Add to ORKGLithium-doped solar cells have been fabricated with initial lot efficiencies averaging 11.9 percent in an air mass zero (AMO) solar simulator and a maximum observed efficiency of 12.8 percent. The best lithium-doped solar cells are approximately 15 percent higher in maximum power than state-of-the-art n-p cells after moderate to high fluences of 1-MeV electrons and after 6-7 months exposure to low flux irradiation by a Sr-90 beta source, which approximates the electron spectrum and flux associated with near Earth space. Furthermore, lithium-doped cells were found to degrade at a rate only one tenth that of state-of-the-art n-p cells under 28-MeV electron irradiation. Excellent progress has been made in quantitative predictions of post-irrad...
Lithium donor density gradient measurements for prediction of lithium cell behavior after electron i...
Lithium doped silicon solar cells having dimensions as large as 12 sq cm are now possible, due to si...
Boron doped silicon n+p solar cells were counterdoped with lithium by ion implanation and the result...
Lithium doped p-n solar cells meet the basic requirements for space use. The efficiencies of the Lop...
Diffusion process for lithium doping of solar cells, and electrical characteristics and radiation re...
Effects of radiation on efficiency of lithium doped solar cells in electrical space power syste
The results of an experimental evaluation of the real-time degradation characteristics of lithium-di...
Lithium doped silicon solar cells for improved radiation resistance to neutrons, protons, and electr...
Fabrication techniques to improve initial efficiency and radiation tolerance of radiation hardened l...
Several groups of lithium-doped solar cells have been evaluated under 1-MeV electron irradiation. Ma...
Evidence has been presented that a lithium-diffused crucible-grown silicon solar cell can be made wi...
Experimental determination of effects of near-space radiation on lithium-doped solar cell
Recovery properties of lithium containing p-n silicon solar cells after radiation damag
Effect of lithium on spontaneous annealing of radiation damage in silicon solar cell
Lithium action effects on spontaneous annealing of radiation damage in bulk silicon and silicon sola...
Lithium donor density gradient measurements for prediction of lithium cell behavior after electron i...
Lithium doped silicon solar cells having dimensions as large as 12 sq cm are now possible, due to si...
Boron doped silicon n+p solar cells were counterdoped with lithium by ion implanation and the result...
Lithium doped p-n solar cells meet the basic requirements for space use. The efficiencies of the Lop...
Diffusion process for lithium doping of solar cells, and electrical characteristics and radiation re...
Effects of radiation on efficiency of lithium doped solar cells in electrical space power syste
The results of an experimental evaluation of the real-time degradation characteristics of lithium-di...
Lithium doped silicon solar cells for improved radiation resistance to neutrons, protons, and electr...
Fabrication techniques to improve initial efficiency and radiation tolerance of radiation hardened l...
Several groups of lithium-doped solar cells have been evaluated under 1-MeV electron irradiation. Ma...
Evidence has been presented that a lithium-diffused crucible-grown silicon solar cell can be made wi...
Experimental determination of effects of near-space radiation on lithium-doped solar cell
Recovery properties of lithium containing p-n silicon solar cells after radiation damag
Effect of lithium on spontaneous annealing of radiation damage in silicon solar cell
Lithium action effects on spontaneous annealing of radiation damage in bulk silicon and silicon sola...
Lithium donor density gradient measurements for prediction of lithium cell behavior after electron i...
Lithium doped silicon solar cells having dimensions as large as 12 sq cm are now possible, due to si...
Boron doped silicon n+p solar cells were counterdoped with lithium by ion implanation and the result...