Add to ORKGNanowire (NW) Photovoltaics are a promising route for low-cost multi-bandgap tandem cells, which is taxing in terms of processing and lattice matching in traditional planar geometries.[1] III-V nanowires are more suitable for monolithic integration as they can assimilate the lattice mismatch to a larger extent.[2] GaAsP is a material that offers a wide tunability of the band gap from near infrared (Eg = 1.42 eV) to visible regions (Eg = 2.3 eV) and is one of the best-suited materials for growth on silicon.[3]Controlled synthesis of GaAs(1-x)P(x) NWs with a bandgap ranging from 1.42 to 1.90 eV (at 300K) through the scalable Aerotaxy [4] technique has already been reported.[5]The present work concerns doping of GaAsP NWs by controlling precur...
In this project MBE growth and microfabrication processes are employed to study the growth and chara...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
In this thesis, in situ doping during growth of III-V semiconductor nanowires, primarily for photovo...
We have grown GaAsP nanowires with high optical and structural quality by Aerotaxy, a new continuous...
Photovoltaics (PVs) based on nanostructured III/V semiconductors can potentially reduce the material...
Photovoltaics (PVs) based on nanostructured III/V semiconductors can potentially reduce the material...
Controlled doping in semiconductor nanowires modifies their electrical and optical properties, which...
Controlled doping in semiconductor nanowires modifies their electrical and optical properties, which...
2014-11-05This dissertation covers the growth, characterization of GaAs nanowires and application in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
We realize the growth of self-catalyzed core−shell GaAs/GaAsP nanowires (NWs) on Si substrates using...
In this project MBE growth and microfabrication processes are employed to study the growth and chara...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
In this project MBE growth and microfabrication processes are employed to study the growth and chara...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
In this thesis, in situ doping during growth of III-V semiconductor nanowires, primarily for photovo...
We have grown GaAsP nanowires with high optical and structural quality by Aerotaxy, a new continuous...
Photovoltaics (PVs) based on nanostructured III/V semiconductors can potentially reduce the material...
Photovoltaics (PVs) based on nanostructured III/V semiconductors can potentially reduce the material...
Controlled doping in semiconductor nanowires modifies their electrical and optical properties, which...
Controlled doping in semiconductor nanowires modifies their electrical and optical properties, which...
2014-11-05This dissertation covers the growth, characterization of GaAs nanowires and application in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
We realize the growth of self-catalyzed core−shell GaAs/GaAsP nanowires (NWs) on Si substrates using...
In this project MBE growth and microfabrication processes are employed to study the growth and chara...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
In this project MBE growth and microfabrication processes are employed to study the growth and chara...
International audienceWe grow and characterize solar cells based on Gacatalyzed GaAs NWs radial p-in...
In this thesis, in situ doping during growth of III-V semiconductor nanowires, primarily for photovo...