Scalable synthesis of sequence-defined, unimolecular macromolecules by Flow-IEG

Author(s)

Leibfarth, Frank A.; Johnson, Jeremiah A.; Jamison, Timothy F.

Abstract

We report a semiautomated synthesis of sequence and architecturally defined, unimolecular macromolecules through a marriage of multistep flow synthesis and iterative exponential growth (Flow-IEG). The Flow-IEG system performs three reactions and an in-line purification in a total residence time of under 10 min, effectively doubling the molecular weight of an oligomeric species in an uninterrupted reaction sequence. Further iterations using the Flow-IEG system enable an exponential increase in molecular weight. Incorporating a variety of monomer structures and branching units provides control over polymer sequence and architecture. The synthesis of a uniform macromolecule with a molecular weight of 4,023 g/mol is demonstrated. The user-friendly nature, scalability, and modularity of Flow-IEG provide a general strategy for the automated synthesis of sequence-defined, unimolecular macromolecules. Flow-IEG is thus an enabling tool for theory validation, structure–property studies, and advanced applications in biotechnology and materials science.

Date issued

2015-08

URI

http://hdl.handle.net/1721.1/101407

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Proceedings of the National Academy of Sciences

Publisher

National Academy of Sciences (U.S.)

Citation

Leibfarth, Frank A., Jeremiah A. Johnson, and Timothy F. Jamison. “Scalable Synthesis of Sequence-Defined, Unimolecular Macromolecules by Flow-IEG.” Proc Natl Acad Sci USA 112, no. 34 (August 12, 2015): 10617–10622.

Version: Final published version

ISSN

0027-8424

1091-6490