Recently, many efforts have been undertaken to study the optical emission mechanisms of low-dimensional Si nanostructures. Many techniques and methods have been developed to grow silicon nanoclusters embedded in silicon nitride matrices. However, the formation of silicon nanoclusters must be grown or post-annealed at a high temperature to precipitate the silicon nanoclusters. The high temperature process degrades the optical and electronic performance of the resultant devices. A laser-assisted plasma enhanced chemical vapor deposition (LAPECVD) method has been used to deposit silicon nanoclusters embedded in silicon nitride matrices at a low temperature and without a post thermal annealing process. The feasibility of electroluminescence emission from these lightemitting devices was demonstrated.