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Recent Publications

S. Wieghold, L. Nienhaus, M. D. Rötzer, F. Knoller, F. F. Schweinberger, J. W. Lyding, U. Heiz, M. Gruebele and F. Esch, "Plasmonic support-mediated activation of 1 nm platinum clusters for catalysis," Phys. Chem. Chem. Phys. 19, 30570-30577 (2017). [LINK]

L. Zanetti-Polzi, C. M. Davis, M. Gruebele, R. B. Dyer, and I. Daidone, “Parallel folding pathways of Fip35 WW domain explained by infrared spectra and their computer simulation,” FEBS Lett. 591, 3265-3275 (2017). [LINK]

Z. Ghaemi, I. Guzman, D. Gnutt, Z. Luthey-Schulten, and M. Gruebele, “Role of electrostatics in protein–RNA binding: the global vs the local energy landscape,“ J. Phys. Chem. B 121, 8437-8446 (2017). [LINK]

S. Wieghold, L. Nienhaus, A. Siebel, M. Krause, P. Wand, M. Gruebele, U. Heiz, and F. Esch “Au(111)-supported platinum nanoparticles: ripening and activity,“ MRS Advances 2, 439-444 (2017). [LINK]

S.-H. Chao, J. Schäfer, and M. Gruebele, “The surface of protein λ6-85 can act as a template for recurring poly(ethylene glycol) structure,” Biochemistry 56, 5671-5678 (2017). [LINK]

S. Sukenik, P. Ren, and M. Gruebele, “Weak protein–protein interactions in live cells are quantified by cell-volume modulation,” Proc. Nat. Acad. Science USA 114, 6776-6781 (2017). [LINK]

L. Kisley, K. A. Serrano, D. Guin, X. Kong, M. Gruebele, and D. E. Leckband, “Direct imaging of protein stability and folding kinetics in hydrogels,” Appl. Mat. Interfaces 9, 21606-21617 (2017). [LINK]

D. Nguyen, H. A. Nguyen, J. Lyding, and M. Gruebele, "Imaging and manipulating energy transfer among quantum dots at individual dot resolution," ACS Nano 11, 6326-6335 (2017). [LINK]

E. Berrios, M. Gruebele, P. G. Wolynes, “Quantum controlled fusion,” Chem. Phys. Lett. 683, 216-221 (2017). [LINK]

M. Gruebele, J. M. Lisy, A. Scheeline, S. C. Zimmerman, “Chapter 2: Building a modern chemistry undergraduate program at Hanoi University of Science-Vietnam National University: A Vietnam−U.S. partnership,” in "Educational and Outreach Projects from the Cottrell Scholars Collaborative: Undergraduate and Graduate Education,” Feig and R. Waterman, eds. (ACS Publications) vol. 1248, p. 15-32, A (2017). [LINK]

K. Kachlishvili, K. Dave, M. Gruebele, H. A. Scheraga, G. G. Maisuradze, “Eliminating a protein folding intermediate by tuning a local hydrophobic contact,” J. Phys. Chem. B 121, 3276-3284 (2017). [LINK]

Z. Ghaemi, I. Guzman, J.-U. Baek, M. Gruebele and Z. Luthey-Schulten, “Estimation of relative protein–RNA binding strengths from fluctuations in the bound state,” J. Chem. Theor. Comp. 12, 4593-4599 (2016). [LINK]

N. Kocherginsky, and M. Gruebele, “Mechanical approach to chemical transport,” Proc. Natl. Acad. Sci USA 113, 11116-11121 (2016). [LINK]

J. C. Koepke, J. D. Wood, Y. Chen, S. W. Schmucker, X. Liu, N. N. Chang, L. Nienhaus, J. W. Do, E. A. Carrion, J. Hewaparakrama, A. Rangarajan, I. Datye, R. Mehta, R. T. Haasch, M. Gruebele, G. S. Girolami, E. Pop, and J. W. Lyding, " Role of Pressure in the Growth of Hexagonal Boron Nitride Thin Films from Ammonia-Borane," Chem. Mater. 28, 4169-4179 (2016). [LINK]

D. Nguyen, Z.-G. Zhu, B. Pringle, J. Lyding, W.-H. Wang, and M. Gruebele, “Composition-dependent metallic glass alloys correlate atomic mobility with collective glass surface dynamics,” Physical Chemistry Chemical Physics 18, 16856-16861 (2016). [LINK]