The Henry Samueli School of Engineering | UC Irvine



  1. Pushing the limits of detection for proteins secreted from single cells using quantum dots
    Herrera V., Hsu S. C., Rahim M. K., Chen C., Nguyen L., Liu W. F., Haun J. B.
    Analyst (2018)

  2. Microfluidic filter device with nylon mesh membranes efficiently dissociates cell aggregates and digested tissue into single cells
    Qiu X., Lombardo J. A., Westerhof T. M., Pennell M., Ng A., Alshetaiwi H., Luna B. M., Nelson E. L., Kessenbrock K., Hui E., and Haun J. B.
    Lab Chip (2018)

  3. Extracting multivalent detachment rates from heterogeneous nanoparticle populations
    Wang M., Allard J., and Haun J. B.
    Phys. Chem. Chem. Phys. 33. (2018)

  4. Microfluidic channel optimization to improve hydrodynamic dissociation of cell aggregates and tissue
    Qiu X., Huang J., Westerhof T. M., Lombardo J. A., Henrikson K. M., Pennell M., Pourfard P. P., Nelson E. L., Nath P., and Haun J. B.
    Sci. Rep. 8, 2774. (2018)

  5. Microfluidic device for rapid digestion of tissues into cellular suspensions
    Qiu X., Westerhof T. M., Karunaratne A. A., Werner E. M., Pourfard P. P., Nelson E. L., Hui E. E., and Haun J. B.
    Lab Chip 17(19): 3300-3309. (2017)

  6. The evolution of multivalent nanoparticle adhesion via specific molecular interactions
    Wang M., Ravindranath S. R., Rahim M. K., Botvinick E. L., and Haun J. B.
    Langmuir 32(49): 13124-13136. (2016)

  7. Phenotypic analysis of stromal vascular fraction after mechanical shear reveals stress-induced progenitor populations
    Banyard D. A., Sarantopoulos C. N., Borovikova A. A., Qiu X., Wirth G. A., Paydar K. Z., Haun J. B., Evans G. D., and Widgerow A. D.
    Plastic & Reconstructive Surgery Volume 138 - Issue 2 - p 237e–247e (2016)

  8. Macrophage secretion heterogeneity in engineered microenvironments revealed using a microwell platform
    McWhorter F. Y., Smith T. D., Luu T. U., Rahim M. K., Haun J. B., and Liu W. F.
    Integr. Biol. 8, 751-760. (2016)

  9. Fluctuation spectroscopy analysis of glucose capped gold nanoparticles
    Porcaro F., Miao Y., Kota R., Haun J. B., Polzonetti G., Battocchio C., and Gratton E.
    Langmuir 32(50): 13409–13417. (2016)

  10. Enhancing reactivity for bioorthogonal pretargeting by unmasking antibody-conjugated trans-cyclooctenes
    Rahim M. K., Kota R., and Haun J. B.
    Bioconjugate Chem. 26(2): 352–360. (2015)

  11. Microfluidic device for mechanical dissociation of cancer cell aggregates into single cells
    Qiu X., De Jesus J., Pennell M., Troiani M., and Haun J. B.
    Lab on a chip. 15.1, 339-350. (2015)

  12. Bioorthogonal chemistries for nanomaterial conjugation and targeting
    Rahim M. K., Kota R., Lee S., and Haun J. B.
    Nanotechnol. Rev. 2(2): 215-27. (2013)

Prior to UCI

  1. Using engineered single-chain antibodies to correlate molecular binding properties and nanoparticle adhesion dynamics
    Haun J. B., Pepper L. R., Boder E. T., and Hammer D. A.
    Langmuir. 27(22): 13701-12. (2011)

  2. Molecular detection of biomarkers and cells using nanoparticles and diagnostic magnetic resonance
    Haun J. B., Yoon T. J., Lee H., and Weissleder R.
    Methods Mol. Biol. 726, 33-49. (2011)

  3. Probing intracellular biomarkers and mediators of cell activation using nanosensors and bioorthogonal chemistry
    Haun J. B., Devaraj N. K., Marinelli B. S., Lee H., and Weissleder R.
    ACS Nano 5(4): 3204-13. (2011)

  4. MicroNMR for rapid analysis of human tumor samples
    Haun J. B., Castro C. M., Wang R., Peterson V. M., Marinelli B. S., Lee H., and Weissleder R.
    Sci. Transl. Med. 3(71): 71ra16. (2011)

  5. Carboxymethylated polyvinyl alcohol stabilizes ferrofluids for biological applications
    Liong M., Shao H., Haun J. B., Lee H., Weissleder R.
    Adv. Mater. 22(45): 5168-72. (2010)

  6. Tunable leuko-polymersomes that adhere specifically to inflammatory markers
    Robbins G. P., Saunders R. L., Haun J. B., Rawson J., Therien M. J., and Hammer D. A.
    Langmuir 26(17): 14089-96. (2010)

  7. Bioorthogonal chemistry amplifies nanoparticle binding and enhances the sensitivity of cell detection
    Haun J. B., Devaraj N. K., Hildebrand S. A., Lee H., and Weissleder R
    Nat. Nanotechnol. 5(9): 660-5. (2010)

  8. Magnetic nanoparticle biosensors
    Haun J. B., Yoon T. J., Lee H., and Weissleder R.
    Wiley Interdiscip. Rev. Nanomed. Nanobiotechnol. 2(3): 291-304. (2010)

  9. Engineering therapeutic nanocarriers with optimum adhesion for targeting
    Haun J. B., Robbins G. P., and Hammer D. A.
    J. Adhesion 86(1): 131-59. (2010)

  10. Fast and sensitive pretargeted labeling of cancer cells through a tetrazine/trans-cyclooctene cycloaddition
    Devaraj N. K., Upadhyay R., Haun J. B., Hilderbrand S. A., and Weissleder R.
    Angew. Chem. Int. Ed. Engl. 48(38): 7013-6. (2009)

  11. Leuko-polymersomes
    Hammer D. A., Robbins G. P., Haun J. B., Lin J. J., Qi W., Smith L. A., Ghoroghchian P. P., Therien M. J., and Bates F. S.
    Faraday Discuss. 139, 129-41. (2008)

  12. Quantifying nanoparticle adhesion mediated by specific interactions
    Haun J. B. and Hammer D. A.
    Langmuir 24(16): 8821-32. (2008)

  13. Neutrophil traction stresses are concentrated in the uropod during migration
    Smith L. A., Aranda-Espinoza H., Haun J. B., Dembo M., and Hammer D. A.
    Biophys. J. 92(7), L58-60. (2007)

  14. Interplay between shear stress and adhesion on neutrophil locomotion
    Smith L. A., Aranda-Espinoza H., Haun J. B., and Hammer D. A.
    Biophys. J. 92(2): 632-40. (2007)

  15. Clearance of complement by human endothelial cells: effect of hypoxia/reoxygenation and IL-1beta activation
    Haun J. B., Baldwin W. M. III, and Alevriadou B. R.
    Transpl. Int.18, 475-82. (2005)