AFM analysis of the polymer microstructures used for novel multianalyte protein microassay

Duy K. Pham; Jonathan P. Wright; Elena P. Ivanova; Dan V. Nicolau

doi:10.1117/12.483471

18 July 2003 AFM analysis of the polymer microstructures used for novel multianalyte protein microassay

Duy K. Pham, Jonathan P. Wright, Elena P. Ivanova, Dan V. Nicolau

Proceedings Volume 4966, Microarrays and Combinatorial Technologies for Biomedical Applications: Design, Fabrication, and Analysis; (2003) https://doi.org/10.1117/12.483471
Event: Biomedical Optics, 2003, San Jose, CA, United States

Abstract

We recently described a technique to fabricate shallow (< 50 nm) microstructures on PMMA surface for use in multianalyte protein micro-assay based on the ablation of a top thin gold layer using pulsed nitrogen laser (337 nm). In the present study, AFM has been used to investigate the surface characteristics and to provide physical insights into the formation of these complex microstructures. It has been shown that lateral diffusion of the heat generated during the gold ablation extended to ca. 3 μm on either side of the laser focal spot (ca. 5μmm wide), effectively ablated the gold layer and created shallow regions of ca. 20 nm. The heat also created a depression (ca. 5 μm wide) in the polymer region at the laser spot, and a hump, that increased in height with laser dose, at the center of the depression. It is suggested that volume shrinkage caused by stress relaxation and material redistribution, and volume expansion caused by fragmentation of the polymer are responsible mechanisms. Chemical changes also occurred resulting in the middle zone of the microstructure, which corresponds to the central hump, being hydrophobic, whereas the outer zone was hydrophilic. It is suggested that degraded hydrophilic products may be present in the outer zone, whereas the middle zone may contain smaller hydrophobic fragments due to more advanced fragmentation. The variation in the morphology and surface chemistry in the shallow microstructures effectively 'combinatorialize' the surface properties of the microstructures, thus facilitating the patterning of different proteins.

Citation Download Citation

Duy K. Pham, Jonathan P. Wright, Elena P. Ivanova, and Dan V. Nicolau "AFM analysis of the polymer microstructures used for novel multianalyte protein microassay", Proc. SPIE 4966, Microarrays and Combinatorial Technologies for Biomedical Applications: Design, Fabrication, and Analysis, (18 July 2003); https://doi.org/10.1117/12.483471

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