Park, Jiwoong - University of Chicago - Department of Molecular Engineering

个人简介

Jiwoong Park is a Professor in Chemistry and Insitute of Molecular Engineering at the University of Chicago. His current research interests are studying the physical and chemical properties of nanoscale materials, including carbon nanotubes, graphene and transition metal dichalcogenides. His group’s research frequently appears on prestigious journals such as Nature, Science and Nature Nanotechnology. Professor Park is a recipient of the NSF CAREER award (2008), the Presidential Early Career Award for Scientists and Engineers (2009) and the Alfred P. Sloan Research Fellowship (2010). He received a B.S. degree in physics from Seoul National University (1996) and a Ph.D. in physics from the University of California, Berkeley (2003; advisor: Professor Paul McEuen). Before coming to the University of Chicago in 2016, he was one of the first Junior Rowland Fellows at the Rowland Institute at Harvard University (2003-2006) and was a assistant (2006-2012) professor and associate professor (2012-2016, with tenure) at Cornell University. Park currently serves as an Associate Editor of Nano Letters.

研究领域

The Park group research focuses on the science and technology of nanomaterials. Our research is multidisciplinary; the group includes researchers with diverse backgrounds, including chemistry, physics, material science, and electrical engineering. Atomically thin circuitry Nanostructure-based electronics and optoelectronics

近期论文

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Low-loss composite photonic platform based on 2D semiconductor monolayers. I. Datta, S. Chae, G. Bhatt, M. Tadayon, B. Li, Y Yu, C. Park, J. Park, L. Cao, D. Basov, and J. Hone Nature Photonics, in press. arXiv MoS2 pixel arrays for real-time photoluminescence imaging of redox molecules. M. F. Reynolds, M. H. D. Guimarães, H. Gao, K. Kang, A. J. Cortese, D. C. Ralph, J. Park, and P. L. McEuen Science Advances, 5, eaat9476 (2019). PDF Supplementary Atomic-scale visualization of electrochemical lithiation processes in monolayer MoS2 by cryogenic electron microscopy. S.-H. Yu, M. J. Zachman, K. Kang, H. Gao, X. Huang, F. J. DiSalvo, J. Park, L. F. Kourkoutis, and H. D. Abruña Advanced Energy Materials, DOI: 10.1002/aenm.201902773 (2019). PDF Supplementary The MoSeS dynamic omnigami paradigm for smart shape and composition programmable 2D materials. J. Berry, S. Risti, S. Zhou, J. Park, and D. J. Srolovitz Nature Communications, 10, 1-13 (2019). PDF Supplementary Wafer-scale synthesis of monolayer two-dimensional porphyrin polymers for hybrid superlattices. Y. Zhong, B. Cheng, C. Park, A. Ray, S. Brown, F. Mujid, J.-U. Lee, H. Zhou, J. Suh, K.-H. Lee, A. J. Mannix, K. Kang, S. J. Sibener, D. A. Muller and J. Park Science, DOI: 10.1126/science.aax9385 (2019). PDF (Also Read: UChicago News) Two-Dimensional Material Tunnel Barrier for Josephson Junctions and Superconducting Qubits. K.-H. Lee, S. Chakram, S. E. Kim, F. Mujid, A. Ray, H. Gao, C. Park, Y. Zhong, D. A. Muller, D. I. Schuster, and J. Park Nano Letters, 19, 8287-8293 (2019). PDF Supplementary Reversible MoS2 Origami with spatially Resolved and Reconfigurable Photosensitivity. W. Xu, T. Li, Z. Qin, Q. Huang, H. Gao, K. Kang, J. Park, M. J. Buehler, J. B. Khurgin, D. H. Gracias Nano Letters, 19, 7941-7949 (2019). PDF Supplementary Twist, slip, and circular dichroism in bilayer graphene. Z. Addison, J. Park, and E. J. Mele Phys. Rev. B, 100, 125418 (2019). PDF Capillary Origami with Atomically Thin Membranes. M. F. Reynolds, K. L. McGill, M. A. Wang, H. Gao, F. Mujid, K. Kang, J. Park, M. Z. Miskin, I. Cohen, P. L. McEuen Nano Letters, 9, 6221-6226 (2019). PDF Supplementary Stacking, strain, & twist in 2D materials quantified by 3D electron diffraction. S. H. Sung, N. Schnitzer, L. Brown, J. Park, and R. Hovden Physical Review Materials, 3, 064003 (2019). PDF Supplementary Stacking Angle-Tunable Photoluminescence from Interlayer Excitons in Twisted Bilayer Graphene. H. Patel, L. Huang, C.-J. Kim, J. Park, and M. W. Graham Nature Communications, 10, 1445 (2019). PDF Supplementary Electron ptychography of 2D materials to deep sub-ångström resolution, Y. Jiang, Z. Chen, Y. Han, P. Deb, H. Gao, S. Xie, P. Purohit1, M. W. Tate, J. Park, S. M. Gruner, V. Elser, and D. A. Muller Nature, 559, 343-350 (2018). PDF Video 1 Video 2 (Also read: News and Views) Strain Mapping of Two-Dimensional Heterostructures with Sub-Picometer Precision, Y. Han, K. Nguyen, M. Cao, P. Cueval, S. Xie, M. W. Tate, P. Purohit, S. M. Gruner, J. Park, and D. A. Muller Nano Letters, 18, 3746-3751 (2018). PDF Supplementary Coherent, atomically thin transition-metal dichalcogenide superlattices with engineered strain, S. Xie, L. Tu, Y. Han, L. Huang, K. Kang, K. U. Lao, P. Poddar, C. Park, D. A. Muller, R. A. DiStasio Jr., and J. Park Science, 359, 1131-1136 (2018). PDF Supplementary(Also read: UChicago News feature; Cornell Chronicle feature; Inverse feature; ZME Science) Tunable excitons in bilayer graphene, L. Ju, L. Wang, T. Cao, T. Taniguchi, K. Watanabe, S. G. Louie, F. Rana, J. Park, J. Hone, F. Wang, and P. L. McEuen Science, 358, 907-910 (2017). PDF Absence of a Band Gap at the Interface of a Metal and Highly Doped Monolayer MoS2, A. Kerelsky, A. Nipane, D. Edelberg, D. Wang, X. Zhou, A. Dadgar, H. Gao, S. Xie, K. Kang, J. Park, J. Teherani, and A. Pasupathy Nano Lett., 17, 5962-5968 (2017). PDF Supplementary Layer-by-layer assembly of two-dimensional materials into wafer-scale heterostructures, K. Kang*, K.-H. Lee*, Y. Han, H. Gao, S. Xie, D. A. Muller, J. Park (*equal contribution) Nature, 550, 229-233 (2017). PDF Supplementary Video 1 Video 2 (Also read: UChicago News) Control of spin-orbit torques through crystal symmetry in WTe2/ferromagnet bilayers, D. MacNeill, G. M. Stiehl, M. H. D. Guimaraes, R. A. Buhrman, J. Park, and D. C. Ralph Nature Physics, 13, 300-305 (2017). PDF Supplementary 2D materials advances: from large scale synthesis and controlled heterostructures to improved characterization techniques, defects and applications, Z. Lin, A. McCreary, N. Briggs, S. Subramanian, K. Zhang, Y. Sun, X. Li, N. J Borys, H. Yuan, S. K. Fullerton-Shirey, A. Chernikov, H. Zhao, S. McDonnell, A. M. Lindenberg, K. Xiao, B. J. LeRoy, M. Drndić, J. C. M. Hwang, J. Park, M. Chhowalla, R. E. Schaak, A. Javey, M. C. Hersam, J. Robinson, and M. Terrones 2D Materials, 3, 042001 (2017). PDF Atomically-thin graphene windows that enable high contrast electron microscopy without a specimen vacuum chamber, Y. Han, K. X. Nguyen, Y. Ogawa, J. Park, and D. A. Muller Nano Letters, 16, 7427-7432 (2016). PDF Supplementary