Transcript – Theory-Guided Design and Development of Metal-Organic Frameworks for Solar Energy Conversion
Our project is focused on serious candidate design and development of metal organic frameworks for solar energy conversion. This collaborative effort from Professor Cagin, Professor Sharon Chen and Professor Zhou from College of Engineering and the College of Science. Organic Framework is an idea tunable platform with numerous advances in basic science and the technology applications. The goal of this project is to take advantage of my platform to design effective for the catalyst for so conversion. The research has progressed in three streams. Design of Morfe for potential for the catalysts. Second, computation guided electronic structure engineering and a third assembly of Mars based diacetyl systems below. We highlighted three important achievements supported by the City Street Grant. First, we demonstrate continuous variation of Lárus dimensions and pauses in metal. Organic frameworks can be achieved by homogeneously incorporating linkers with different dimensions and various ratios into a framework. Second, we have also demonstrated fluorescence enhancement in the solid state can be achieved by isolating Parolin force in metal organic frameworks. Finally, organic clinkers are commonly used in multis. I hear you correctly explore another class of one demetrious which may serve as potential inorganic clinkers. Namely, this opens up avenues to experimental realizations in the future. This research has led to two published the papers and another two currently under review. This project has involved three graduate students and one undergraduate student. We have submitted several proposals in white papers to various employment agencies. We will continue to seek full funding support for external climate initiatives in the coming year.