Engineering the surface chemical microenvironment over CuO nanowire arrays by polyaniline modification for efficient ammonia electrosynthesis from nitrate

Electrochemical nitrate reduction into ammonia offers an attractive alternative to value-added ammonia (NH3) production under benign conditions. The critical to achieve satisfactory NH3 production rate from nitrate electroreduction that can compare with industrial Haber-Bosch route is the development of highly efficient electrocatalysts. In this work, we descript a post-modification strategy for synthesizing polyaniline (PANI)-modified CuO nanowire arrays (CuO@PANI) for selective electrocatalytic nitrate-to-ammonia transformation. Surface modification of CuO with PANI can not only well-retain the nanowire array structure and large specific surface area, but also modulate the surface chemical microenvironment of catalyst, which promotes nitrate enrichment and hydrogenated species accumulation, and thus facilitates selective nitrate-to-ammonia trans-formation. As a result, the CuO@PANI exhibits high Faradaic efficiency (93.88%) and excellent NH3 selectivity (91.38%) for NH3 electrosynthesis from nitrate. The strategy is worthy for designing high-efficiency electro-catalysts by surface modification with organic molecular or polymers for selective nitrate reduction into ammonia.

Automated summary

This research presents a post-modification strategy for synthesizing polyaniline-modified CuO nanowire arrays, achieving selective electrocatalytic nitrate-to-ammonia transformation with high efficiency. The modified CuO@PANI exhibits high Faradaic efficiency and excellent NH3 selectivity.