Publications

2023

  1. Lapointe, V., Imperiale, C. J., Chengadu, S., Pomilio, C. M., Ganesh, M., Kéna-Cohen, S., & Majewski, M. B. (2023). Photonic enhancement in photoluminescent metal halide perovskite–photonic crystal bead hybrids. Chemical Communications, 59(69), 10380–10383.
  2. Sadeghi, S., Zanjani, S. M., Dayneko, S., Imperiale, C. J., Tintori, F., Kéna-Cohen, S., Shahalizad, A., & Pahlevani, M. (2023). Structural Engineering of Colloidal Quantum Dots: Towards Realization of Highly Efficient, Aerobic-Stable, and Droop-Free QLEDs. ArXiv Preprint ArXiv:2305.05825.
  3. Liu, J., Thériault, P.-L., Wu, W., Wen, Q., Kéna-Cohen, S., Kira, M., & Mi, Z. (2023). Ferroelectric AlScN as an Extreme Nonlinear Quantum Material beyond LiNbO3. Quantum 2.0, QW3B–5.
  4. Kéna-Cohen, S. (2023). An all-organic laser that is electrically driven. Nature Publishing Group UK London.

2022

  1. Patri, A., Stephane, K. Ê. N. A.-C. O. H. E. N., & Caloz, C. (2022). Method and devices for efficient manipulation of light using waveguide scatterer arrays.
  2. Kéna-Cohen, S. (2022). Near and Mid-Infrared Light-Emitting Diodes Based on Solution-Processable Semiconductors. Optical Devices and Materials for Solar Energy and Solid-State Lighting, PvTu1H–1.
  3. Datta, B., Khatoniar, M., Deshmukh, P., Thouin, F., Bushati, R., De Liberato, S., Cohen, S. K., & Menon, V. M. (2022). Highly nonlinear dipolar exciton-polaritons in bilayer MoS2. Nature Communications, 13(1), 6341.
  4. Datta, B., Khatoniar, M., Deshmukh, P., Bushati, R., De Liberato, S., Cohen, S. K., & Menon, V. M. (2022). Enhancing polariton nonlinearity via interlayer excitons in bilayer MoS2. CLEO: QELS_Fundamental Science, FF4N–4.
  5. Allen, R. T., Dhavamani, A., Son, M., Kena-Cohen, S., Zanni, M. T., & Arnold, M. S. (2022). Population of subradiant states in carbon nanotube microcavities in the ultrastrong light–matter coupling regime. The Journal of Physical Chemistry C, 126(19), 8417–8424.
  6. Tao, R., Peng, K., Haeberlé, L., Li, Q., Jin, D., Fleming, G. R., Kéna-Cohen, S., Zhang, X., & Bao, W. (2022). Halide perovskites enable polaritonic XY spin Hamiltonian at room temperature. Nature Materials, 21(7), 761–766.
  7. Ishii, T., Hatakeyama, T., Adachi, C., & Kéna-Cohen, S. (2022). Radiative pumping of exciton-polaritons via phosphorescence in organic microcavities.
  8. Kéna-Cohen, S., Ishii, T., Herrera, F., & Adachi, C. (2022). How do localized excited molecules populate delocalized polariton states?
  9. Peng, K., Tao, R., Haeberlé, L., Li, Q., Jin, D., Fleming, G. R., Kéna-Cohen, S., Zhang, X., & Bao, W. (2022). Room-temperature polariton quantum fluids in halide perovskites. Nature Communications, 13(1), 7388.
  10. Thouin, F., Myers, D. M., Patri, A., Baloukas, B., Martinu, L., & Kéna-Cohen, S. (2022). Broadband field-enhancement in epsilon-near-zero photonic gap antennas. ArXiv Preprint ArXiv:2211.05214.

2021

  1. Gu, J., Walther, V., Waldecker, L., Rhodes, D., Raja, A., Hone, J. C., Heinz, T. F., Kéna-Cohen, S., Pohl, T., & Menon, V. M. (2021). Enhanced nonlinear interaction of polaritons via excitonic Rydberg states in monolayer WSe 2. Nature Communications, 12(1), 1–7.
  2. Ishii, T., Miyata, K., Mamada, M., Bencheikh, F., Mathevet, F., Onda, K., Kéna-Cohen, S., & Adachi, C. (2021). Low-Threshold Exciton-Polariton Condensation via Fast Polariton Relaxation in Organic Microcavities. Advanced Optical Materials, 2102034.
  3. Datta, B., Khatoniar, M., Deshmukh, P., Bushati, R., De Liberato, S., Cohen, S. K., & Menon, V. M. (2021). Highly non-linear interlayer exciton-polaritons in bilayer MoS _2. ArXiv Preprint ArXiv:2110.13326.
  4. Ishii, T., Bencheikh, F., Forget, S., Chénais, S., Heinrich Benoı̂t, Kreher, D., Sosa Vargas, L., Miyata, K., Onda, K., Fujihara, T., & others. (2021). Enhanced Light–Matter Interaction and Polariton Relaxation by the Control of Molecular Orientation. Advanced Optical Materials, 9(22), 2101048.
  5. Patri, A., Cognée, K. G., Myers, D. M., Haeberlé, L., Menon, V., & Kéna-Cohen, S. (2021). Hybrid Epsilon-Near-Zero Modes of Photonic Gap Antennas. ArXiv Preprint ArXiv:2107.10301.
  6. Dhavamani, A., Haeberlé, L., Wang, J., Kéna-Cohen, S., & Arnold, M. S. (2021). Cavity-Mediated Hybridization of Bright and Dark Excitons in an Ultrastrongly Coupled Carbon Nanotube Microcavity. ACS Photonics, 8(8), 2375–2383.
  7. Patri, A., Cognée, K. G., Haeberlé, L., Menon, V., Caloz, C., & Kéna-Cohen, S. (2021). Photonic Gap Antennas Based on High Index-Contrast Slot-Waveguides. ArXiv Preprint ArXiv:2103.08814.
  8. Sridharan, A., Noel, N. K., Rand, B. P., & Kéna-Cohen, S. (2021). Role of Photon Recycling and Band Filling in Halide Perovskite Photoluminescence under Focussed Excitation Conditions. The Journal of Physical Chemistry C, 125(4), 2240–2249.
  9. Dhavamani, A., Haeberle, L., Wang, J., Kena-Cohen, S., & Arnold, M. (2021). Coupling Among Dark Excitons, Bright Excitons, and Photons in Semiconducting Carbon Nanotube Microcavity Polaritons. Bulletin of the American Physical Society.
  10. Shahalizad, A., Malinge, A., Hu, L., Laflamme, G., Haeberlé, L., Myers, D. M., Mao, J., Skene, W. G., & Kéna-Cohen, S. (2021). Efficient Solution-Processed Hyperfluorescent OLEDs with Spectrally Narrow Emission at 840 nm. Advanced Functional Materials, 31(1), 2007119.

2020

  1. Skene, W. G., & Kéna-Cohen, S. (2020). Efficient Solution-Processed Hyperfluorescent OLEDs with Spectrally Narrow Emission at 840 nm Afshin Shahalizad, Alexandre Malinge, Lei Hu, Grégory Laflamme, Louis Haeberlé, David M. Myers, Jian Mao.
  2. Mao, J., Ortiz, O., Wang, J., Malinge, A., Badia, A., & Kéna-Cohen, S. (2020). Langmuir–Blodgett fabrication of large-area black phosphorus-C 60 thin films and heterojunction photodetectors. Nanoscale, 12(38), 19814–19823.
  3. Martinez, L. A. M., Eizner, E., Kéna-Cohen, S., & Yuen-Zhou, J. (2020). Triplet harvesting in the polariton regime: a variational polaron approach. Organic and Hybrid Light Emitting Materials and Devices XXIV, 11473, 114730U.
  4. Wang, J., Rousseau, A., Yang, M., Low, T., Francoeur, S., & Kéna-Cohen, S. (2020). A Thin Film Black Phosphorus Light-Emitting Diode. 2020 Conference on Lasers and Electro-Optics (CLEO), 1–2.
  5. Sridharan, A., Noel, N. K., Rand, B. P., & Kéna-Cohen, S. (2020). Diffusion and photon recycling in halide perovskite thin films: insights from experiment and theory. Physical Chemistry of Semiconductor Materials and Interfaces XIX, 11464, 114640J.
  6. Walters, G., Haeberle, L., Quintero-Bermudez, R., Brodeur, J., Kena-Cohen, S., & Sargent, E. H. (2020). Directional light emission from layered metal halide perovskite crystals. The Journal of Physical Chemistry Letters, 11(9), 3458–3465.
  7. Keeling, J., & Kéna-Cohen, S. (2020). Bose–einstein condensation of exciton-polaritons in organic microcavities. Annual Review of Physical Chemistry, 71, 435–459.
  8. Martinez Martinez, L. A., Eizner, E., Kena-Cohen, S., & Yuen-Zhou, J. (2020). A variational approach for the dynamics of triplet harvesting in the polariton regime. Bulletin of the American Physical Society, 65.
  9. Mao, J., & Kena-Cohen, S. (2020). Langmuir-Blodgett of Black Phosphorus Thin Films and Photodiodes. Bulletin of the American Physical Society, 65.
  10. Wang, J., Rousseau, A., Yang, M., Low, T., Francoeur, S., & Kéna-Cohen, S. (2020). Mid-infrared polarized emission from black phosphorus light-emitting diodes. Nano Letters, 20(5), 3651–3655.

2019

  1. Sridharan, A., Noel, N. K., Hwang, H., Hafezian, S., Rand, B. P., & Kéna-Cohen, S. (2019). Time-resolved imaging of carrier transport in halide perovskite thin films and evidence for nondiffusive transport. Physical Review Materials, 3(12), 125403.
  2. Kena-Cohen, S. (2019). Room-temperature superfluidity of exciton-polaritons. APS March Meeting Abstracts, 2019, A44–003.
  3. Kéna-Cohen, S., & Yuen-Zhou, J. (2019). Polariton chemistry: Action in the dark. American Chemical Society.
  4. Eizner, E., Martı́nez-Martı́nez Luis A, Yuen-Zhou, J., & Kéna-Cohen, S. (2019). Inverting singlet and triplet excited states using strong light-matter coupling. Science Advances, 5(12), eaax4482.
  5. Hafezian, S., Beaini, R., Martinu, L., & Kéna-Cohen, S. (2019). Degradation mechanism of protected ultrathin silver films and the effect of the seed layer. Applied Surface Science, 484, 335–340.
  6. Martı́nez-Martı́nez Luis A, Eizner, E., Kéna-Cohen, S., & Yuen-Zhou, J. (2019). Triplet harvesting in the polaritonic regime: A variational polaron approach. The Journal of Chemical Physics, 151(5), 054106.
  7. Wang, J., Rousseau, A., Eizner, E., Phaneuf-L’Heureux, A.-L., Schue, L., Francoeur, S., & Kéna-Cohen, S. (2019). Spectral responsivity and photoconductive gain in thin film black phosphorus photodetectors. ACS Photonics, 6(12), 3092–3099.
  8. Patri, A., Kena-Cohen, S., & Caloz, C. (2019). Large-Angle, Broadband, and Multifunctional Directive Waveguide Scatterer Gratings. Acs Photonics, 6(12), 3298–3305.
  9. Patri, A., Jia, X., Mohsin, M., Kéna-Cohen, S., & Caloz, C. (2019). Compact grating coupler using asymmetric waveguide scatterers. Frontiers in Optics, JW4A–80.
  10. Brodeur, J., Hu, L., Malinge, A., Eizner, E., Skene, W. G., & Kéna-Cohen, S. (2019). Highly Efficient and Spectrally Narrow Near-Infrared Fluorescent OLEDs Using a TADF-Sensitized Cyanine Dye. Advanced Optical Materials, 7(22), 1901144.
  11. Kéna-Cohen, S. (2019). Manipulating Light and Matter using Strong Light-Matter Coupling. Frontiers in Optics, FTu5F–1.
  12. Patri, A., Kéna-Cohen, S., & Caloz, C. (2019). Polarizing Beamsplitter Grating based on Asymmetric Slot Waveguide Scatterer. 2019 Thirteenth International Congress on Artificial Materials for Novel Wave Phenomena (Metamaterials), X–302.

2018

  1. Kena-Cohen, S., Lerario, G., Fieramosca, A., Barachati, F., Daskalakis, K., Ballarini, D., & Sanvitto, D. (2018). Room-temperature superfluidity of organic polaritons. APS March Meeting Abstracts, 2018, L03–002.
  2. Kena-Cohen, S., Barachati, F., & Eizner, E. (2018). Organic polariton devices. APS March Meeting Abstracts, 2018, X02–010.
  3. Martı́nez-Martı́nez Luis A, Du, M., Ribeiro, R. F., Kéna-Cohen, S., & Yuen-Zhou, J. (2018). Polariton-assisted singlet fission in acene aggregates. The Journal of Physical Chemistry Letters, 9(8), 1951–1957.
  4. Brodeur, J., Arguel, R., Hafezian, S., Barachati, F., & Kéna-Cohen, S. (2018). Nearly 40% outcoupling efficiency in OLEDs with all-metal electrodes. Applied Physics Letters, 113(4), 041105.
  5. Barachati, F. S., Fieramosca, A., Hafezian, S., Gu, J., Chakraborty, B., Ballarini, D., Martinu, L., Menon, V. M., Sanvitto, D., & Kéna-Cohen, S. (2018). Interacting polariton fluids in a monolayer of tungsten disulfide. Nature Nanotechnology, 13, 906–909.
  6. Kéna-Cohen, S. (2018). Cavity QED Effects in Molecular Systems. Encyclopedia of Modern Optics, 445.
  7. Barachati, F., Simon, J., Getmanenko, Y. A., Barlow, S., Marder, S. R., & Kéna-Cohen, S. (2018). Tunable third-harmonic generation from polaritons in the ultrastrong coupling regime. Acs Photonics, 5(1), 119–125.
  8. Bobrovska, N., Matuszewski, M., Daskalakis, K. S., Maier, S. A., & Kéna-Cohen, S. (2018). Dynamical instability of a nonequilibrium exciton-polariton condensate. ACS Photonics, 5(1), 111–118.
  9. Eizner, E., Brodeur, J., Barachati, F., Sridharan, A., & Kéna-Cohen, S. (2018). Organic photodiodes with an extended responsivity using ultrastrong light–matter coupling. ACS Photonics, 5(7), 2921–2927.

2017

  1. Roth, D. J., Krasavin, A. V., Wade, A., Dickson, W., Murphy, A., Kéna-Cohen, S., Pollard, R., Wurtz, G. A., Richards, D., Maier, S. A., & others. (2017). Spontaneous emission inside a hyperbolic metamaterial waveguide. Acs Photonics, 4(10), 2513–2521.
  2. Sun, Z., Gu, J., Ghazaryan, A., Shotan, Z., Considine, C. R., Dollar, M., Chakraborty, B., Liu, X., Ghaemi, P., Kéna-Cohen, S., & others. (2017). Optical control of room-temperature valley polaritons. Nature Photonics, 11(8), 491–496.
  3. Kena-Cohen, S. (2017). Room-temperature polariton condensation and superfluidity in an organic microcavity. APS March Meeting Abstracts, 2017, L19–001.
  4. Daskalakis, K. S., Maier, S. A., & Kéna-Cohen, S. (2017). Polariton condensation in organic semiconductors. In Quantum Plasmonics (pp. 151–163). Springer, Cham.
  5. Lerario, G., Fieramosca, A., Barachati, F., Ballarini, D., Daskalakis, K. S., Dominici, L., De Giorgi, M., Maier, S. A., Gigli, G., Kéna-Cohen, S., & others. (2017). Room-temperature superfluidity in a polariton condensate. Nature Physics, 13(9), 837–841.

2016

  1. Forrest, S. R., Kena-Cohen, S., & Giebink, N. (2016). Organic laser.
  2. Sanvitto, D., & Kéna-Cohen, S. (2016). The road towards polaritonic devices. Nature Materials, 15(10), 1061–1073.
  3. Hafezian, S., Maloney, K., Lefebvre, J., Martinu, L., & Kéna-Cohen, S. (2016). Continuous ultrathin silver films deposited on SiO2 and SiNx using a self-assembled monolayer. Applied Physics Letters, 109(12), 121603.
  4. Wang, L., Moghe, D., Hafezian, S., Chen, P., Young, M., Elinski, M., Martinu, L., Kéna-Cohen, S., & Lunt, R. R. (2016). Alkali metal halide salts as interface additives to fabricate hysteresis-free hybrid perovskite-based photovoltaic devices. ACS Applied Materials & Interfaces, 8(35), 23086–23094.
  5. Forrest, S. R., Kena-Cohen, S., & Giebink, N. (2016). Organic laser.

2015

  1. Kossoy, A., Merk, V., Simakov, D., Leosson, K., Kéna-Cohen, S., & Maier, S. A. (2015). Optical and structural properties of ultra-thin gold films. Advanced Optical Materials, 3(1), 71–77.
  2. Daskalakis, K. S., Maier, S. A., & Kéna-Cohen, S. (2015). Spatial coherence and stability in a disordered organic polariton condensate. Physical Review Letters, 115(3), 035301.
  3. Barachati, F., De Liberato, S., & Kéna-Cohen, S. (2015). Generation of Rabi-frequency radiation using exciton-polaritons. Physical Review A, 92(3), 033828.
  4. Liu, X., Galfsky, T., Sun, Z., Xia, F., Lin, E.-chen, Lee, Y.-H., Kéna-Cohen, S., & Menon, V. M. (2015). Strong light–matter coupling in two-dimensional atomic crystals. Nature Photonics, 9(1), 30–34.
  5. Daskalakis, K. S., Maier, S. A., & Kéna-Cohen, S. (2015). Spatial coherence in a disordered organic polariton condensate. Gas].
  6. Sun, Z., Liu, X., Huang, H.-H., Tseng, Y.-W., Lee, Y.-H., Cohen, S. K., & Menon, V. M. (2015). Pseudospin selective microcavity polariton emission from two-dimensional atomic crystal. CLEO: QELS_Fundamental Science, FTu1E–7.

2014

  1. Liu, X., Appavoo, K., Sfeir, M. Y., Kéna-Cohen, S., & Menon, V. M. (2014). Stimulated polariton emission from ZnO-nanoparticles based microcavity. 2014 Conference on Lasers and Electro-Optics (CLEO)-Laser Science to Photonic Applications, 1–2.
  2. Daskalakis, K. S., Maier, S. A., Murray, R., & Kéna-Cohen, S. (2014). Nonlinear interactions in an organic polariton condensate. Nature Materials, 13(3), 271–278.
  3. Di Martino, G., Sonnefraud, Y., Tame, M. S., Kéna-Cohen, S., Dieleman, F., Özdemir, Ş. K., Kim, M. S., & Maier, S. A. (2014). Observation of quantum interference in the plasmonic Hong-Ou-Mandel effect. Physical Review Applied, 1(3), 034004.
  4. Sonnefraud, Y., Di Martino, G., Tame, M. S., Kéna-Cohen, S., Dieleman, F., Ozdemir, S. K., Kim, M., & Maier, S. A. (2014). Observation of quantum interference in the plasmonic Hong-Ou-Mandel effect (presentation video). Plasmonics: Metallic Nanostructures and Their Optical Properties XII, 9163, 916322.
  5. Sonnefraud, Y., Di Martino, G., Tame, M., Kéna-Cohen, S., Dieleman, F., Özdemir, S. K., Kim, M. S., & Maier, S. A. (2014). Observation of quantum interference in the plasmonic Hong-Ou-Mandel effect. 2014 16th International Conference on Transparent Optical Networks (ICTON), 1–1.
  6. Xiaoze, L., Appavoo, K., Sfeir, M. Y., Kéna-Cohen, S., & Menon, V. M. (2014). Stimulated polariton emission from ZnO-nanoparticles based microcavity.
  7. Liu, X., Galfsky, T., Xia, F., Lin, E.-chen, Lee, Y.-H., Ramasubramaniam, A., Kéna-Cohen, S., & Menon, V. M. (2014). Strong light-matter coupling in atomic monolayers. 2014 Conference on Lasers and Electro-Optics (CLEO)-Laser Science to Photonic Applications, 1–2.
  8. Gubbin, C. R., Maier, S. A., & Kéna-Cohen, S. (2014). Low-voltage polariton electroluminescence from an ultrastrongly coupled organic light-emitting diode. Applied Physics Letters, 104(23), 85_1.

2013

  1. Kéna-Cohen, S., Maier, S. A., & Bradley, D. D. C. (2013). Ultrastrongly Coupled Exciton–Polaritons in Metal-Clad Organic Semiconductor Microcavities. Advanced Optical Materials, 1(11), 827–833.
  2. Kéna-Cohen, S. (2013). Polariton Condensation in Organic Semiconductor Materials.
  3. Mazza, L., Kéna-Cohen, S., Michetti, P., & La Rocca, G. C. (2013). Microscopic theory of polariton lasing via vibronically assisted scattering. Physical Review B, 88(7), 075321.
  4. Kéna-Cohen, S., Stavrinou, P. N., Bradley, D. D. C., & Maier, S. A. (2013). Confined surface plasmon–polariton amplifiers. Nano Letters, 13(3), 1323–1329.

2012

  1. Forrest, S. R., Lunt, R. R., Kena-Cohen, S., & Lassiter, B. E. (2012). Structural templating for organic electronic devices having an organic film with long range order.
  2. Di Martino, G., Sonnefraud, Y., Kéna-Cohen, S., Tame, M., Ozdemir, S. K., Kim, M. S., & Maier, S. A. (2012). Quantum statistics of surface plasmon polaritons in metallic stripe waveguides. Nano Letters, 12(5), 2504–2508.
  3. Kéna-Cohen, S., & Forrest, S. R. (2012). Exciton–Polaritons in Organic Semiconductor Optical Microcavities. Exciton Polaritons in Microcavities, 349–375.
  4. Lei, D. Y., Kéna-Cohen, S., Zou, B., Petrov, P. K., Sonnefraud, Y., Breeze, J., Maier, S. A., & Alford, N. M. (2012). Spectroscopic ellipsometry as an optical probe of strain evolution in ferroelectric thin films. Optics Express, 20(4), 4419–4427.
  5. Sivan, Y., Sonnefraud, Y., Kéna-Cohen, S., Pendry, J. B., & Maier, S. A. (2012). Nanoparticle-assisted stimulated-emission-depletion nanoscopy. ACS Nano, 6(6), 5291–5296.

2011

  1. McCarron, R., Dickson, W., Bouillard, J.-S., Kéna-Cohen, S., Stavrinou, P., Bradley, D. D. C., Maier, S. A., & Zayats, A. V. (2011). Electrically-driven surface plasmon polariton generation using conjugated polymers. European Quantum Electronics Conference, EJ3_2.
  2. Dickson, W., McPhillips, J., Kena-Cohen, S., Murphy, A., O’Connor, D., Beckett, S., Pollard, R., Stavrinou, P., Bradley, D., Maier, S., & others. (2011). Towards optical gain in plasmonic metamaterials. META’12.
  3. Kéna-Cohen, S., Stavrinou, P. N., Bradley, D. D. C., & Maier, S. A. (2011). Random lasing in low molecular weight organic thin films. Applied Physics Letters, 99(4), 041114.
  4. Kéna-Cohen, S., Wiener, A., Sivan, Y., Stavrinou, P. N., Bradley, D. D. C., Horsfield, A., & Maier, S. A. (2011). Plasmonic sinks for the selective removal of long-lived states. ACS Nano, 5(12), 9958–9965.

2010

  1. Kéna-Cohen, S. (2010). Strong exciton-photon coupling in organic semiconductor microcavities [PhD thesis]. Princeton University.
  2. Kéna-Cohen, S., & Forrest, S. R. (2010). Room-temperature polariton lasing in an organic single-crystal microcavity. Nature Photonics, 4(6), 371–375.

2009

  1. Lunt, R. R., Kéna-Cohen, S., Benziger, J. B., & Forrest, S. R. (2009). Measurement of the mean inner potentials of anthracene and naphthalene. Physical Review Letters, 102(6), 065504.

2008

  1. Kéna-Cohen, S., Davanço, M., & Forrest, S. R. (2008). Strong exciton-photon coupling in an organic single crystal microcavity. Physical Review Letters, 101(11), 116401.
  2. Kena-Cohen, S., & Forrest, S. R. (2008). Giant Davydov splitting of the lower polariton branch in a polycrystalline tetracene microcavity. Physical Review B, 77(7), 073205.
  3. Kéna-Cohen, S., Davanço, M., & Forrest, S. R. (2008). Resonant Rayleigh scattering from an anisotropic organic single-crystal microcavity. Physical Review B, 78(15), 153102.

2007

  1. Kena-Cohen, S., & Forrest, S. R. (2007). Green polariton photoluminescence in organic microcavities containing the red-emitting phosphor PtOEP. APS March Meeting Abstracts, N24–001.
  2. Kéna-Cohen, S., & Forrest, S. R. (2007). Green polariton photoluminescence using the red-emitting phosphor PtOEP. Physical Review B, 76(7), 075202.

2006

  1. Kanno, H., Holmes, R. J., Sun, Y., Kena-Cohen, S., & Forrest, S. R. (2006). White stacked electrophosphorescent organic light-emitting devices employing MoO3 as a charge-generation layer. Advanced Materials, 18(3), 339–342.
  2. Holmes, R. J., Kéna-Cohen, S., Menon, V. M., & Forrest, S. R. (2006). Strong coupling and hybridization of Frenkel and Wannier-Mott excitons in an organic-inorganic optical microcavity. Physical Review B, 74(23), 235211.
  3. Kéna-Cohen, S., Holmes, R. J., Menon, V. M., & Forrest, S. R. (2006). Hybridization of Frenkel and Wannier-Mott excitons in an optical microcavity. Quantum Electronics and Laser Science Conference, QThK4.