Preparation of chemical gradients on porous silicon by a dip coating method

Proceedings of SPIE - The International Society for Optical Engineering

Volumn 7267, Issue , 2008, Pages

  Clements, Lauren ^a,b   Puskar, Ljiljana ^c   Tobin, Mark J ^c   Harding, Frances ^a   Thissen, Helmut ^b   Voelcker, Nicolas H ^a,b  

^a FLINDERS UNIVERSITY   (Australia)

^b CSIRO   (Australia)

^c AUSTRALIAN SYNCHROTRON   (Australia)

Author keywords

Gradient surfaces; Porous silicon; Silanisation; Surface analysis

Indexed keywords

CELL-SURFACE INTERACTIONS; CHARACTERISATION; CHEMICAL GRADIENTS; CHLOROSILANE; DIP-COATING METHODS; FUNCTIONALISATION; GRADIENT SURFACES; HIGH THROUGHPUTS; IN-VITRO; INCUBATION TIME; LAYER THICKNESS; LIGAND DENSITIES; LINE SCANS; MATERIAL SURFACES; NANOSTRUCTURED SILICONS; OPTIMISATION; POROUS SUBSTRATES; SESSILE DROPS; SILANISATION; SURFACE COVERAGES; SURFACE PARAMETERS; WATER CONTACT ANGLE MEASUREMENTS; WATER CONTACT ANGLES; X-RAY PHOTOELECTRON SPECTROSCOPIES; XPS;

ANGLE MEASUREMENT; CAPILLARITY; CONTACT ANGLE; DROPS; INFRARED SPECTROSCOPY; NONMETALS; POROUS SILICON; SILANES; SUBSTRATES; SURFACE ANALYSIS; SURFACE CHEMISTRY; SURFACE TOPOGRAPHY; X RAY PHOTOELECTRON SPECTROSCOPY;

SURFACES;

EID: 62449259365     PISSN: 0277786X     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1117/12.810718     Document Type: Conference Paper

References (41)

1. Hook, A. L.; Thissen, H.; Hayes, J. P.; Voelcker, N. H. A platform for the advanced spatial and temporal control of biomolecules, SPIE, 2006; 2006.
2. Anderson, D. G.; Putnam, D.; Lavik, E. B.; Mahmood, T. A.; Langer, R., Biomaterial microarrays: rapid, microscale screening of polymer-cell interaction. Biomaterials 2005, 26, (23), 4892-4897.
3. Xu, C. W., High-density cell microarrays for parallel functional determinations. Genome Research 2002, 12, (3), 482-486.
4. Genzer, J.; Bhat, R. R., Surface-bound soft matter gradients. Langmuir 2008, 24, (6), 2294-2317.
5. Morgenthaler, S.; Zink, C.; Spencer, N. D., Surface-chemical and morphological gradients. Soft Matter 2008, 4, 419-434.
6. Zhu, X. L.; Chen, J.; Scheideler, L.; Reichl, R.; Geis-Gerstorfer, J., Effects of topography and composition of titanium surface oxides on osteoblast responses. Biomaterials 2004, 25, (18), 4087-4103.
7. Khung, Y. L.; Barritt, G.; Voelcker, N. H., Using continuous porous silicon gradients to study the influence of surface topography on the behaviour of neuroblastoma cells. Experimental Cell Research 2008, 314, (4), 789-800.
8. Zelzer, M; Majani, R.; Bradley, J. W.; Rose, F.; Davies, M. C.; Alexander, M. R., Investigation of cell-surface interactions using chemical gradients formed from plasma polymers. Biomaterials 2008, 29, 172-184.
9. Choee, J. H.; Lee, S. J.; Lee, Y. M.; Rhee, J. M.; Lee, H. B.; Khang, G., Proliferation rate of fibroblast cells on polyethylene surfaces with wettability gradient. Journal of Applied Polymer Science 2004, 92, (1), 599-606.
10. Wei, J. H.; Yoshinari, M.; Takemoto, S.; Hattori, M.; Kawada, E.; Liu, B. L.; Oda, Y., Adhesion of mouse fibroblasts on hexamethyidisiloxane surfaces with wide range of wettability. Journal of Biomedical Materials Research Part B-Applied Biomaterials 2007, 81B, (1), 66-75.
11. Yoshinari, M.; Hayakawa, T.; Matsuzaka, K.; Inoue, T.; Oda, Y.; Shimono, M., Immobilization of fibronectin onto organic hexamethyldisiloxane coatings with plasma surface modification. Journal of Oral Tissue Engineering 2004, 1, (1), 69-79.
12. Kim, M. S.; Khang, G.; Lee, H. B., Gradient polymer surfaces for biomedical applications. Progress in Polymer Science 2008, 33, 138-164.
13. Thissen, H.; Hayes, J. P.; Kingshott, P.; Johnson, G.; Harvey, E. C.; Griesser, H. J., Nanometer thickness laser ablation for spatial control of cell attachment. Smart Materials & Structures 2002, 11, (5), 792-799.
14. Chen, C. S.; Mrksich, M.; Huang, S.; Whitesides, G. M.; Ingber, D. E., Micropatterned surfaces for control of cell shape, position, and function. Biotechnology Progress 1998, 14, (3), 356-363.
15. Kikuchi, A.; Okano, T., Nanostructured designs of biomedical materials:applications of cell sheet engineering to functional regenerative tissues and organs. Journal of Controlled Release 2005, 101, 69-84.
16. Chai, C.; Leong, K. W., Biomaterials approach to expand and direct differentiation of stem cells. Molecular Therapy 2007, 15, (3), 467-480.
17. Ruardy, T. G.; Schakenraad, J. M.; vanderMei, H. C.; Busscher, H. J., Preparation and characterization of chemical gradient surfaces and their application for the study of cellular interaction phenomena. Surface Science Reports 1997, 29, (1), 3-30.
18. Clements, L. R.; Khung, Y. L.; Thissen, H.; Voelcker, N. H., Preparation of 2-directional gradient surfaces for the analysis of cell-surface interactions. Procedings of SPIE 2007, 6799, (67990W), 1-9.
19. Alexander, M. R.; Whittle, J. D.; Barton, D.; Short, R. D., Plasma polymer chemical gradients for evaluation of surface reactivity: epoxide reaction with carboxylic acid surface groups. Journal of Materials Chemistry 2004, 14, (3), 408-412.
20. Alexander, M. R.; Duc, T. M., The chemistry of deposits formed from acrylic acid plasmas. Journal of Materials Chemistry 1998, 8, (4), 937-943.
21. Whittle, J. D.; Barton, D.; Alexander, M. R.; Short, R. D., A method for the deposition of controllable chemical gradients. Chemical Communications 2003, (14), 1766-1767.
22. Elwing, H.; Welin, S.; Askendal, A.; Nilsson, U.; Lundstrom, I., A wettability gradient-method for studies of macromolecular interactions at the liquid solid interface. Journal of Colloid and Interface Science 1987, 119, (1), 203-210.
23. Chaudhry, M. K.; Whitesides, G. M, How to make water run uphill. Science 1992, 256, 1539-1541.
24. Kraus, T.; Stutz, R.; Balmer, T. E.; Schmid, H.; Malaquin, L.; Spencer, N. D.; Wolf, H., Printing chemical gradients. Langmuir 2005, 21, (17), 7796-7804.
25. Zhao, B., A combinatorial approach to study solvent-induced self-assembly of mixed poly(methyl methacrylate)/polystyrene brushes on planar silica substrates: Effect of relative grafting density. Langmuir 2004, 20, 11748-11755.
26. Wang, Y. W.; Wu, Q.; Chen, G. Q., Reduced mouse fibroblast cell growth by increased hydrophilicity of microbial polyhydroxyalkanoates via hyaluronan coating. Biomaterials 2003, 24, (25), 4621-4629.
27. Altankov, G.; Grinnell, F.; Groth, T., Studies on the biocompatibility of materials: Fibroblast reorganization of substratum-bound fibronectin on surfaces varying in wettability. Journal of Biomedical Materials Research 1996, 30, (3), 385-391.
28. Zhu, B. S.; Lu, Q. H.; Yin, J.; Hu, J.; Wang, Z. G., Effects of laser-modified polystyrene substrate on CHO cell growth and alignment. Journal of Biomedical Materials Research Part B-Applied Biomaterials 2004, 70B, (1), 43-48.
29. Xu, C.; Wu, T.; Batteas, J. D.; Drain, C. M.; Beers, K. L.; Fasolka, M. J., Surface-grafted block copolymer gradients: Effect of block length on solvent response. Applied Surface Science 2006, 252, (7), 2529-2534.
30. Morgenthaler, S.; Lee, S.; Zurcher, S.; Spencer, N. D., A Simple, Reproducible Approach to the Preparation of Surface-Chemical gradients. Langmuir 2003, 19, (25), 10459-10462.
31. Genzer, J.; Efimenko, K.; Fischer, D. A., Formation mechanisms and properties of semifluorinated molecular gradients on silica surfaces. Langmuir 2006, 22, 8532-8541.
32. Golander, C. G.; Caldwell, K.; Lin, Y.-S., A new technique to prepare gradient surfaces using density gradient solutions. Colloids and surfaces 1989, 42, (1), 165-172.
33. Simon, C. G.; Eidelman, N.; Kennedy, S. B.; Sehgal, A.; Khatri, C. A.; Washburn, N. R., Combinatorial screening of cell proliferation on poly(D,L-lactic acid)/poly(D,L-lactic acid) blends. Biomaterials 2005, 26, (34), 6906-6915.
34. Parry, K. L.; Shard, A. G.; Short, R. D.; White, R. G.; Whittle, J. D.; Wright, A., ARXPS characterisation of plasma polymerised surface chemical gradients. Surface and Interface Analysis 2006, 38, (11), 1497-1504.
35. Canham, L., Properties of Porous Silicon. INSPEC, The Institution of Electrical Engineers: London, UK, 1997.
36. Li, X.; John, J.; Coffer, J. L.; Chen, Y.; Pinizzotto, R. F.; Newey, J.; Reeves, C.; Canham, L. T., Porosified silicon wafer structures impregnated with platinum anti-tumor compounds: Fabrication, characterisation, and diffusion studies. Biomedical Microdevices 2000, 2, (4), 265-272.
37. Salonen, J.; Laitinen, L.; Kaukonen, A. M.; Tuura, J.; Bjorkqvist, M.; Heikkila, T.; Vaha-Heikkila, K.; Hirvonen, J.; Lehto, V. P., Mesoporous silicon microparticles for oral drug delivery: Loading and release of five model drugs. Journal of Controlled Release 2005, 108, (2-3), 362-374.
38. Low, S. P.; Williams, K. A.; Canham, L. T.; Voelcker, N. H., Evaluation of mammalian cell adhesion on surface-modified porous silicon. Biomaterials 2006, 27, (26), 4538-4546.
39. Creagh, D.; McKinlay, J.; Dumas, P., The design of the infrared beamline at the Australian Synchrotron. Vibrational Spectroscopy 2006, 41, 213-220.
40. Sailor, M. J.; Lee, E. J., Surface Chemistry of Luminescent silicon nanocrystallites. Advanced Materials 1997, 9, (10), 783-793.
41. Khung, Y. L.; Cole, M. A.; McInnes, S. J. P.; Voelcker, N. H., Control over wettability via surface modification of porous gradients. Procedings of SPIE BioMEMS and Nanotechnology III 2007, 6799, (679909), 1-12.