BioPolymers, Automated Cellular Infrastructure, Flow, and Integrated Chemistry Materials Innovation Platform (BioPACIFIC MIP)

The NSF BioPACIFIC MIP (DMR-1933487) merges advances in synthetic biology and synthetic chemistry by providing access to scientific expertise, multiscale computation and simulation for materials design, and advanced instrumentation capabilities to enable data-driven discovery and scalable production of bio-derived building blocks and polymers from yeast, fungi and bacteria, and the conversion of these blocks into next-generation polymers with properties and performance far exceeding those currently available in materials produced through traditional petrochemical-based methods.

BioPACIFIC MIP operates a one of a kind user facility dedicated to creating a nexus for synthetic biology and materials. Users are uniquely able to elucidate biomaterial structure and function to achieve materials-by-design, construct new bio-derived functional monomers from living organisms, access novel sequence-specific materials (e.g. peptoids), synthesize stimuli-responsive “smart” biomaterials, scale-up biomaterial production, and incorporate state-of-the-art field-theoretic simulation and machine learning algorithms.

In all cases, this platform is made possible by the unique and collective expertise of the BioPACIFIC MIP faculty and staff. BioPACIFIC MIP facilities are open to all US scientists via a peer-reviewed User Proposal process.

Publications

  • C. Choi, Y. Okayama, P. T. Morris, L. L. Robinson, M. Gerst, J. C. Speros, C. J. Hawker, J. Read de Alaniz, and C. M. Bates
    Digital Light Processing of Dynamic Bottlebrush Materials
    Advanced Functional Materials
    32
    (2022)
    10.1002/adfm.202200883
  • M. Gu, Y. Luo, Y. He, M. E. Helgeson, and M. T. Valentine
    Uncertainty quantification and estimation in differential dynamic microscopy
    Physical Review E
    104
    (2021)
    10.1103/physreve.104.034610
  • I. C. Okorafor, M. Chen, and Y. Tang
    High-Titer Production of Olivetolic Acid and Analogs in Engineered Fungal Host Using a Nonplant Biosynthetic Pathway
    ACS Synthetic Biology
    10
    2159-2166
    (2021)
    10.1021/acssynbio.1c00309
  • S. J. Bailey, F. Stricker, E. Hopkins, M. Z. Wilson, and J. Read de Alaniz
    Shining Light on Cyclopentadienone–Norbornadiene Diels–Alder Adducts to Enable Photoinduced Click Chemistry with Cyclopentadiene
    ACS Applied Materials & Interfaces
    13
    35422-35430
    (2021)
    10.1021/acsami.1c08670
  • L. L. Robinson, J. L. Self, A. D. Fusi, M. W. Bates, J. Read de Alaniz, C. J. Hawker, C. M. Bates, and C. S. Sample
    Chemical and Mechanical Tunability of 3D-Printed Dynamic Covalent Networks Based on Boronate Esters
    ACS Macro Letters
    10
    857-863
    (2021)
    10.1021/acsmacrolett.1c00257
  • R. Cerbino, F. Giavazzi, and M. E. Helgeson
    Differential dynamic microscopy for the characterization of polymer systems
    Journal of Polymer Science
    60
    1079-1089
    (2021)
    10.1002/pol.20210217
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People
  • Matthew Mecklenburg
    NSF BioPACIFIC MIP
  • Morgan Bates
    NSF BioPACIFIC MIP
  • Javier Read de Alaniz
    Chemistry and Biochemistry
  • Juan Manuel Urueña
    NSF BioPACIFIC MIP
  • Christopher Dunham
  • Youli Li
    Materials Research Laboratory
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Universities