Our research is mainly focused on quantum nano-structures. In our work we create a controlled system for room temperature quantum device operation. Our study is exploiting a novel developed "nano-toolbox" that includes nano dots and organic molecules that link the dots to the device. This methodology is expected to enable the use of quantum mechanics at room temperature, bringing about a new type of devices such as single photon detectors and emitters, light emitting diodes, IR sensors, solar cells, and photo-electrical devices. Moreover, this methodology is aimed at producing a generic technology for constructing nano-systems in which many devices are interconnected, operate in unison, and are coupled to their macroscopic environment without inhibiting their quantum nature. Finally, the suggested methodology has the potential to bring about room temperature non-binary quantum transistors, which can supply a realistic technological chassis for quantum computing.At present we have fully equipped and functioning lab, divided into four dedicated sections: the Transport and Optical laboratory, Magneto-Optical laboratory, Noise laboratory, and Wet Chemical assembly lab.