Structural elucidation of a polypeptoid chain in a crystalline lattice reveals key morphology-directing role of the N-terminus
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus
T Yu, X Luo, D Prendergast, GL Butterfoss… - ACS …, 2023 - nchr.elsevierpure.com
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus.
T Yu, X Luo, D Prendergast, GL Butterfoss, B Rad… - ACS Nano, 2023 - europepmc.org
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
[HTML][HTML] Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus
T Yu, X Luo, D Prendergast, GL Butterfoss, B Rad… - ACS Nano, 2023 - ncbi.nlm.nih.gov
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus
T Yu, X Luo, D Prendergast, GL Butterfoss, B Rad… - ACS Nano, 2023 - osti.gov
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus.
T Yu, X Luo, D Prendergast, GL Butterfoss, B Rad… - ACS …, 2023 - escholarship.org
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus
T Yu, X Luo, D Prendergast, GL Butterfoss… - ACS …, 2023 - pubmed.ncbi.nlm.nih.gov
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N-Terminus.
T Yu, X Luo, D Prendergast, GL Butterfoss, B Rad… - ACS Nano, 2023 - europepmc.org
The ability to engineer synthetic polymers with the same structural precision as
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …
biomacromolecules is crucial to enable the de novo design of robust nanomaterials with …