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Stable nitrogenous frameworks have emerged as a promising class of materials for catalyzing heterogeneous reactions in organic chemistry. Mohitosh Bhadra's research focuses on the design and synthesis of these materials, as well as their surface chemistry and modification, to enhance their catalytic activity and selectivity. Heterogeneous catalysis is an important field of study in materials science and chemical engineering, as it offers several advantages over homogeneous catalysis. Stable nitrogenous frameworks, such as zeolites, metal-organic frameworks (MOFs), carbon nitride, and covalent organic frameworks (COFs), have high surface area and porosity, which allows for efficient adsorption and desorption of reactants and products. Their nitrogen-containing compounds also play a crucial role in catalytic activity and selectivity. The synthesis and functionalization of stable nitrogenous frameworks is an active area of research, as scientists seek to optimize their surface chemistry and properties. Adsorption and desorption of reactants and products depend on surface area, surface modification, and reaction kinetics, which are all critical factors in catalyst performance. Reaction mechanism studies have also shed light on the catalytic activity and selectivity of these materials. Stable nitrogenous frameworks offer several advantages for organic synthesis and sustainable chemistry, as they are reusable and have high chemical stability. They also offer opportunities for green chemistry, as they can reduce the use of toxic solvents and reagents in chemical reactions. Mohitosh Bhadra's research has focused on optimizing these materials for specific applications, and his work has contributed to the development of more efficient and effective catalysts for a range of reactions. In conclusion, stable nitrogenous frameworks are a promising class of materials for catalyzing heterogeneous reactions in organic chemistry. Mohitosh Bhadra's research highlights the importance of catalyst design, performance, and stability, as well as the surface chemistry and properties of these materials. This research has the potential to contribute to the development of more sustainable and efficient chemical processes.