Bimetallic Plasmonic MIM Device. (external link)
• Mirjam Dyrhovden Fjell; John Benjamin Lothe; Naomi J. Halas et al. (2024). Enhancing Silicon Solar Cell Performance Using a Thin-Film-like Aluminum Nanoparticle Surface Layer. (external link)
• Thomas Reisinger; Martin Møller Greve; Sabrina Daniela Eder et al. (2012). Brightness and virtual source size of a supersonic deuterium beam. (external link)
• Justas Zalieckas; P. Pobedinskas; Martin Møller Greve et al. (2021). Large area microwave plasma CVD of diamond using composite right/left-handed materials. (external link)
• Vårin Renate Andvik Holm; Martin Møller Greve; Bodil Holst (2016). Temperature induced color change in gold nanoparticle arrays: Investigating the annealing effect on the localized surface plasmon resonance. (external link)
• Ranveig Flatabø; Antoine Coste; Martin Møller Greve (2016). A systematic investigation of the charging effect in scanning electron microscopy for metal nanostructures on insulating substrates. (external link)
• Vårin Renate Andvik Holm; Martin Møller Greve; Bodil Holst (2017). A theoretical investigation of the optical properties of metal nanoparticles in water for photo thermal conversion enhancement. (external link)
• Nikolai Frøvik; Martin Møller Greve; Lars Egil Helseth (2019). Nanostructures and wetting properties controlled by reactive ion etching of fluorinated ethylene propylene. (external link)
• Ranveig Flatabø; Vårin Renate Andvik Holm; Håkon Eidsvåg et al. (2017). Light absorption and scattering of 40-170 nm gold nanoparticles on glass substrates. (external link)
• Paul Thomas; Bichitra Nanda Sahoo; Peter James Thomas et al. (2024). Recent advances in emerging integrated anticorrosion and antifouling nanomaterial-based coating solutions. (external link)

Lecture

• Martin Møller Greve (2017). Nanotechnology for harvesting solar energy. (external link)
• Martin Møller Greve (2021). Forbedret solcelleeffektivitet med nanobasert anti-refleksjonsbelegg. (external link)
• Martin Møller Greve (2024). Biosfæredagen - Grøn omstilling: energibehov, arealpress og natur i Nordhordland. (external link)
• Martin Møller Greve (2021). Nanotechnology for increased solar cell efficiencies. (external link)
• Martin Møller Greve (2020). Life-cycle cost analysis for silicon solar cells. (external link)
• Martin Møller Greve (2019). Work function driven hot electron extraction from metallic nanowires. (external link)
• John Benjamin Lothe; Martin Møller Greve; Mali Husby Rosnes et al. (2025). A novel way of synthesizing particles - Aluminum nanoparticles (AlNPs). (external link)
• Martin Møller Greve (2022). Nanoteknologi for fremtiden og klima. (external link)
• Martin Møller Greve (2022). Økt solcelleeffektivitet med nanobasert anti-refleksjonsbelegg. (external link)
• Leander Jacob Nielsen Eikås; Frank Øvstetun; Martin Møller Greve (2023). AI – Sitep/UiB/Norsun - Kva – korleis - kvifor. (external link)
• Martin Møller Greve; Justas Zalieckas (2019). Quantum sensors in diamond for magnetic field sensing. (external link)

Conference poster

• Martin Møller Greve; Ranveig Flatabø; Karl K Berggren et al. (2018). Atom sieve for nanometer resolution neutral helium microscopy. (external link)
• Vårin Renate Andvik Holm; Martin Møller Greve; Bodil Holst (2015). Blue to red observation of a reversed color change in an array of gold nano particles; a systematic investigation.. (external link)
• Jon Olav Grepstad; Martin Møller Greve; Thomas Reisinger et al. (2013). Advances on e-beam fabrication of photonic crystal membranes. (external link)
• John Benjamin Lothe; Mirjam Dyrhovden Fjell; Mali Husby Rosnes et al. (2022). Enhancing silicon solar cell performance using aluminum nanoparticles. (external link)
• Mirjam Dyrhovden Fjell; Bodil Holst; Mali Husby Rosnes et al. (2021). Enhancing Solar Cell Efficiency Using Nanotechnology. (external link)
• Vårin Renate Andvik Holm; Ranveig Flatabø; Martin Møller Greve et al. (2014). An all metal solar cell. (external link)
• Håvard Stavn Ugulen; Martin Møller Greve; Ranveig Flatabø et al. (2017). Metal nanoparticles fabricated on a waveguide – sensing with white light. (external link)
• Vårin Renate Andvik Holm; Martin Møller Greve; Bodil Holst (2016). Investigating the cause of a color change in annealed gold nano particle arrays. (external link)
• Martin Møller Greve; Sabrina Daniela Eder; Ranveig Flatabø et al. (2019). Nanostructured optical elements for neutral helium microscopy. (external link)
• Vårin Renate Andvik Holm; Ranveig Flatabø; Martin Møller Greve et al. (2014). University of Bergen Nano Physics Group Selected Activities. (external link)
• Martin Møller Greve; Vårin Renate Andvik Holm; Ranveig Flatabø et al. (2017). A study of light absorbance of gold metal nanoparticles in the size range 45 to 200 nm fabricated using e-beam lithography. (external link)
• Martin Møller Greve; Håvard Stavn Ugulen; Ranveig Flatabø et al. (2018). Metal nanoparticles fabricated on a waveguide – sensing with white light. (external link)
• Martin Møller Greve; Philip Denby; Bodil Holst (2013). Mm2 size arrays of metal nano-particles for solar cell applications fabricated by Electron Beam Lithography (EBL). (external link)
• Ranveig Flatabø; Bodil Holst; Martin Møller Greve (2016). Measurement error in metal nanostructures on insulating substrates induced by electron beam irradiation. (external link)

Conference lecture

• Jon Olav Grepstad; Martin Møller Greve; Ib-Rune Johansen et al. (2014). Photonic crystals designed for optical biosensing, applied to detect single nano-particles. (external link)
• Martin Møller Greve (2022). Enhanced solar cell efficiencies using plasmonic nanostructures. (external link)
• Martin Møller Greve; Thomas Odijk Håvardstun; Bodil Holst (2013). Testing optical properties of metal nano-particles in large arrays for PV cell applications, fabricated by Electron Beam Lithography (EBL). (external link)
• Martin Møller Greve (2015). Nanostructures for tuning of optical properties: Light and matter wave applications. (external link)
• Ranveig Flatabø; Martin Møller Greve; Bodil Holst et al. (2017). Large area scanning helium ion beam lithography. (external link)
• Ranveig Flatabø; Bodil Holst; Martin Møller Greve (2015). Charging effects in metal nanoparticles on insulating substrates. (external link)
• Martin Møller Greve; Henock Demessie Yallew; Jana Jagerska (2022). Long, stitch-free slotted waveguides for IR-sensing applications using e-beam lithography. (external link)
• Jon Olav Grepstad; Martin Møller Greve; Bodil Holst et al. (2014). Finite-size limitations on the strength of guided resonances in 2D photonic crystals. (external link)
• Martin Møller Greve (2021). Boosting solar cell efficiencies using plasmonic nanostructures. (external link)
• Martin Møller Greve (2014). Nanostructures for the manipulation of light and matter waves. (external link)
• Martin Møller Greve; Bodil Holst (2013). Optimization of an electron beam lithography instrument for fast large area writing at "low" voltage. (external link)
• Martin Møller Greve (2025). Plasmonic nanostructures for increased light incoupling in silicon solar cells. (external link)
• Ranveig Flatabø; Martin Møller Greve; Karl K Berggren et al. (2017). Atom sieve for nanometer resolution neutral helium microscopy. (external link)
• Martin Møller Greve; Vårin Renate Andvik Holm; Bob Y. Zheng et al. (2016). Investigating the impact on hot electron emission from LSPR in gold nanostructures for varying dielectric separator thickness. (external link)
• John Benjamin Lothe; Mirjam Dyrhovden Fjell; Mali Husby Rosnes et al. (2022). Enhancing silicon solar cell performance using aluminum nanoparticles. (external link)
• Martin Møller Greve; Justas Zalieckas; Bodil Holst (2019). Wide-field microscopy for magnetic field imaging using nitrogen vacancies in diamond. (external link)
• Ranveig Flatabø; Martin Møller Greve; Bodil Holst (2017). Helium ion beam lithography. (external link)

Academic literature review

• Johannes Fiedler; Kristian Berland; James Borchert et al. (2022). Perspectives on weak interactions in complex materials at different length scales. (external link)
• Bichitra Nanda Sahoo; Peter James Thomas; Paul Thomas et al. (2025). Antibiofouling Coatings For Marine Sensors: Progress and Perspectives on Materials, Methods, Impacts, and Field Trial Studies. (external link)

Master’s thesis

• Martin Møller Greve; Sti Olve (2021). Building a Combined Brightfield and Confocal Quantum Diamond Microscope for Imaging of Magnetic Samples. (external link)
• Bodil Holst; Håkon Eidsvåg; Martin Møller Greve et al. (2016). A Solar Absorber Based on Metal Nanoparticles. (external link)
• Nikolai Frøvik; Martin Møller Greve; Lars Egil Helseth (2017). Altering the wetting properties of FEP films by nano-structuring the surface using reactive ion etching. (external link)
• Leander Jacob Nielsen Eikås; Martin Møller Greve; Nello Blaser et al. (2024). Machine learning for early detection of structure loss in the Czochralski process. (external link)
• Martin Møller Greve; Lars Egil Helseth; Yana Vaynzof et al. (2020). Modelling and Optimization of the Performance of Droplet based electrostatic Energy Harvester. (external link)
• Espen Selfors; Martin Møller Greve; Bodil Holst (2017). Fabrication of large free-standing nanostructured zone plates for focusing a Bose-Einstein condensate. (external link)
• Torbjørn Egeland-Eriksen; Bodil Holst; Martin Møller Greve (2018). Simulations of the Effect of Integrated Metal Nanoparticles on the Optical Absorptance of Perovskite Photovoltaic Solar Cells. (external link)
• Adrià Salvador Palau; Bodil Holst; Gianangelo Bracco et al. (2015). Time of Flight Modelling and Direct Monte Carlo Simulations for a Neutral Helium Microscope. (external link)
• Martin Møller Greve; Alfred Bakkebø (2022). An investigation and optimization of bifacial solar cells for Norwegian solar conditions. (external link)
• Hansen Athina; Martin Møller Greve (2025). Diamond-based anti-reflective coatings for solar cells. (external link)
• Nello Blaser; Audun Ljone Henriksen; Martin Møller Greve (2023). Learning Acquisition Functions for Cost-aware Bayesian Optimization. (external link)
• Mona Heng; Pawel Jan Kosinski; Martin Møller Greve (2024). Evaluation of structural dynamic response of piping subjected to multiphase flow-induced vibration. (external link)
• Sverre Magnus Engø; Martin Møller Greve (2022). IR transmission optimization for Cadmium Telluride. (external link)
• Mirjam Dyrhovden Fjell; Bodil Holst; Martin Møller Greve (2020). An investigation of the optical properties of metal nanoparticles for the application in a diffuse light solar cell. (external link)
• Martin Møller Greve; Lorentz Tvedt Syslak; Morten Førre et al. (2024). Nanofabrication and simulation of nanogratings for geometric induced doping in photovoltaic application. (external link)
• Bolstad Marius; Martin Møller Greve; Hansen Jan Petter (2025). Design, fabrication and characterization of gold nanorods for laser-induced fusion. (external link)
• Håvard Stavn Ugulen; Martin Møller Greve; Ranveig Flatabø et al. (2018). Optical Properties of Gold Nanoparticle Arrays Fabricated on a Waveguide Material. (external link)
• To Minh Chi; Martin Møller Greve (2021). Enhancing Light In-Coupling for Thin-Film Solar Cells Using Plasmonic Nanostructures. (external link)
• Martin Møller Greve; Bodil Holst (2010). Testing nano-structured Fresnel zoneplates for neutral helium microscopy on a molecular-beam ultra-high-vacuum apparatus. (external link)
• Thomas Odijk Håvardstun; Bodil Holst; Martin Møller Greve (2013). Optical Properties of Metal Nanoparticle Arrays created using Electron Beam Lithography. (external link)
• Bodil Holst; Ranveig Flatabø; Martin Møller Greve (2014). Optical Properties of Metal Nanoparticle Arrays Created using Electron Beam Lithography for Solar Cell Application. (external link)
• Kanthee Kosolyuthasarn; Martin Møller Greve (2022). Fabrication of nanostructured free-standing Fresnel zone plate for neutral matter-waves microscopy. (external link)

Doctoral thesis (PhD)

• Vårin Renate Andvik Holm; Bodil Holst; Martin Møller Greve (2018). Nanostructured Materials for Solar Energy Applications. (external link)
• Ranveig Flatabø; Bodil Holst; Martin Møller Greve (2018). Charged Particle Lithography for the Fabrication of Nanostructured Optical Elements. (external link)
• Martin Møller Greve (2013). Nanostructuring for the manipulation of electromagnetice waves. (external link)

Media interview

• Konrad Tywoniuk; Jan Petter Hansen; Martin Møller Greve et al. (2025). 2025: Kvantefysikkens år. (external link)
• Martin Møller Greve (2021). Alle snakkar om klimakrisa. Dette er forskarar som gjer noko med den.. (external link)
• Martin Møller Greve; Mathilde Moe Kaupang (2021). Så lang tid tar det før solcellene på taket ditt blir lønnsomme. (external link)

See a complete overview of publications in Cristin.