Fitzpatrick Institute for Photonics Fitzpatrick Institute for Photonics
Pratt School of Engineering
Duke University

 HOME > pratt > FIP    Search Help Login pdf version printable version 

Publications of Benjamin B. Yellen    :chronological  alphabetical  combined  bibtex listing:

search .

Papers Published

  1. M. D. Krebs and R. M. Erb and B. B. Yellen and B. Samanta and A. Bajaj and V. M. Rotello and E. Alsberg, Formation of Ordered Cellular Structures in Suspension via Label-Free Negative Magnetophoresis, Nano Letters, vol. 9 no. 5 (May, 2009), pp. 1812 -- 1817, ISSN 1530-6984  [abs]
  2. R. M. Erb and H. S. Son and B. Samanta and V. M. Rotello and B. B. Yellen, Magnetic assembly of colloidal superstructures with multipole symmetry, Nature, vol. 457 no. 7232 (February, 2009), pp. 999 -- 1002, ISSN 0028-0836  [abs]
  3. C. Ooi and B. B. Yellen, Field gradients can control the alignment of nanorods, Langmuir, vol. 24 no. 16 (August, 2008), pp. 8514 -- 8521, ISSN 0743-7463  [abs]
  4. R. M. Erb and B. B. Yellen, Concentration gradients in mixed magnetic and nonmagnetic colloidal suspensions, Journal Of Applied Physics, vol. 103 no. 7 (April, 2008), ISSN 0021-8979  [abs]
  5. C. Ooi and R. M. Erb and B. B. Yellen, On the controllability of nanorod alignment in magnetic fluids, Journal Of Applied Physics, vol. 103 no. 7 (April, 2008), ISSN 0021-8979  [abs]
  6. R. M. Erb and D. S. Sebba and A. A. Lazarides and B. B. Yellen, Magnetic field induced concentration gradients in magnetic nanoparticle suspensions: Theory and experiment, Journal Of Applied Physics, vol. 103 no. 6 (March, 2008), ISSN 0021-8979  [abs]
  7. Z. G. Forbes and B. B. Yellen and D. S. Halverson and G. Fridman and K. A. Barbee and G. Friedman, Validation of high gradient magnetic field based drug delivery to magnetizable implants under flow, Ieee Transactions On Biomedical Engineering, vol. 55 no. 2 (February, 2008), pp. 643 -- 649, ISSN 0018-9294  [abs]
  8. B.B. Yellen, R. M. Erb, H. S. Son, R. Hewlin, Jr., H. Shang, G. U. Lee, Traveling Wave Magnetophoresis for High Resolution Chip Based Separations, Lab on a Chip, vol. in press (December, 2007)
  9. Erb, R.M. and Yellen, B.B., Model of detecting nonmagnetic cavities in ferrofluid for biological sensing applications, IEEE Trans. Magn. (USA), vol. 42 no. 10 (2006), pp. 3554 - 6 [TMAG.2006.879614]  [abs]
  10. Yellen, Benjamin B. and Erb, Randall M. and Halverson, Derek S. and Hovorka, Ondrej and Friedman, Gary, Arraying nonmagnetic colloids by magnetic nanoparticle assemblers, IEEE Transactions on Magnetics, vol. 42 no. 10 (2006), pp. 3548 - 3553 [TMAG.2006.879623]  [abs]
  11. Forbes, Z.G. and Halverson, D.S. and Fridman, G. and Yellen, B.B. and Chorny, M. and Friedman, G. and Barbee, K.A., Locally targeted drug delivery to magnetic stents for therapeutic applications, 2004 2nd IEEE/EMBS International Summer School on Medical Devices and Biosensors (IEEE Cat. No. 04EX903) (2006), pp. 1 - 6, Hong Kong, China  [abs]
  12. Yellen, Benjamin B. and Forbes, Zachary G. and Halverson, Derek S. and Fridman, Gregory and Barbee, Kenneth A. and Chorny, Michael and Levy, Robert and Friedman, Gary, Targeted drug delivery to magnetic implants for therapeutic applications, Journal of Magnetism and Magnetic Materials, vol. 293 no. 1 (2005), pp. 647 - 654 [083]  [abs]
  13. Yellen, B.B. and Hovorka, O. and Friedman, G., Arranging matter by magnetic nanoparticle assemblers, Proc. Natl. Acad. Sci. USA (USA), vol. 102 no. 25 (2005), pp. 8860 - 4 [pnas.0500409102]  [abs]
  14. Yellen, Benjamin B. and Friedman, Gary, Programmable assembly of heterogeneous colloidal particle arrays, Advanced Materials, vol. 16 no. 2 (2004), pp. 111 - 115 [adma.200305603]  [abs]
  15. Yellen, B.B. and Friedman, G. and Barbee, K.A., Programmable self-aligning ferrofluid masks for lithographic applications, IEEE Transactions on Magnetics, vol. 40 no. 4 II (2004), pp. 2994 - 2996 [TMAG.2004.829836]  [abs]
  16. Yellen, B.B. and Fridman, G. and Friedman, G., Ferrofluid lithography, Nanotechnology, vol. 15 no. 10 (2004), pp. 562-565 - [011]  [abs]
  17. Yellen, Benjamin B. and Friedman, Gary, Programmable assembly of colloidal particles using magnetic microwell templates, Langmuir, vol. 20 no. 7 (2004), pp. 2553 - 2559 [la0352016]  [abs]
  18. Forbes, Zachary G. and Yellen, Benjamin B. and Barbee, Kenneth A. and Friedman, Gary, An Approach to Targeted Drug Delivery Based on Uniform Magnetic Fields, IEEE Transactions on Magnetics, vol. 39 no. 5 II (2003), pp. 3372 - 3377 [TMAG.2003.816260]  [abs]
  19. Yellen, Benjamin B. and Friedman, Gary, Analysis of repulsive interactions in chains of superparamagnetic colloidal particles for magnetic template-based self-assembly, Journal of Applied Physics, vol. 93 no. 10 3 (2003), pp. 8447 - 8449 [1.1543134]  [abs]
  20. Hovorka, O. and Yellen, B.B. and Friedman, G., Modeling Stability of Trapped Ferromagnetic Nanoparticle Chains, IEEE Transactions on Magnetics, vol. 39 no. 5 II (2003), pp. 2549 - 2551 [TMAG.2003.816473]  [abs]
  21. Yellen, B.B. and Forbes, Z.G. and Barbee, K.A. and Friedman, G., Model of an approach to targeted drug delivery based on uniform magnetic fields, Digest of INTERMAG 2003. International Magnetics Conference (Cat. No.03CH37401) (2003), pp. EC-06 -, Boston, MA, USA [INTMAG.2003.1230562]  [abs]
  22. Yellen, B.B. and Friedman, G., Magnetically driven assembly of colloidal particles onto patterned surfaces, 2003 Nanotechnology Conference and Trade Show. Nanotech 2003. Nanotech 2003 Joint Meeting. 6th International Conference on Modeling and Simulation of Microsystems, MSM 2003. 3rd International Conference on Computational Nanoscience and Technology, ICCN 2003. 2003 Workshop on Compact Modeling, WCM 2003, vol. vol.3 (2003), pp. 542 - 5, San Francisco, CA, USA  [abs]
  23. Yellen, B.B. and Friedman, G. and Feinerman, A.D., Magnetically driven assembly of superparamagnetic colloidal particles, Proc. SPIE - Int. Soc. Opt. Eng. (USA), vol. 4982 (2003), pp. 302 - 9, San Jose, CA, USA [12.478161]  [abs]
  24. Yellen, B.B. and Friedman, G., Analysis of repulsive interactions in chains of superparamagnetic colloidal particles for magnetic template-based self-assembly, J. Appl. Phys. (USA), vol. 93 no. 10 (2003), pp. 8447 - 9 [1.1543134]  [abs]

Duke University * Pratt * Reload * Login