Defect analysis of phosphorus doped silicon quantum dots by electron spin resonance

Bethany Kanten, Kory Riskey, Lance Wheeler & C. Taylor
Perfectly crystalline silicon with a dopant provides free carriers in solar materials. The crystalline structure of the lattice provides an ideal semiconductor. Quantum dots have a better ability to collect electrical current than amorphous silicon. Defects in silicon are defined as places where the crystalline lattice is not perfect such as a dangling bond. Electron Spin Resonance can be used to understand defects and discover the defect concentration of various silicon structures to determine their...
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