@Article{, title={Simulation of Optical Energy Gap for Synthesis Carbon Quantum Dot by Laser Ablation}, author={Noor Luay Hussein1 and Khawla Salah Khashan2 and Hadeel Majid Rasheed1 and Haider Yahaia Hammoud1 and Radd M. S. ALHaddad3}, journal={Iraqi Journal of Science المجلة العراقية للعلوم}, volume={}, number={(Special Issue) The Fourth Conference for Low Dimensional Materials and it's Applications - 2018}, pages={52 - 56}, year={2019}, abstract={Fluorescent Carbon Quantum Dots (CQDS) are a new kind of carbon nanoparticles that have appeared recently and have collected much interest as potential competitors to conventional semiconductor quantum dots (QDs). In addition to their comparable fluorescent properties, CQDs have the desired specifications of environmental friendliness, low toxicity, simple synthetic routes, low cost and surface passivation The functionalization of CQDS allow the control of their physicochemical properties. The main aim of this kind of researches is to account the variables that cannot be measured directly from practical experiments. Therefore, the work here is focused on the account energy gap of bulk (Eg bulk) by theoretically method (simulation) after taking other values that have been measured experimentally, so we can set an important database for these values which can be taking will be using form by researchers in this field in the future.

} }