Amorphous silicon quantum dots (a-Si QDs) were grown in a silicon nitride f
ilm by plasma enhanced chemical vapor deposition. Transmission electron mic
rographs clearly demonstrated that tr-Si QDs were formed in the silicon nit
ride. Photoluminescence and optical absorption energy measurement of cl-Si
QDs with various sizes revealed that tuning of the photoluminescence emissi
on from 2.0 to 2.76 eV is possible by controlling the size of the tr-Si QD.
Analysis also showed that the photoluminescence peak energy E was related
to the size of the a-Si QD, a (nm) by E(eV) = 1.56 + 2.40/a(2). which is a
clear evidence for the quantum confinement effect in a-Si QDs.