Conversion of Nitrogen based small molecules (N2, NH3, NOx and more)
Conversion of Nitrogen based small molecules (N2, NH3, NOx and more)
Conversion of nitrogen-based small molecules, such as N2, NH3, and NOx, is an essential process in various industries and environmental applications. Nitrogen is an abundant element in the atmosphere, but its conversion into more reactive forms is vital for sustaining life and supporting industrial processes. The conversion of N2 into ammonia (NH3) through the Haber-Bosch process has revolutionized agricultural productivity by enabling the production of synthetic fertilizers on a large scale. Additionally, the conversion of NOx (nitrogen oxides) plays a crucial role in reducing air pollution and meeting stringent emission regulations. Various catalytic technologies have been developed to convert nitrogen-based molecules efficiently, including selective catalytic reduction (SCR) for NOx reduction and nitrogenase enzymes for biological nitrogen fixation. These conversions require careful optimization of reaction conditions and catalyst design to enhance efficiency while minimizing energy consumption and harmful by-products. As advancements continue to occur in this field, improved conversion methods will pave the way for sustainable agriculture, pollution control, and cleaner industrial processes.
Keywords
· Nitrogen oxides (NOx, NO2,...)
· Ammonia
· Urea
· Hydrazine
· Nitrites & Nitrates
· Amines & Imines
· Activation
· Synthesis Scale-up