1. Begin with a simple benzene ring ("ring A") that has no substituents. One carbon of this ring (call it A1) is bonded to a single methylene (-CH2-).
2. That methylene is attached to a five-membered ring ("ring B") containing three carbons, one nitrogen, and one selenium in the following sequence around the ring:
   B1-B2-B3-B4-B5,
   where B1 is the carbon bonded to the methylene, B2 and B4 are carbons, B3 is nitrogen, and B5 is selenium, which closes the ring back onto B1. B1 and B2 are doubly bonded; B3 and B4 are doubly bonded.
3. Attached to B2 is a phenyl substituent bearing a single methoxy (-OCH3) group at the para position relative to the bond joining it to B2.
4. Attached to B4 is an imine-based substituent with the connectivity: B4-N=C(O)-phenyl. The imine carbon is double-bonded to the nitrogen, singly bonded to an oxygen, and singly bonded to a second phenyl ring that is trifluorinated as follows: C1-C2-C3-C4-C5-C6, where C1 is the carbon bonded to the imine, and C3, C4, and C5 are bonded to the fluorines (i.e., three fluorines on that ring arranged symmetrically).

No stereochemistry is specified.