Tracy Quan is a Spanish applied linguist who researches second and heritage language development and education, study abroad, identity, and critical pedagogies. In particular, she is interested in exploring how language learning and teaching can be a transformative or oppressive experience depending on context, background, and approaches. She holds a PhD in Hispanic linguistics with a designated emphasis in Second Language Acquisition from University of California, Davis. She has published in venues such as Bilingual Research Journal, L2 Journal, and Study Abroad Research in Second Language Acquisition and International Education, as well as in the Routledge Handbook of Study Abroad Research and Practice. To learn more, visit www.quantracy.com

There is a strong demand for new semiconductors and technologies toward clean energy harvesting and energy efficient devices, as well as high impact opportunities for quantum material discoveries for applications in information science. Discovery and development of new quantum materials will be key to drive future computation, information storage, sensor devices, and other energy related technologies.

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The Quan research group aims to new hybrid semiconductor synthesis and processing that can provide another platform to revolutionize the solid-state chemistry to realize materials ideally suited for quantum information science and energy related technology. We are also interested in time-resolved optical study and dynamic control of structural changes in quantum materials as a function of energy, space, and time.

We will focus on 1) preparation and investigation of well-defined, high-quality semiconducting nanomaterials and the synthesis and modification of quantum materials that have effectively controllable crystal symmetry, defects, and heterogeneities at the nanoscale, 2) unraveling time-resolved dynamics in light-induced electronic response of quantum materials at ultrafast time scale. This is an exciting new frontier that combines advanced imaging and dynamics techniques to address fundamental questions regarding structural and excited state dynamics in new emerging materials. These research projects will provide participating students with broad interdisciplinary training across chemistry, materials science and physics.

We are currently developing new and improved methods that expand the capability of single-molecule fluorescence spectroscopy in solution. Building on a platform technology known as anti-Brownian Electrokinetic (ABEL) trapping to control a single biomolecule in solution, we simultaneously measure single-molecular size, charge (Nat. Methods 11, 555) and conformations (Nat. Methods 18, 816), together with their time-dependent dynamics in real time. These capabilities provide rich quantitative information on the oligomerization, phosphorylation and structural states and state transitions on a single biomolecule, and serve as a unique observation window into a wide range of biological processes.

We are broadly interested in the fundamental link between the physical properties of biological molecules, nanoscale dynamics and biological functions. For example, how does protein complexes assemble to become catalytically active; how does electric charge affect biomolecular interactions; what are the molecular-scale structure and dynamics that define biological liquid condensates. We conduct quantitative biophysical measurements at the single-molecule level and seek to gain physical insights by quantitative modeling. be457b7860

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