Hanquan Su, Ph.D

Affiliations: 
2014-2020 Chemistry department Emory University, Atlanta, GA 
 2020- Wyss Institute / Harvard Medical School 
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Khalid S. Salaita grad student 2014-
Peng Yin post-doc 2020- Harvard Medical School

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Sarkar D, Kang J, Wassie AT, et al. (2022) Revealing nanostructures in brain tissue via protein decrowding by iterative expansion microscopy. Nature Biomedical Engineering
Su H, Brockman JM, Duan Y, et al. (2021) Massively Parallelized Molecular Force Manipulation with On-Demand Thermal and Optical Control. Journal of the American Chemical Society
Blanchard A, Combs JD, Brockman JM, et al. (2021) Author Correction: Turn-key mapping of cell receptor force orientation and magnitude using a commercial structured illumination microscope. Nature Communications. 12: 5600
Blanchard A, Combs JD, Brockman JM, et al. (2021) Turn-key mapping of cell receptor force orientation and magnitude using a commercial structured illumination microscope. Nature Communications. 12: 4693
Bazrafshan A, Kyriazi ME, Holt BA, et al. (2021) DNA Gold Nanoparticle Motors Demonstrate Processive Motion with Bursts of Speed Up to 50 nm Per Second. Acs Nano
Brockman JM, Su H, Blanchard AT, et al. (2020) Live-cell super-resolved PAINT imaging of piconewton cellular traction forces. Nature Methods
Ramey-Ward AN, Su H, Salaita K. (2020) Mechanical stimulation of adhesion receptors using light-responsive nanoparticle actuators enhances myogenesis. Acs Applied Materials & Interfaces
Deal BR, Ma R, Ma VP, et al. (2020) Engineering DNA-Functionalized Nanostructures to Bind Nucleic Acid Targets Heteromultivalently with Enhanced Avidity. Journal of the American Chemical Society
Bazrafshan A, Meyer T, Su H, et al. (2020) Tunable DNA Origami Motors Translocate Ballistically Over μm Distances at nm/s Speeds. Angewandte Chemie (International Ed. in English)
Bazrafshan A, Meyer T, Su H, et al. (2020) Highly Processive DNA Origami Nanoscale Motors Biophysical Journal. 118: 479a
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