Klapperich Lab

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• [[Klapperich_Lab:Protocols|Protocols]]<br>
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• [[Klapperich_Lab:Publications|Publications]]<br>
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<h3>[[Klapperich_Lab:News|News]]</h3>
<h3>[[Klapperich_Lab:News|News]]</h3>

Revision as of 09:38, 28 July 2006


Klapperich Laboratory at Boston University

This page is under construction, please visit us at www.klapperichlab.org

Lab Members

Prof. Catherine Klapperich
Jessica Kaufman
Arpita Bhattacharyya
Nathan Spencer
Maria Dominika Kulinski
Benjamin Kooy
David Altman
Eben Tessari
Amy VanHove
Dr. Cassandra Noack

Lab Specific Protocols


Archival Journal Articles

  1. Jaworski J and Klapperich CM. . pmid:16620959. PubMed HubMed [paper1]
  2. Bhattacharyya A and Klapperich CM. . pmid:16448052. PubMed HubMed [paper2]
  3. Klapperich CM and Bertozzi CR. . pmid:15159079. PubMed HubMed [paper3]
  4. J. Song, J. Chen, C.M. Klapperich, V. Eng and C.R. Bertozzi,Functional glass slides for in vitro evaluation of interactions between bone cells and mineral-binding ligands, Journal of Materials Chemistry,14, 2643-2648, (2004). [paper4]
  5. C.M. Klapperich, K. Komvopoulos and L. Pruitt, Nanoindentation Experiments to Probe the Surface Mechanical Properties of Plasma Treated Polyethylenes, Journal of Materials Research, Vol.17 (2), (2002). [paper5]
  6. Klapperich C, Pruitt L, and Komvopoulos K. . pmid:15348272. PubMed HubMed [paper6]
  7. Klapperich, C., Komvopoulos, K., and Pruitt, L., Nanomechanical Properties of Polymers Determined From Nanoindentation Experiments, Journal of Tribology, ASME Trans., Vol. 123, No. 3, pp. 624-631, (2001). [paper7]
  8. Niedzwiecki S, Klapperich C, Short J, Jani S, Ries M, and Pruitt L. . pmid:11340595. PubMed HubMed [paper8]
  9. Klapperich C, Niedzwiecki S, Ries M, and Pruitt L. . pmid:10634955. PubMed HubMed [paper9]
  10. C. Klapperich, K. Komvopoulos, and L. Pruitt, Tribological Properties and Microstructural Evolution of Ultra-High Molecular Weight Polyethylene, Journal of Tribology, 121(2) April (1999). [paper10]
  11. Klapperich C, Graham J, Pruitt L, and Ries MD. . pmid:10537267. PubMed HubMed [paper11]
All Medline abstracts: PubMed HubMed


Research

The Biomedical Materials Research Laboratory is focused on materials research activities in the broad areas of tissue engineering and biomedical device design. The laboratory is equipped for polymer and hydrogel synthesis, microfluidic device rapid prototyping, fabrication of tissue engineering scaffold materials, molecular analysis and tissue culture. The laboratory houses a dynamic mechanical analyzer for time and temperature sensitive testing of gel and polymer macroscale mechanical properties. This facility is a fully functional laboratory for integrated mechanical, chemical and biological testing of biomaterials. The laboratory is adjacent to the shared bio-micro/nanofabrication center. This cleanroom contains a mask aligner, AFM, DekTak Profilometer, e-beam evaporator and a spin coater. The lab also maintains a Hysitron Triboscope Nanoindentation Instrument located in the Low Vibration Area of the Photonics Center. Laboratory projects include experiments and modeling of the contact problem for nanoscale probes on soft hydrated biomaterials, cell-biomaterial interactions in tissue engineering materials, and diagnostic microfluidic device design.


Recent announcements
  • 03/01/06 -
  • 01/09/06 -
  • 01/09/06 -


Thanks to BE Board for this template




Image:klaplab.jpg

Lab Members

Prof. Catherine Klapperich

Students
Researchers
Alumni

Calendar

Content

Projects
Equipment
Materials
Protocols
Publications

News

Contact Us

Department of Biomedical Engineering
44 Cummington Street
Boston, MA 02115

Office:
Phone:
Fax:

The Biomedical Materials Research Laboratory is focused on materials research activities in the broad areas of tissue engineering and biomedical device design. The laboratory is equipped for polymer and hydrogel synthesis, microfluidic device rapid prototyping, fabrication of tissue engineering scaffold materials, molecular analysis and tissue culture. Laboratory projects include experiments and modeling of the contact problem for nanoscale probes on soft hydrated biomaterials, cell-biomaterial interactions in tissue engineering materials, and diagnostic microfluidic device design.

Personal tools