Journal Publications www.physics.oregonstate.edu/energetics/pub.html Oregon State University Publications: (f E Lab scientists underlined) 26. K. Vogt, S. Shi, F. Wang, and M. W. Graham, “Correlated ultrafast photoconductive and absorptive response in WSe2 show interlayer charge transfer determines device efficiency” in prep.
25.
J. Chmeliov, J. Narkeliunas, M. W. Graham, G. R. Fleming, L. Valkunas, “Exciton–Exciton Annihilation and Relaxation Pathways in Semiconducting Carbon Nanotubes” Nanoscale, doi:10.1039/C5NR06853C
24.
H. Patel, R. Havener, L. Brown, Y. Liang, L. Yang, J. Park and M.W. Graham (2015) “Tunable optical excitations in twisted bilayer graphene form strongly bound excitons” Nano Letters, 15, 5032
23.
Y. Liang, R. Soklaski, S. Huang, M. W. Graham, R. Havener, J. Park, L. Yang (2014) “New Mechanism for Strongly Bound Excitons in Gapless Two‐Dimensional Structures” Phys Rev B, 90, 115418 22.
M. W. Graham, ”Carbon nanotubes; captured on Camera” (2013) Nature Nanotechnology, (invited News & Views article), 8, 894‐5
Older Publications: 21. C.‐J. Kim, L. Brown, M. W. Graham, R. W. Havener, R. Hovden, P. L. McEuen, D. A. Muller, J. Park (2013) “Inversion Symmetry and Stacking Energy Landscape in Hexagonal Boron Nitride Bilayers,” Nano Letters, 13, 5660‐5
20.
M. W. Graham, S. Shi, Z. Wang, D. Ralph, J. Park and P.L. McEuen (2013) “Transient absorption and photocurrent microscopy show hot electron supercollisions describe the rate‐limiting relaxation step in graphene,” Nano Letters, 13, 5949‐5952
19.
J. Kwak, J. Hwang, M. Graham, H. Alsalman, N. Munoz, B. Calderon, D. Campbell, M.G. Spencer, (2013) “A high response MoS2‐graphene hetero‐junction photodetector with broad spectral range” IEEE Device Research DRC, 1‐2, 10.1109/DRC.2013.6633888
18.
M. W. Graham, S. Shi, D. Ralph, J. Park and P. L. McEuen, (2013) “Photocurrent measurements of supercollision cooling in graphene“ Nature Physics, 9, 103‐9
17.
M. W. Graham, S. Shi, D. Ralph, J. Park and P. L. McEuen, (2013) “Two‐ pulse space‐time photocurrent correlations at graphene p‐n junctions reveal hot carrier cooling dynamics near the Fermi level”, Eur Phys J: Ultrafast Phenomena XVIII, 41, 04026‐9
16.
M. W. Graham, T. Calhoun, A. Green, M. C. Hersam, G. R. Fleming, (2012) “Two‐dimensional electronic spectroscopy reveals the dynamics of phonon mediated excitation pathways in semiconducting single‐walled carbon nanotubes” Nano Letters, 12, 813‐819
15.
T. Calhoun, J. Davis, M. W. Graham , G. R. Fleming, (2012) “The Separation of Overlapping Transitions in ‐carotene with Broadband 2D Electronic Spectroscopy” Chem Phys Lett, 523, 1‐5
14.
M. W. Graham, Y.‐Z. Ma, A. Green, M. C. Hersam, G. R. Fleming, (2011) “Pure dephasing dynamics in semiconducting single‐walled carbon nanotubes,” Journal of Chemical Physics, 134, 034504 ‐17
M. W. Graham
Page 2
13.
M. W. Graham, J. Chmeliov, Y.‐Z. Ma, H. Shinohara, M.C. Hersam, L. Valkunas, G.R. Fleming, (2011) “Exciton Dynamics in Semiconducting Carbon Nanotubes” J Phys Chem B, 115, 5201‐11
12.
M.W. Graham, T. Calhoun, A. Green, M.C. Hersam, G.R. Fleming, (2010) “Two‐dimensional electronic spectroscopy of semiconducting single‐walled carbon nanotubes” Ultrafast Phenomena XVII (Oxford University Press), 221‐224
11.
J. Wang, M. W. Graham, Y.‐Z. Ma, G. R. Fleming, R. Kaindl, (2010) “Ultrafast Spectroscopy of Mid‐ infrared Internal Exciton Transitions in Separated Single‐Walled Carbon Nanotubes” Phys Rev Lett, 104, 177401‐4.
10.
J. Wang, M. W. Graham, Y.‐Z. Ma, G. R. Fleming, R. Kaindl, (2010) “Mid‐Infrared Intra‐Excitonic Response of Separated Single‐Walled Carbon Nanotubes”, Ultrafast Phenomena XVII (Oxford University Press), 218‐220
9.
T. Calhoun, J. Davis, M. Graham, G.R. Fleming, (2010) “Vibrationally mediated dynamics in ‐ carotene probed with broadband 2D electronic spectroscopy”, Ultrafast Phenomena XVII (Oxford University Press), 568‐570
8.
M. W. Graham, Y.‐Z. Ma , A. Green, M. C. Hersam, G.R. Fleming (2010) ”Exciton annihilation and dephasing dynamics in semiconducting single‐walled carbon nanotubes” Proc SPIE (invited paper), 76001F1, 1‐13
7.
D. Abramavicius, Y.‐Z. Ma, M. W. Graham, L. Valkunas, G. R. Fleming, (2009) “Exciton‐Exciton Annihilation Induces Dephasing in Semiconducting Single‐Walled Carbon Nanotubes” Phys Rev B, 79, 195445‐195451
6.
Y.‐Z. Ma, M. W. Graham, A. Green, M. C. Hersam, G. R. Fleming (2008) “Ultrafast Exciton Dephasing in Semiconducting Single‐Walled Carbon Nanotubes” Phys Rev Lett, 101, 217402‐6
5.
M. W. Graham, Y.‐Z. Ma, G. R. Fleming, (2008) “Femtosecond Photon Echo Spectroscopy of Semiconducting Single‐Walled Carbon Nanotubes” Nano Letters, 8 (11), 3936‐3941
4.
Y.‐Z. Ma, M. W. Graham and G. R. Fleming and A. Green and M. C. Hersam, (2008) “Exciton Dephasing in Semiconducting Single‐walled Carbon Nanotubes” Ultrafast Phenomena XVI, Springer Series in Chemical Physics, 92, 277‐9
3.
Y.‐Z. Ma, M. W. Graham, M. Prantil, A. Van Tassel, G. R. Fleming, (2008) “Femtosecond infrared spectroscopy of semiconducting single‐walled carbon nanotubes” J Phys Chem B, 112, 16030‐4
2.
Y.‐Z. Ma, M. W. Graham, L. Valkunas, S. M. Bachilo, G. R. Fleming, (2006) “Probing exciton dynamics of semiconducting single‐walled carbon nanotubes using photon echo spectroscopy” Ultrafast Phenomena XV, Springer Series in Chemical Physics, 88, 686‐8
1.
M. Salvador, M. W. Graham, G. D. Scholes (2006) “Exciton‐phonon coupling and disorder in the excited states of CdSe colloidal quantum dots” Journal of Chemical Physics, 125, 184709‐184725