French, R. H., Murray, M. H., Lin, W. H., Shell, K. H., Brown, S. H., Schuetz, M. H., & Davis, R. H.(2011).Solar radiation durability of materials components and systems for low concentration photovoltaic systems..
French, R. H., Rajter, R. H., Podgornik, R. H., Parsegian, V. H., Rajter, R. H., Jagota, A. H., Luo, J. H., Asthagiri, D. H., Chaudhury, M. H., Chiang, Y. H., Granick, S. H., Kalinin, S. H., Kardar, M. H., Kjellander, R. H., Langreth, D. H., Lewis, J. H., Lustig, S. H., Wesolowski, D. H., Wettlaufer, J. H., Ching, W. H., Finnis, M. H., Houlihan, F. H., Anatole von Lilienfeld, O. H., Jan van Oss, C. H., & Zemb, T. H.(2010).Long Range Interactions In Nanoscale Science.Reviews of Modern Physics,82, 1887–1944.
Šiber, A., Rajter, R., French, R. H., Ching, W. H., Parsegian, V. H., & Podgornik, R. H.(2010).Optically anisotropic infinite cylinder above an optically anisotropic half space: Dispersion interaction of a single-walled carbon nanotube with a substrate.Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures,28, C4A17.
Rajter, R., & French, R. H.(2010).Van der {Waals–London} dispersion interaction framework for experimentally realistic carbon nanotube systems.International Journal of Materials Research (formerly Zeitschrift fuer Metallkunde),101, 27–42.
Šiber, A., Rajter, R., French, R. H., Ching, W. H., Parsegian, V. H., & Podgornik, R. H.(2009).Dispersion interactions between optically anisotropic cylinders at all separations: Retardation effects for insulating and semiconducting single-wall carbon nanotubes.Physical Review B,80
French, R. H., Rodriguez-Parada, J. H., Yang, M. H., Derryberry, R. H., Flemons, T. H., Brownjohn, M. H., Haeger, C. H., Samuels, S. H., Romanov, V. H., & Richardson, R. H.().Optical properties of materials for concentrator photovoltaic systems..
Tran, H., Hendrickx, E., Van Roey, F., Vandenberghe, G., & French, R. H.().Fluid-photoresist interactions and imaging in high-index immersion lithography.Journal of {Micro/Nanolithography}, {MEMS} and {MOEMS},8, 033006.
Yang, S., Kaplan, S., French, R. H., & Burnett, J. H.(2009).Index of refraction of high-index lithographic immersion fluids and its variability.Journal of {Micro/Nanolithography}, {MEMS} and {MOEMS},8, 023005.
Rajter, R., French, R., Podgornik, R., Ching, W., & Parsegian, V.(2008).Spectral mixing formulations for van der {Waals–London} dispersion interactions between multicomponent carbon nanotubes.Journal of Applied Physics,104, 053513.
Yang, M., French, R., & Tokarsky, E.(2008).Optical properties of Teflon® {AF} amorphous fluoropolymers.Journal of {Micro/Nanolithography}, {MEMS} and {MOEMS},7, 033010.
Tran, H., Hendrickx, ., French, R. H., Adelman, . H., Rogado, . H., Kaku, . H., Mocella, M. H., Schmieg, J. H., Chen, C. H., Van Roey, F. H., Bernfeld, A. H., & Derryberry, R. H.(2008).High Refractive Index Fluid Evaluations at 193nm: Fluid Lifetime and {Fluid/Resist} Interaction Studies.Journal of Photopolymer Science and Technology,21, 631–639.
French, R., Tran, H., Adelman, D., Rogado, ., Kaku, M., Mocella, M., Chen, C., Hendrickx, E., Van Roey, F., Bernfeld, A., & Derryberry, R.().High-index immersion fluids enabling cost-effective single-exposure lithography for 32 nm half pitches..
Rajter, R., Podgornik, R., Parsegian, V., French, R., & Ching, W.(2007).van der {Waals–London} dispersion interactions for optically anisotropic cylinders: Metallic and semiconducting single-wall carbon nanotubes.Physical Review B,76
Tran, H., French, R., Adelman, D., Feldman, J., Qiu, W., Wheland, R., Brubaker, L., Fischel, B., Fones, B., Lemon, M., Yang, M., Nagao, O., Kaku, M., Mocella, M., & Schmieg, J.().Evaluation of Next Generation Fluids for {ArF} Immersion Lithography Beyond Water.Journal of Photopolymer Science and Technology,20, 729–738.
French, R. H., Liberman, V. H., Tran, H. H., Feldman, J. H., Adelman, D. H., Wheland, R. H., Qiu, W. H., McLain, S. H., Kaku, M. H., Mocella, M. H., Nagao, K. H., & Person, N. H.(2007).High-index immersion lithography with second-generation immersion fluids to enable numerical aperatures of 1.55 for cost effective 32-nm half pitches..
Rajter, R., Ching, W., Carter, J., Chiang, Y., & French, J.(2007).Calculating van der {Waals-London} dispersion spectra and Hamaker coefficients of carbon nanotubes in water from ab initio optical properties.Journal of Applied Physics,101, 054303.
French, R. H., Winey, K. H., Yang, S. H., & Qiu, W. H.(2007 ).Optical Properties and van der Waals–London Dispersion Interactions of Polystyrene Determined by Vacuum Ultraviolet Spectroscopy and Spectroscopic Ellipsometry.Australian Journal of Chemistry,60(251).
