Cross-linking organic semiconducting molecules by preferential C-H cleavage via 'chemistry with a tiny hammer'

摘要

In the context of collision-induced dissociation in chemistry and kinematics in physics,we have determined that a beam of hyperthermal protons can be used as tiny hammers to preferentially break the C-H bonds of hydrocarbon precursor molecules adsorbed on a conductive substrate with little damage to other chemical bonds.The activated molecules are thereby converted to a cross-linked molecular network,with its chemical properties tailored by the preservation of the chemical functional groups of the precursors and with its physical properties tuned by the degree of cross-linking.This "chemistry with a tiny hammer" process is adopted to induce inter-chain cross-linking of the semiconducting molecular chains in poly (3,4-ethylenedioxythiophene) molecular films and to raise the electrical conductivity and stability of the molecular films.The results exemplify the unusual reaction design of this process as well as its application in electronic and optoelectronic device fabrication.The application is particularly attractive because the process does not require any chemical additives or catalysts other than a beam of protons,and it needs no thermal budget.