Professor Yue Wu started his undergraduate education at Peking University in 1978. In 1979, he moved from China to Belgium to study at the University of Leuven (Katholieke Universiteit Leuven) majoring in physics and received his B.S. degree in physics (Magna Cum Laude) in July 1983. Professor Yue Wu began his graduate study at the University of Leuven in October 1983 under Professor Andre Stesmans and received his Ph.D. degree (Summa Cum Laude) in physics in December 1987. His Ph.D. work was on the study of defects in hydrogenated amorphous silicon films using magnetic resonance techniques.

After receiving his Ph.D. degree, Professor Yue Wu joined the group of Professor Alexander Pines in 1988 at the Chemistry Department of UC Berkeley as a postdoctoral research associate. There, he worked on the development of new solid-state nuclear magnetic resonance (NMR) techniques and applied such new techniques in the study of novel materials, especially porous materials. Professor Yue Wu started as an assistant professor in the Department of Physics and Astronomy, the University of North Carolina at Chapel, in 1991, and was promoted to associate professor in 1998, and professor in 2003. He is currently the Kenan distinguished professor at UNC-CH and an elected fellow of the American Physical Society.

Professor Yue Wu’s research at UNC focuses mainly on two areas. One is the study of nanomaterials (Science 288, 492 (2000)) and the other is the study of non-crystalline metallic alloys, especially the structures and dynamics of metallic supercooled liquids and glasses (Nature 402, 160 (1999)). His current research focuses on the interactions of molecules (in gas or liquid phase) with nanostructured materials. Molecules confined in nanometer-scaled regions have unique properties due to interactions with surfaces and size effect (Science 294, 1505 (2001); Science 322, 80 (2008)).

Current research topics at Professor Yue Wu’s group include the study of interactions between anesthetic molecules with proteins, proteins with nanotubular materials, hydrogen storage in high surface area materials, methane storage in shales, electrochemical processes in nanoporous electrode materials, dielectric and surface properties of nanomaterials, and structures and dynamics of metallic supercooled liquids and glasses.

Selected Publications

Publications

• “Probing local magnetic cluster development in (CuZr)93-xAl7Gdx bulk metallic glasses by 27Al NMR”
M. T. Sandor, X. K. Xi, J. Q. Wang, H. Y. Bai, W. H. Wang, Y. Wu
Journal of Magnetism and Magnetic Materials 324, 173-177 (2012)



• “Correlation of mechanical properties in bulk metallic glasses with 27Al NMR characteristics”
M. T. Sandor, L. J. Kecskes, Q. He, J. Xu, and Y. Wu
Chinese Science Bulletin, in press.
• “Influence of the size of spraying powders on the microstructure and corrosion resistance of Fe-based amorphous coating”
C. Zhang, R. Q. Guo, Y. Yang, Y. Wu, L. Lin
Electrochimica Acta 56, 6380-6388 (2011)
• “Temperature dependence of lysozyme hydration and the role of elastic energy”
Hai-Jing Wang, Alfred Kleinhammes, Pei Tang, Yan Xu, Yue Wu
Physical Review E 83, 031924 (2011).
• “Bonding characters of Al-containing bulk metallic glasses studied by 27Al NMR”
X. K. Xi, M. T. Sandor, H. J. Wang, J. Q. Wang, W. H. Wang, Y. Wu.
Journal of Physics-Condensed Matter 23, 115501 (2011).

• “Relating activation of shear transformation zones to β relaxations in metallic glasses”
H. B. Yu, W. H. Wang, H. Y. Bai, Y. Wu, M. W. Chen
Physical Review B 81, 220201 (2010).
• “NMR Methods for Characterizing the Pore Structures and Hydrogen Storage Properties of Microporous Carbons”
R. J. Anderson, T. P. McNicholas, A Kleinhammes, A. M. Wang, J. Liu, and Yue Wu.
Journal of the American Chemical Society 132, 8618-8626 (2010).
• “H2 Storage in Microporous Carbons from PEEK Precursors”
T. P. McNicholas, A. M. Wang, K. O’Neill, R. J. Anderson, N. P. Stadie, A Kleinhammes, P. Parilla, L. Simpson, C. C. Ahn, Y. Q. Wang, Yue Wu, and J. Liu.
Journal of Physical Chemistry C 114, 13902-13908 (2010).
• “Enhanced Binding Energy and Slow Kinetics of H-2 in Boron-Substituted Graphitic Carbon”
A. Kleinhammes, R. J. Anderson, Q. Chen, Y. Jeong, T. C. M. Chung, Yue Wu.
Journal of Physical Chemistry C 114, 13705-13708 (2010).

• “Mechanism of Aging Effect on Viscoelasticity in Ethylene-Methacrylic Acid Ionomer Studied by Local Thermal-Mechanical Analysis”
Harsha P. Kulkarni, Gregory Mogilevsky, William. M. Mullins, and Yue Wu
Journal of Materials Research 24, 1087-1092 (2009).
• “Structural changes induced by microalloying in CuZrAl(Gd) metallic glasses”
Xue-Kui Xi, Magdalena Traico Sandor, Yan-Hui Liu, Wei-Hua Wang, Yue Wu
Scripta Materialia 61, 967-969 (2009).
• “Active anatase (0 01)-like surface of hydrothermally synthesized titania nanotubes”
Qiang Chen, Gregory Mogilevsky, George W. Wagner, Jacob Forstater, Alfred Kleinhammes, Yue Wu
Chemical Physics Letters 482, 134-138 (2009).
• “Synthesis of micro-porous boron-substituted carbon (B/C) materials using polymeric precursors for hydrogen physisorption”
T. C. Mike Chung, Youmi Jeong, Alfred Kleinhammes, and Yue Wu
ECS Transactions 19, 57-66 (2009).

• “NMR Study of Liquid to Solid Transition in a Glass Forming Metallic System”
Lilong Li and Yue Wu
Journal of Chemical Physics 128, 052307 (2008).
• “Layered nanostructures of delaminated anatase: nanosheets and nanotubes”
Gregory Mogilevsky, Qiang Chen, Harsha Kulkarni, Alfred Kleinhammes, William M. Mullins, and Yue Wu
Journal of Physical Chemistry C 112, 3239-3246 (2008).
• “The Molecular Dynamics and Phase Behavior of the Confined Racemic Ibuprofen in Titania Nanotube Studied by NMR”
Xiao-Ping Tang, Nitzia Cheong Ng, Hien Nguyen, Greg Mogilevsky, and Yue Wu
Chemical Physics Letters 452, 289-295 (2008).
• “Synthesis of Micro-Porous Boron-Substituted Carbon (B/C) Materials Using Polymeric Precursors for Hydrogen Physisorption”
T. C. Mike Chung, Youmi Jeong, Qiang Chen, Alfred Kleinhammes, and Yue Wu
Journal of the American Chemical Society 130, 6668-6669 (2008).
• “Identification of Endohedral Water in Single-Walled Carbon Nanotubes by 1H NMR”
Qiang Chen, Julie L. Herberg, Gregory Mogilevsky, Hai-Jing Wang, Michael Stadermann, Jason K. Holt, Yue Wu
Nano Letters 8, 1902-1905 (2008).
• “The structure of multilayered titania nanotubes based on delaminated anatase”
Gregory Mogilevsky, Qiang Chen, Alfred Kleinhammes, and Yue Wu
Chemical Physics Letters 460, 517–520 (2008).
• “Reactions of VX, GD and HD with Nanotubular Titania”
George W. Wagner, Qiang Chen, and Yue Wu
Journal of Physical Chemistry C 112, 11901 – 11906 (2008).
• “Temperature-Induced Hydrophobic-Hydrophilic Transition Observed by Water Adsorption”
Hai-Jing Wang, Xue-Kui Xi, Alfred Kleinhammes, and Yue Wu
Science 322, 80-83 (2008).
• “Aluminum-rich bulk metallic glasses”
B. A. Sun, M. X. Pan, D. Q. Zhao, W. H. Wang, X. K. Xi, M. T. Sandor, and
Y. Wu
Scripta Materialia 59, 1159-1162 (2008).
• “Molecules Immobilization in Titania Nanotubes: a Solid-state NMR and Computational-Chemistry Study”
Q. Chen, Y. Jia, S.-B. Liu, G. Mogilevsky, A. Kleinhammes, and Y. Wu
Journal of Physical Chemistry C 112, 17331-17335 (2008).

• “Synthesis and Characterization of TiO2 Nanotube/Hydroquinone Hybrid Structure”
Yuanyuan Jia, Alfred Kleinhammes, Harsha Kulkarni, Kristopher McGuire, L.E. McNeil, and Yue Wu
Journal of Nanoscience and Nanotechnology 7, 458-462 (2007).
• “Elevation of melting temperature for confined palmitic acid inside cylindrical nanopores”
Xiao-Ping Tang, B. K. Mezick, Harsha Kulkarni, and Yue Wu
Journal of Physical Chemistry B 111, 1507-1510 (2007).
• “Nanoscale periodic morphologies on the fracture surface of brittle metallic glasses”
G. Wang, D. Q. Zhao, H. Y. Bai, M. X. Pan, A. L. Xia, B. S. Han, X. K. Xi, Y. Wu, and W. H. Wang
Physical Review Letters 98, 235501(2007).
• “Electron spin resonance from annealed titania nanotubes”
J. M. Cho, W. J. Yun, J.-K. Lee, H. S. Lee, W. W. So, S. J. Moon, Y. Jia, H. Kulkarni, and Yue Wu
Applied Physics A 88,751–755 (2007).
• “Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide”
Sasha Stankovich, Dmitriy A. Dikina, Richard D. Pinera, Kevin A. Kohlhaas, Alfred Kleinhammes, Yuanyuan Jia, Yue Wu, SonBinh T. Nguyen, Rodney S. Ruoff.
Carbon 45, 1558–1565 (2007).
• “Shear modulus as a dominant parameter in glass transitions: Ultrasonic measurement of the temperature dependence of elastic properties of glasses”
B. Zhang, H. Y. Bai, R. J. Wang, Y. Wu, and W. H. Wang
Physical Review B 76, 012201 (2007).
• “Correlation of Atomic Cluster Symmetry and Glass-Forming Ability of Metallic Glass”
Xue kui Xi, Li long Li, Bo Zhang, Wei hua Wang, and Yue Wu
Physical Review Letters 99, 095501 (2007).
• “Solid-State NMR Studies of the Formation of Monomers and Dimers in Stearic Acid Confined in Titanate Nanotubes”
Xiao-Ping Tang, Gregory Mogilevsky, Harsha Kulkarni, and Yue Wu
Journal of Physical Chemistry C 111, 18615-18623 (2007).

• “NMR study of water adsorption in single-walled carbon nanotubes”
Shenghua Mao, Alfred Kleinhammes, and Yue Wu
Chemical Physics Letters 421, 513-517 (2006).
• “Periodic corrugation on dynamic fracture surface in brittle bulk metallic glass”
X. K. Xi, D. Q. Zhao, M. X. Pan, W. H. Wang, Y. Wu, and J. J. Lewandowski
Applied Physics Letters 89, 181911 (2006).

• “Structural influence on atomic hopping and electronic states of Pd-based bulk metallic glasses”
X.-P. Tang, Jörg F. Löffler, Ricardo B. Schwarz, William L. Johnson, Yue Wu
Applied Physics Letters 86, 072104 (2005).
• “NMR Study of Structure and Dynamics of Ionic Multiplets in Ethylene-Methacrylic Acid Ionomers”
Yuanyuan Jia, Alfred Kleinhammes, and Yue Wu
Macromolecules 38, 2781-2785 (2005).
• “Fracture of brittle metallic glasses: brittleness or plasticity”
X. K. Xi, D. Q. Zhao, M. X. Pan, W. H. Wang, Y. Wu, J. J. Lewandowski
Physical Review Letters 94, 125510 (2005).
• “A 13C NMR Study of the Molecular Dynamics and Phase Transition of Confined Benzene inside Titanate Nanotubes”
Xiao-Ping Tang, Jing-Chen Wang, Lewis Cary, Alfred Kleinhammes, and Yue Wu
Journal of the American Chemical Society 127, 9255-9259 (2005).
• “Decontamination of 2-chloroethyl ethylsulfide using titanate nanoscrolls”
Alfred Kleinhammes, George W. Wagner, Harsha Kulkarni, Yuanyuan Jia, Qi Zhang, Lu-Chang Qin, Yue Wu
Chemical Physics Letters 411, 81-85 (2005).
• Local Thermal Analysis: Study of viscoelastic properties and time dependence in Surlyn
Harsha P. Kulkarnia, Gregory Mogilevskya, William Mullinsb, Alfred Kleinhammesa, and Yue Wu
Mater. Res. Soc. Symp. Proc. 898L, Warrendale, PA, 2005, L05-8 (2005).

• “Opening and closing of single-wall carbon nanotubes”
H.Z. Geng, X.B. Zhang, S.H. Mao, A. Kleinhammes, H. Shimoda, Y. Wu, O. Zhou
Chemical Physics Letters 399, 109-113 (2004).
• “A Novel Nuclear Spin-Lattice Relaxation Filter for Separating the Free and absorbed Water in a Matrix of Titanate Nanotubes”
Xiao-Ping Tang, K. C. Chartkunchand, and Yue Wu
Chemical Physics Letters 399, 456-460 (2004).

• “Devitrification of Bulk Metallic Glass Zr41.2Ti13.8Cu12.5Ni10.0Be22.5 Studied by XRD, SANS, and NMR”
X.-P. Tang, J. F. Löffler, W. L. Johnson, and Y. Wu
Journal of Non-Crystalline Solids 317, 118-122 (2003).
• “Photoluminescence and electronic interaction of anthracene derivatives adsorbed on sidewalls of single-walled carbon nanotubes”
Jian Zhang, J.-K. Lee, Yue Wu, and Royce W. Murray
Nano Letters 3, 403-407 (2003).
• “Hydrogen Distribution, Nanostructures and Optical Properties of High Deposition Rate Hot-Wire CVD a-Si:H”
Jonathan Baugh, Keda Wang, Daxing Han, and Yue Wu
Thin Solid Films 430, 95-99 (2003).
• “Gas adsorption in single-walled carbon nanotubes studied by NMR”
Kleinhammes, S.-H. Mao, X.-J. Yang, X.-P. Tang, H. Shimoda, J. P. Lu, O. Zhou, and Y. Wu
Physical Review B 68, 075418 (2003).
• “Magnetic Alignment in Nominally Non-Magnetic Hexagonal Metal Hydrides: NMR”
Vikram D. Kodibagkar, Caleb D. Browning, Xiaoping Tang, Yue Wu, Robert C. Bowman, Jr. and Mark S. Conradi
Solid State NMR 24, 254–262 (2003).
• “Crossover of Microscopic Dynamics in Metallic Supercooled Liquid Studied by NMR”
Lilong Li, Jan Schroers, and Yue Wu
Physical Review Letters 91, 265502 (2003).

• “Nanovoid-Related Large Red Shift of Photoluminescence Peak Energy in Hydrogenated Amorphous Silicon”
Daxing Han, Guozhen Yue, Keda Wang, Jonathan Baugh, Yue Wu, Yueqin Xu, and Qi Wang
Applied Physics Letters 80, 40-42 (2002).
• “Lithium Intercalation into Opened Single-Wall Carbon Nanotubes: Storage Capacity and Electronic Properties”
H. Shimoda, B. Gao, X.-P. Tang, A. Kleinhammes, L. Fleming, Y. Wu, and O.Zhou
Physical Review Letters 88, 015502 (2002).
• “Heterogeneous Influences on the Crystallization of Pd43Ni10Cu27P20”
J. Schroers, Y. Wu, and W. L. Johnson
Philosophical Magazine A 82, 1207-1217 (2002)
• “Lithium intercalation into etched single-wall carbon nanotubes”
H. Shimoda, B. Gao, X.-P. Tang, A. Kleinhammes, L. Fleming, Y. Wu, O. Zhou
Physica B-Condensed-Matter 323, 133-134 (2002).
• “Quasicrystalline Compounds; Metallic Glasses”
X.-P. Tang and Yue Wu
Encyclopedia of Nuclear Magnetic Resonance Volume 9, Advances in NMR (eds. D. M. Grant and R. K. Harris, John Wiley&Sons, Chichester, 2002). ISBN: 0-471-49082-2. p729-736.

• “Magnetic Susceptibility and Microstructure of a-Si:H Measured by NMR on a Single Thin-Film”
J. Baugh, D. Han, A. Kleinhammes, Q. Wang, and Y. Wu
Applied Physics Letters 78, 466-468 (2001).
• “Transition from Nucleation Controlled to Growth Controlled Crystallization in Pd43Ni10Cu27P20 Melts”
J. Schroers, Y. Wu, R. Busch, and W. L. Johnson
Acta Materialia 49 (14), 2773-2781 (2001).
• “Structural and electronic properties of Zr-Ti-Cu-Ni-Be alloys”
Jörg F. Löffler, X.-P. Tang, Yue Wu and William L. Johnson
Materials Research Society Symposium Proceedings 644, L1.9.1-L1.9.6 (2001).
• “Confinement Effect on Dipole-Dipole Interactions in Nanofluids”
J. Baugh, A. Kleinhammes, D. Han, Q. Wang, Y. Wu
Science 294, 1505-1507 (2001).
• “Proton NMR and Magnetic Susceptibility in a-Si:H”
Jonathan Baugh, Daxing Han, Alfred Kleinhammes, and Yue Wu
Materials Research Society Symposium Proceedings 664, A27.4.1-12 (2001).

• “Electronic Structures of Single-Walled Carbon Nanotubes Determined by NMR”
X. -P. Tang, A. Kleinhammes, H. Shimoda, L. Fleming, K. Y. Bennoune,
S. Sinha, C. Bower, O. Zhou, Y. Wu
Science 288, 492-494 (2000).
• “Microstructure and Dynamics of Hydrogen in a-Si:H Study by NMR”
J. Baugh, D. Han, A. Kleinhammes, C. Liu, and Y. Wu, and Q. Wang
Journal of Non-Crystalline Solids 266, 185-189 (2000).
• “Electronic Structures of Single-Walled Carbon Nanotubes Studied by NMR”
X. -P. Tang, A. Kleinhammes, H. Shimoda, L. Fleming, K. Y. Bennoune, C. Bower, O. Zhou, and Y. Wu
Materials Research Society Symposium Proceedings 593, 143-148 (2000).
• “Enhanced Saturation Lithium Composition in Ball-milled Single-Walled Carbon Nanotubes”
Gao, B., C. Bower, J. D. Lorentzen, L. Fleming, A. Kleinhammes, X.-P.
Tang, L. E. McNeil, Y. Wu, and O. Zhou
Chemical Physics Letters 327, 69-75 (2000).

1. Strongly Phonon-Bottlenecked Spin-Lattice Relaxation of Dangling Bonds in Sputtered a-Si Evidenced by Chemical Etching.
A, Stesmans, Y. Wu, and J. Witters
Solid State Communications 52, 525-531 (1984).

2. Observations of new electron-spin-resonance signals in undoped, slowly deposited a-Si and a-Si:H.
Y. Wu and A. Stesmans
Physical Review B 33, 5046-5050 (1986).

3. Influence of Deposition Rate on Electron Spin Resonance Signals in a-Si.
Y. Wu and A. Stesmans
Journal of Non-Crystalline Solids 90, 151-155 (1987).

4. Anomalous Change of dc Conductivity with Ambient Conditions in Slowly-Deposited Sputtered a-Si and a-Si:H.
A. Stesmans and Y. Wu
Solid State Communications 62, 435-440 (1987).

5. On the Origin of the Asymmetric ESR Lineshape of Dangling Bonds in a-Si:H.
A. Stesmans and Y. Wu,
Journal of Non-Crystalline Solids 99, 190-195 (1988).

6. Evidence of g=2.013 Defect Centers in a-Si:H.
Y. Wu and A. Stesmans
Physical Review B 37, 4886-4893 (1988).

7. Influence of microstructure on the T-1/4 law of slowly deposited sputtered a-Si and
a-Si:H.
Y. Wu and A. Stesmans
Physical Review B 37, 9608-9615 (1988).

8. Evidence for a Phase-Transition-Induced Change in the Surface Spin-Flip Probability of Conduction Electrons from CESR on n-irradiated, LiF; its Application as an Intensity Reference.
A. Stesmans and Y. Wu
Journal of Physics D: Applied Physics 21, 1205-1215 (1988).

9. Nature of Paramagnetic Centers in a-Si and a-Si:H
Y. Wu and A. Stesmans
Physical Review B 38, 2779-2793 (1988).

10. Direct evidence for ambient-controlled hopping conduction in inhomogeneous a-Si and
a-Si:H from gas-diffusion experiments.
Y. Wu and A. Stesmans
Physical Review B 38, 4986-4989 (1988).

11. Oxygen-17 NMR in Solids by Dynamic-Angle Spinning and Double Rotation.
B. F. Chmelka, K. T. Mueller, A. Pines, J. Stebbins, Y. Wu and J. W.
Zwanziger
Nature 339, 42-44 (1989).

12. High Resolution 27Al DOR NMR in VPI-5.
Y. Wu, B. F. Chmelka, A. Pines, M. Davis, P. Grobet and P. Jacobs
Nature 346, 550-552 (1990).

13. NMR Experiments with a New Double Rotor.
Y. Wu, B. Q. Sun, A. Pines, A. Samoson and E. Lippmaa
Journal of Magnetic Resonance 89, 297-310 (1990).

14. NMR Spectroscopy.
A. Pines and Y. Wu
Spectroscopy 5 (9), 34-35 (1990).

15. High Resolution Oxygen-17 NMR of Solid Silicates.
K. T. Mueller, Y. Wu, B. F. Chmelka, J. Stebbins and A. Pines,
Journal of American Chemical Society 113, 32-38 (1991).

16. Study of the Aluminophosphates AlPO4-21 and AlPO4-25 by 27Al Double Rotation
NMR.
R. Jelinek, B. F. Chmelka, Y. Wu, A. Pines, P. J. Barrie, and J. Klinowski
Journal of American Chemical Society 113, 4097-4101 (1991).

17. Electron-spin-resonance observation of structural modifications in amorphous-silicon during annealing at sub-crystallization temperatures.
Y. Wu and A. Stesmans
Solid State Communications 79, 741-747 (1991).

18. Framework Ordering in Aluminophosphate Molecular Sieves Studied by 27Al Double Rotation NMR
B. F. Chmelka, Y. Wu, R. Jelinek, M. E. Davis, and A. Pines
Zeolite Chemistry and Catalysis 1, 435-442 (1991).

19. Adsorption Effects in Aluminophosphaste Molecular Sieves Studied by 27Al Double-Rotation NMR
R. Jelinek, B. F. Chmelka, Y. Wu, M. E. Davis, J. G. Ulan, R. Gronsky,
and A. Pines
Catalysis Letters 15, 65-68 (1992).

20. Cross-Polarization-Double-Rotation NMR
Y. Wu, D. Lewis, J. S. Frye, A. R. Palmer, and R. A. Wind
Journal of Magnetic Resonance 100, 425-430 (1992).

21. Sidebands in dynamic angle spinning (DAS) and double rotation (DOR) NMR
B.Q. Sun, J.H. Baltisberger, Y. Wu, A. Samoson, and A. Pines,
Solid State Nuclear Magnetic Resonance 1, 267-295 (1992).

22. Effects of Double Rotation on Homogeneous Spin System
Y. Wu, Z-y Peng, Z. Olejniczak, B. Q. Sun, and A. Pines,
Journal of Magnetic Resonance A 102, 29-33 (1993).

23. Double-Rotation NMR, Magic Angle Spinning NMR, and X-ray Diffraction Study of the Structure of Aluminum Molybdate
G. W. Haddix, M. Narayana, S. C. Tang, and Y. Wu
Journal of Physical Chemistry 97, 4624-4627 (1993).

24. Double Rotation, and Magc-Angle-Spinning NMR Study of an Ultrastable Y Zeolite
G. W. Haddix, M. Narayana, W. D. Gillespie, M. B. Georgellis, and Y. Wu
Journal of American Chemical Society 116, 672-674 (1994).

25. Temperature dependent NMR features in Al65Cu20Ru15 icosahedral alloy
E.A. Hill, T. C. Chang, Y. Wu, S.J. Poon, F.S. Pierce, and Z. M. Stadnik,
Physical Review B 49, 8615-8620 (1994).

26. An NMR Study of the Electronic Properties and Crystal Structure of the Semiconducting Compound Al2Ru
E. A. Hill, P. Volkov, S. J. Poon, and Y. Wu
Physical Review B 51, 4865-4871 (1995).

27. Stacked Phthalocyanines in VPI-5 Pores as Evidenced by CPDOR 1H-27Al NMR
R. F. Parton, F. Thibault-Starzyk, R. A. Reynders, P. J. Grobet, P. J. Jacobs,
C. P. Bezoukhanova, W. Sun, and Y. Wu
Journal of Molecular Catalysis A: Chemical 97, 183-186 (1995).

28. Structure of Chemically-Synthesized Nanophase GaAs Studied by NMR
L. D. Potter, A. Guzelian, A. P. Alivisatos, and Y. Wu
Journal of Chemical Physics 103, 4834-4840 (1995).

29. Rotation-Induced Resonance Effect on Spin Locking of Half-Integer Quadrupolar Nuclei
W. Sun, J. T. Stephen, L. D. Potter, and Y. Wu
Journal of Magnetic Resonance A 116, 181-188 (1995).

30. NMR Measurements of Homonuclear Indirect Couplings in GaAs
L. D. Potter and Y. Wu
Journal of Magnetic Resonance 116, 107-112 (1995).

31. Double Rotation
Y. Wu, Encyclopedia of Nuclear Magnetic Resonance (eds. D. M. Grant and R.
K. Harris, John Wiley&Sons, Chichester, 1996), p. 1749-1758 (1996).

32. Hydrogen Distribution in High Stability a-Si:H Prepared by the Hot Wire Technique
J. Todd Stephen, Daxing Han, A. Harv Mahan, and Yue Wu,
Materials Research Society Symposium Proceedings 420, 485-490 (1996).

33. New Hydrogen Distribution in a-Si:H: An NMR Study
Y. Wu, J. T. Stephen, D. X. Han, J. M. Rutland, R. S. Crandall, and A. H. Mahan
Physical Review Letters 77, 2049-2052 (1996).

34. An NMR Investigation of H Cluster Configurations in a-Si:H
J. Todd Stephen, Jonathan M. Rutland, Daxing Han, and Yue Wu
Materials Research Society Symposium Proceedings 467, 159 (1997).

35. Sharp Feature in the Pseudogap of Quasicrystals Detected by NMR
X.-P. Tang, E. A. Hill, S. K. Wonnell, S. J. Poon, and Y. Wu,
Physical Review Letters 79, 1070-1073 (1997).

36. Intercalation and Partial Exfoliation of Single-Walled Carbon Nanotubes by Nitric Acid
C. Bower, A. Kleinhammes, Y. Wu, and O. Zhou,
Chemical Physics Letters 288, 481-486 (1998).

37. Alignment Echo of Spin-3/2 9Be Nuclei: Detection of Ultraslow Motion
X.-P. Tang and Y. Wu
Journal of Magnetic Resonance 133, 155-165 (1998).

38. Light-Induced Change of Si-H Bond Absorption in Hydrogenated Amorphous Silicon
Guozhen Yue, Liangfan Chen, Qi Wang, Eugene Iwaniczko, Guanglin Kong, Jonathan Baugh, Yue Wu, and Daxing Han
Materials Research Society Symposium Proceedings 507, 685-690 (1998).

39. Slow Atomic Motion in Zr-Ti-Cu-Ni-Be Metallic Glasses Studied by NMR
X.-P. Tang, R. Busch, W. L. Johnson, and Y. Wu,
Physical Review Letters 81, 5358-5361 (1998).

40. Probing Slow Atomic Motions in Metallic Glasses using NMR
X.-P. Tang, Ralf Busch, William L. Johnson, and Yue Wu
Materials Research Society Symposium Proceedings 554, 87-92 (1999).

41. Structural Changes and Hydrogen Motion in a-Si:H Observed by Proton NMR
Jonathan Baugh, Daxing Han,Qi Wang, and Yue Wu
Materials Research Society Symposium Proceedings 557, 383-388 (1999).

42. Electrochemical Intercalation of Lithium with Single-Walled Carbon Nanotubes
B. Gao, A. Kleinhammes, X.-P. Tang, C. Bower, L. Fleming, Y. Wu, and O. Zhou
Chemical Physics Letters 307, 153-157 (1999).

43. Diffusion mechanisms in metallic supercooled liquids and glasses
X.-P. Tang, Ulrich Geyer, Ralf Busch, William L. Johnson, and Yue Wu,
Nature 402, 160-162 (1999).