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I am working on solar materials for PV modeling and efficiency analysis and publishing in reputed journal as Optik, Renewable and Sustainable Energy Review, Nano-energy, Optical Materials, International Journal of Energy Research, etc. I would like to continue my research on advancement of efficiency as materials scientist or materials Engineer for PV. Then solar radiation, environment related data analysis as well as practical installation related system design and related consulting work I prefer to perform in near future. At the beginning of my professional life I was in engineering and research field jobs. Later on, I move to teaching and research job after completion of my PhD in materials for advanced opto-electronics in Japan. Especially optical detectors and solar PV materials for device modelling and analysis is my research area. Intergovernmental Panel on Climate Change (IPCC) claims the highest carbon intensity due to the 40% of world total greenhouse gas (GHG) emission from electricity is an upmost factor. International Energy Agency (IEA) has set net zero emission (NZE) targets by 2050. Emission reduction is essential to avoid environmental catastrophic effect. Hence, low carbon electricity is imperative to meet up IEA target and to overcome the IPCC claims. Very recent COP-26 the continue discussion on environment protection the only solution is finally adapted that is massive application of renewable energies for electricity. As a result, the renewable energy generation from clean source especially massive solar PV is must. My research in scientific conception is in the area of nano-materials technological applications through transformative materials science for electronic and opto-electronic device. It is mostly related to the methodology for investigation of light-matter interaction related fundamental properties of diverse nanostructures optoelectronic materials. It is a combination of materials and structures for next generation photovoltaic cells applications. Efficiency or performance evolution is the main drive to any electronic and optoelectronic energy materials and related devices for industrial diligence. Devices energy efficiency or performance advancement by lowering device processing and materials cost is a vital approach. It can lessen the levelized cost of energy (LCOE) as a result, massive renewable energy implementation will be credible towards low carbon society and environment development. Therefore, materials and device architecture related energy efficiency I know well. Based on background knowledge, how environmental and geographical data, PV systems and other technical data analysis on PV could be effective for a materials and system design engineer in PV industry that is my target job. I am trying to move on that pathway. I want to relocate with new job in this field.