Litcius/Paper detail

Plenty of Room at the Top: A Multi‐Scale Understanding of nm‐Resolution Polymer Patterning on 2D Materials

Anni Shi, Terry A. Villarreal, Anamika Singh, Tyler R. Hayes, Tyson C. Davis, Jacob T. Brooks, Shelley A. Claridge

2021Angewandte Chemie International Edition21 citationsDOI

Abstract

Lamellar phases of alkyldiacetylenes in which the alkyl chains lie parallel to the substrate represent a straightforward means for scalable 1-nm-resolution interfacial patterning. This capability has the potential for substantial impacts in nanoscale electronics, energy conversion, and biomaterials design. Polymerization is required to set the 1-nm functional patterns embedded in the monolayer, making it important to understand structure-function relationships for these on-surface reactions. Polymerization can be observed for certain monomers at the single-polymer scale using scanning probe microscopy. However, substantial restrictions on the systems that can be effectively characterized have limited utility. Here, using a new multi-scale approach, we identify a large, previously unreported difference in polymerization efficiency between the two most widely used commercial diynoic acids. We further identify a core design principle for maximizing polymerization efficiency in these on-surface reactions, generating a new monomer that also exhibits enhanced polymerization efficiency.

Topics & Concepts

PolymerizationMaterials sciencePolymerMonomerNanotechnologyLamellar structureSubstrate (aquarium)MonolayerChemical engineeringComposite materialOceanographyEngineeringGeologySurface Chemistry and CatalysisQuantum Dots Synthesis And PropertiesSupramolecular Self-Assembly in Materials