@article{finkel_prevo_velev_he_2005, title={Ordered silicon nanocavity arrays in surface-assisted desorption/ionization mass spectrometry}, volume={77}, ISSN={["1520-6882"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-13844320727&partnerID=MN8TOARS}, DOI={10.1021/ac048645v}, abstractNote={We report here a simple method to generate ordered nanocavity arrays on a Si wafer and use it in surface-assisted laser desorption/ionization mass spectrometry (SALDI-MS). A close-packed SiO2 nanosphere array was first deposited on a low-resistivity Si wafer using a convective self-assembly method. The nanoparticle array was then used as a mask in a reactive ion etching (RIE) process to selectively remove portions of the Si surface. Subsequent sonication removed those physically adsorbed SiO2 nanoparticles and exposed an ordered nanocavity array underneath. The importance of this approach is its capability of systematically varying surface geometries to achieve desired features, which makes detailed studies of the impacts of surface features on the desorption/ionization mechanism feasible. We demonstrated that the in-plane width and out-of-plane depth of the cavities were adjustable by varying etching times, and the intercavity spacing was controllable by varying the number of particle layers deposited. MS detection of small peptides on these substrates showed comparable sensitivity to conventional porous Si substrates (DIOS, desorption/ ionization on porous silicon). The desorption and ionization efficiency of these roughened surfaces exhibited a nonmonotonic relationship to the increased total surface area. Several possible factors contributing to the observed phenomenon are speculated upon. The application of this arrayed surface in metabolite detection of Arabidopsis thaliana root extracts is also demonstrated.}, number={4}, journal={ANALYTICAL CHEMISTRY}, author={Finkel, NH and Prevo, BG and Velev, OD and He, L}, year={2005}, month={Feb}, pages={1088–1095} }
 @article{finkel_lou_wang_he_2004, title={Barcoding the microworld}, volume={76}, number={19}, journal={Analytical Chemistry}, author={Finkel, N. H. and Lou, X. H. and Wang, C. Y. and He, L.}, year={2004}, pages={353A–359} }