Direct Observation of Knock-on in Surface Reactions at Zero Impact Parameter

J Am Chem Soc. 2021 Aug 18;143(32):12644-12649. doi: 10.1021/jacs.1c05186. Epub 2021 Aug 9.

Abstract

Reaction dynamics examines molecular motions in reactive collisions. The aiming of reagents at one another has been achieved at selected miss distances (impact parameters, b) by using the corrugations on crystalline surfaces as collimator. Prior experimental work and ab initio calculation showed single atoms aimed at chemisorbed molecules with b = 0 gave knock-on of atomic reaction products through a linear transition state. Here we report a study of b = 0 collision between directed CF2 and stationary chemisorbed CF3. Experiments and ab initio calculations again show linear reaction with a linear transition state, despite the additional degrees of freedom for CF2. The directed motion of CF2 is conserved through this linear transition state. Conservation of directionality is evidenced experimentally by the observation of a knock-on chain reaction along a line of chemisorbed CF3.