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Protein footprinting by pyrite shrink-wrap laminate. Lesser, M., Pegan, J., El Makkaoui, M., Schlatterer, J. C., Khine, M., Law, M., Brenowitz, M. Lab on a Chip, Accepted Manuscript (2015).
Generating free charges by carrier multiplication in quantum dots for highly-efficient photovoltaics. ten Cate, S., Sandeep, C. S. S., Liu, Y., Law, M., Kinge, S., Houtepen, A. J., Schins, J. M., Siebbeles, L. D. A. Acct. Chem. Res., ASAP (2015).
Carrier transport in PbS and PbSe QD films measured by photoluminescence quenching. Zhang, J., Tolentino, J., Smith, E., Zhang, J., Nozik, A., Beard, M., Law, M., Johnson, J. E. J. Phys. Chem. C, 118, 16228-16235 (2014).
An inversion layer at the surface of n-type iron pyrite. Limpinsel, M., Farhi, N., Berry, N., Lindemuth, J., Perkins, C. L., Lin, Q., Law, M. Energy & Environ. Sci., 7, 1974-1989 (2014).
Phonons do not assist carrier multiplication in PbSe quantum dot solids. ten Cate, S., Liu, Y., Schins, J. M., Law, M., Siebbeles, L. D. A. J. Phys. Chem. Lett., 4, 3257-3262 (2013).
Activating carrier multiplication in PbSe quantum dot solids by infilling with atomic layer deposition. ten Cate, S., Liu, Y., Sandeep, C. S. S., Kinge, S., Houtepen, A. J., Savenije, T. J., Schins, J. M., Law, M., Siebbeles, L. D. A. J. Phys. Chem. Lett., 4, 1766-1770
High charge carrier mobility enables exploitation of carrier multiplication in quantum dot films. Sandeep, C. S. S., ten Cate, S., Schins, J. M., Savenije, T. J., Liu, Y., Law, M., Kinge, S., Houtepen, A. J., Siebbeles, L. D. A. Nat. Comm., 4, Article 2360 (2013).
Gate-dependent carrier diffusion length in lead selenide quantum dot field-effect transistors. Otto, T., Miller, C., Tolentino, J., Liu, Y., Law, M., Yu, D. Nano Letters, 13, 3463-3469 (2013).
PbSe quantum dot field-effect transistors with air-stable electron mobilities above 7 cm2 V-1 s-1. Liu, Y., Tolentino, J., Gibbs, M., Ihly, R., Perkins, C. L., Liu, Y., Crawford, N., Hemminger, J. C., Law, M. Nano Letters, 13, 1578-1587 (2013).
Iron pyrite thin films synthesized from an Fe(acac)3 ink. Seefeld, S., Limpinsel, M., Liu, Y., Farhi, N., Zhang, Y. N., Berry, N., Kwon, Y. J., Perkins, C. L., Hemminger, J. C., Wu, R. Q., Law, M. JACS, 135, 4412-4424 (2013).
Pseudodielectric function and critical point energies of iron pyrite. Choi, S. G., Hu, J., Abdallah, L. S., Limpinsel, M., Zhang, Y. N., Zollner, S., Wu, R. Q., Law, M. Physical Review B, 86, 115207 (2012).
Increasing the band gap of iron pyrite by alloying with oxygen. Hu, J., Zhang, Y. N., Law, M., Wu, R. Q. JACS, 134, 13216-13219 (2012).
Atmospheric-pressure chemical vapor deposition of iron pyrite thin films. Berry, N., Cheng, M., Perkins, C. L., Limpinsel, M., Hemminger, J. C., Law, M. Advanced Energy Materials, 2, 1124-1135 (2012).
First-principles studies of the electronic properties of native and substitutional anionic defects in bulk iron pyrite. Hu, J., Zhang, Y. N., Law, M., Wu, R. Q. Physical Review B, 85, 085203 (2012).
The effect of surface stoichiometry on the band gap of the pyrite FeS2(100) surface. Zhang, Y. N., Hu, J., Law, M., Wu, R. Q. Physical Review B, 85, 085314 (2012).
The photothermal stability of PbS quantum dot solids. Ihly, R., Tolentino, J., Liu, Y., Gibbs, M., Law, M. ACS Nano, 5, 8175-8186 (2011).
Robust, functional nanocrystal solids by infilling with atomic layer deposition. Liu, Y., Gibbs, M., Perkins, C. L., Zarghami, M. H., Bustamante, Jr., J., Law, M. Nano Letters, 11, 5349-5355 (2011).
Colloidal iron pyrite (FeS2) nanocrystal inks for thin film photovoltaics. Puthussery, J., Seefeld, S., Berry, N., Gibbs, M., Law, M. JACS, 133, 716-719 (2011).
Semiconductor quantum dots and quantum dot arrays and applications of multiple exciton generation to third-generation photovoltaic solar cells. Nozik, A. J., Beard, M. C., Luther, J. M., Law, M., Ellingson, R. J., Johnson, J. C. Chemical Reviews, 110, 6873-6890 (2010).
Dependence of carrier mobility on nanocrystal size and ligand length in PbSe nanocrystal solids. Liu, Y., Gibbs, M., Puthussery, J., Gaik, S., Ihly, R., Hillhouse, H. W., Law, M. Nano Letters, 10, 1960-1969 (2010).
p-Type PbSe and PbS quantum dot solids prepared with short-chain acids and diacids. Zarghami, M. H., Liu, Y., Gibbs, M., Gebremichael, E., Webster, C., Law, M. ACS Nano, 4, 2475-2485 (2010).