Characterization and quantification of biological micropatterns using Cluster-SIMS. Conference Paper uri icon

abstract

  • Micropatterning is used widely in biosensor development, tissue engineering and basic biology. Creation of biological micropatterns typically involves multiple sequential steps that may lead to cross-contamination and may contribute to sub-optimal performance of the surface. Therefore, there is a need to develop novel strategies for characterizing location-specific chemical composition of biological micropatterns. In this paper, C(60) (+) ToF-SIMS operating in the event-by-event bombardment-detection mode was used for spatially resolved chemical analysis of micropatterned indium tin oxide (ITO) surfaces. Fabrication of the micropatterns involved multiple steps including self-assembly of poly (ethylene glycol) (PEG)-silane, patterning of photoresist, treatment with oxygen plasma and adsorption of collagen (I). The ITO surfaces were analyzed with 26 keV C(60) (+)SIMS run in the event-by-event bombardment-detection mode at different steps of the modification process. We were able to evaluate the extent of cross-contamination between different steps and quantify coverage of the immobilized species. The methodology described here provides a novel means for characterizing the composition of biological micropatterns in a quantitative and spatially-resolved manner.

published proceedings

  • Surf Interface Anal

author list (cited authors)

  • Chen, L., Shah, S. S., Verkhoturov, S. V., Revzin, A., & Schweikert, E. A.

citation count

  • 11

complete list of authors

  • Chen, Li-Jung||Shah, Sunny S||Verkhoturov, Stanislav V||Revzin, Alexander||Schweikert, Emile A

publication date

  • January 2011

publisher