We have previously reported the synthesis of four alpha-cyano-containing ethers based on 2-naphthaldehyde (2-NA) as cytochrome P450 (P450) fluorescent substrates. Activity detection was based on the formation of fluorescent 2-NA following substrate hydrolysis. A major limitation of these substrates was the need to remove NADPH, a required cofactor for P450 oxidation, before measuring 2-NA fluorescence. In this article, we report the synthesis of a new series of novel P450 substrates using 6-dimethylamino-2-naphthaldehyde (6-DMANA), which has a green fluorescent emission that is well separated from the NADPH spectrum. A major advantage of the 6-DMANA substrates is that NADPH removal is not required before fluorescence detection. We used eight alpha-cyano ether-based substrates to determine the O-dealkylation activity of human, mouse, and rat liver microsomes. In addition, substrate activities were compared with the commercial substrate 7-ethoxyresorufin (7-ER). The catalytic turnover rates of both the 6-DMANA- and 2-NA-based substrates were in some cases threefold faster than the catalytic turnover rate of 7-ER. The 2-NA-based substrates had greater turnover than did the 6-DMANA-based substrates. Murine and rat liver microsomes prepared from animals that had been treated with various P450 inducers were used to examine for isozyme-selective turnover of the substrates. The vastly improved optical properties and synthetic flexibility of the alpha-cyano ether compounds suggest that they are possibly good general P450 substrates.