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  <title><![CDATA[PhD Defense by Victoria Quirós-Cordero]]></title>
  <body><![CDATA[<p>&nbsp;</p><p><strong>Victoria Quirós-Cordero</strong></p><p><em>Advisors:&nbsp;Dr. Natalie Stingelin, Dr. Carlos Silva-Acuña</em></p><p>&nbsp;</p><p><em>will defend a&nbsp;doctoral&nbsp;thesis&nbsp;entitled,</em></p><p><strong>ELUCIDATING EXCITON-POLARITONS IN ORGANIC AND TWO-DIMENSIONAL</strong><br><strong>METAL HALIDE SEMICONDUCTORS</strong></p><p>&nbsp;</p><p><em>On</em></p><p><strong>Tuesday, June 4th at 10:00 a.m.</strong></p><p><strong>MoSE&nbsp;Room&nbsp;1222</strong></p><p>&nbsp;</p><p><em>And virtually via</em></p><p><a href="https://teams.microsoft.com/dl/launcher/launcher.html?url=%2F_%23%2Fl%2Fmeetup-join%2F19%3Ameeting_MGNhOGZkNzgtODM3ZS00MDUyLTliMGItNjYzY2Q2MTRlMTg5%40thread.v2%2F0%3Fcontext%3D%257b%2522Tid%2522%253a%2522482198bb-ae7b-4b25-8b7a-6d7f32faa083%2522%252c%2522Oid%2522%253a%252290cf9ede-afe0-4236-b6aa-16ec4e6642ef%2522%257d%26anon%3Dtrue&amp;type=meetup-join&amp;deeplinkId=9609ad90-e956-43a2-8ebf-02463fbf6b16&amp;directDl=true&amp;msLaunch=true&amp;enableMobilePage=true&amp;suppressPrompt=true" title="https://teams.microsoft.com/dl/launcher/launcher.html?url=%2F_%23%2Fl%2Fmeetup-join%2F19%3Ameeting_MGNhOGZkNzgtODM3ZS00MDUyLTliMGItNjYzY2Q2MTRlMTg5%40thread.v2%2F0%3Fcontext%3D%257b%2522Tid%2522%253a%2522482198bb-ae7b-4b25-8b7a-6d7f32faa083%2522%252c%2522"><em>Microsoft Teams (click here to join)</em></a></p><p>&nbsp;</p><p>Meeting ID: 273 938 411 78</p><p>Passcode:&nbsp;B7eRyu</p><p>&nbsp;</p><p><strong>Abstract</strong></p><p>Exciton-polaritons combine properties of light (i.e., low effective mass, delocalization) and electron-hole pairs bound by Coulombic forces or excitons (i.e., many-body interactions), opening doors for light-based computing, long-range energy harvesting, and tunable chemical reactivity, to name a few of their applications. Polaritons emerge in semiconductors placed within optical microcavities when non-dissipative, coherent energy exchange between excitons and the microcavity optical modes (i.e., standing electromagnetic waves) dominates over the system's energy losses. This regime is also known as strong light-matter coupling.</p><p>&nbsp;</p><p>This Ph.D. thesis overcomes challenges of exciton-polaritons in organics and two-dimensional metal halide semiconductors at two distinct fronts: the fabrication of photonic structures with strong light-matter coupling and the characterization of exciton-polariton photophysics. We enable polaritons in a wider variety of materials by developing non-destructive fully solution-processed microcavities, which offer the required electromagnetic field enhancements for strong light-matter coupling and are highly compatible with temperature-sensitive semiconductors. These microcavity structures are produced from solution at ambient conditions using common processing methods (i.e., dip coating) and comprise a high-refractive-index titanium oxide hydrate/poly(vinyl alcohol) hybrid material and low-refractive-index commodity polymers. On the other front, we identify nonlinear processes that build up and hinder the population of exciton-polaritons in these material classes. We resolve nonlinear processes that are faster than the polariton lifetime (&lt;&lt;1 ps) and comparable to the exciton lifetime (&gt;&gt;1 ps) by utilizing excitation correlation photoluminescence spectroscopy and two-dimensional coherent spectroscopy, respectively. This is a key milestone towards developing guidelines for populating large ensembles of exciton-polaritons, as required for polariton-based technologies. The work presented in this thesis moves us forward toward practical applications of room-temperature exciton-polaritons.</p><p>&nbsp;</p><p><strong>Committee</strong></p><ul><li>Dr. Natalie Stingelin – Schools of MSE &amp; ChBE, Georgia Institute of Technology (advisor)</li><li>Dr. Carlos Silva-Acuña – School of Physics, Université de Montréal (advisor)</li><li>Dr. Juan-Pablo Correa-Baena –&nbsp;School&nbsp;of&nbsp;MSE, Georgia Institute of Technology</li><li>Dr. Antonio Facchetti – School of MSE, Georgia Institute of Technology</li><li>Dr. Joshua Kretchmer – School of Chemistry, Georgia Institute of Technology</li><li>Dr. Phillip N. First&nbsp;– School of Physics, Georgia Institute of Technology</li><li>Dr. Vinod Menon – School of Physics, City University of New York</li></ul><p>&nbsp;</p><p>&nbsp;</p>]]></body>
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