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Radiation Effects and
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Radiation Effects and
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Posters on Nanoscience Nanocrystals
and Nanodomains of Trace Elements in Geologic Materials Nanostructures Processed by Energetic Particle Beams: Radiation Effects vs. Ion Implantation
Journal Papers on Nanostructure Processing and Characterization 1.
L.M.
Wang, R.A. Dodd, G.L. Kulcinski, Gas effects on void formation in 14 MeV nickel
ion irradiated pure nickel, J. Nuclear
Materials 141/143 (1986) 713-717. 2.
L.E.
Seitzman, L.M. Wang, G.L. Kulcinski, R.A. Dodd, The effect of oxygen on void
stability in nickel and austenitic steel, J. Nuclear Materials 141/143 (1986)
738-742. 3.
L.M.
Wang, R.A. Dodd, G.L. Kulcinski, Effects of 14 MeV nickel ion irradiation
on nickel-copper alloys observed in cross-section,
J. Nuclear Materials 155/157 (1988)
1241-1248. 4.
L.M.
Wang, R.A. Dodd and G.L. Kulcinski, Radiation damage and copper distribution in
14 MeV copper ion implanted Ni ─ TEM and AEM analysis in cross-section, Ultramicroscopy 29 (1989) 284-290. 5.
D.H.
Plantz, L.M. Wang, R.A. Dodd and G.L. Kulcinski, Mechanical property changes in
ion irradiated metals- Part I: Ni-Cu alloys, Metallurgical Transactions A
20 (12) (1989) 2681-2687. 6.
L.M.
Wang, R.C. Birtcher, Radiation induced formation of cavities in amorphous
germanium, Applied Physics Letters
55 (24) (1989) 2494-2496. 7.
L.M.
Wang, S.J. Zinkle, R.A. Dodd and G.L. Kulcinski, Effects of preinjected helium
in heavy ion irradiated nickel and nickel-copper alloys, Metallurgical Transactions A
21(7) (1990) 1847-1851. 8.
L.M.
Wang and R.C. Birtcher, Amorphization, morphological instability and
crystallization of krypton ion irradiated germanium, Philosophical Magazine A 64 (6) (1991) 1209-1223. 9.
R.C.
Birtcher and L.M. Wang, Microstructural changes induced in Zr3Al and
U3Si during irradiation of the crystalline state, Nuclear Instrument and Methods in Physics
Research B59 (1991) 966-969. 10.
L.M.
Wang and R.C. Ewing, Ion beam induced amorphization of complex ceramic
materials-minerals, Materials Research
Society Bulletin 17 (5) (1992) 38-44. 11.
S.W.
Lyons, L.M. Wang and T.T. Kodas, Nanophase oxide formation by intraparticle
reaction, Nanostructured Materials 1
(1992) 283-291. 12.
L.M.
Wang, M.L. Miller and R.C. Ewing, HRTEM of displacement cascade damage in
krypton ion irradiated silicate-olivine, Ultramicroscopy
51 (1993) 339-347. 13.
A.S.
Gurav, Z. Duan, L. Wang, M.J. Hampden-Smith and T.T. Kodas, Synthesis of
fullerene-rhodium nanocomposites via aerosol decomposition, Chemistry of Materials 5 (2) (1993)
214-216. 14.
T.C.
Pluym, Q.H. Powell, A.S. Gurav, T.T. Kodas, L.M. Wang and H.D.Glicksman, Solid
silver particle production by spray pyrolysis, J. Aerosol Sciences 24 (3) (1993) 383-392. 15.
L.M.
Wang, R.C. Birtcher and R.C. Ewing, Ion irradiation induced nano-scale
polycrystallization of intermetallic and ceramic materials, Nuclear Instrument and Methods in Physics
Research B 80 (1) (1993)
1109-1113. 16.
D.
Zeng, M.J. Hampden-Smith and L.M. Wang, Synthesis and characterization of group
6 metal silicide-silicon carbide composites via solid-state displacement
reactions of nanosize grains of M2C and silicon, J. Materials Chemistry 3 (3) (1993)
321-322. 17.
T.C.
Pluym, S.W. Lyons, T.T. Kodas and L.M. Wang, Palladium metal and palladium
oxide particle production by spray pyrolysis, Materials Research Bulletin 28 (4) (1993) 369-376. 18.
A.S.
Gurav, T.T. Kodas and L.M. Wang, e.i. Kauppinen,
j. Joutsensaari, Generation of
Nanometer-size fullerence particles via vapor condensation, Chemical Physics Letters 218 (4) (1994)
304-308. 19.
T.C.
Pluym, T.T. Kodas, L.M. Wang and H. D. Glicksman, Silver-palladium alloy
particle production by spray pyrolysis, J.
Materials Research 10 (7) (1995) 1661-1673. 20.
Y.
Senzaki, J. Carruso, M.J. Hampden-Smith, T.T. Kodas and L.M. Wang, Preparation of strontium ferrite particles
by spry-pyrolysis, J. American Ceramic
Society 78 (11) (1995) 2973-2976. 21.
P.P.
Newcomer, J.C. Barbour, L.M. Wang, E.L. Venturini, J.F. Kwak, R.C. Ewing, M.L.
Miller and B. Morosin, Temperature dependent microstructural modification in
ion-irradiated Tl-type high temperature superconductors, Physica C 267 (1996) 243-253. 22.
S.G.
Song, X.R. Fu, H. Tan, M.D. Tao, L.F. Chen, L.M. Wang, C.L. Lin, Microstructure
of PZT/PT thin films prepared by sol-gel process and microwave annealing, Pysica Status Solidi A 164: (2) (1997)
779-784. 23.
A.
Meldrum, L.M. Wang, Y.X. Guo and R.C. Ewing, Electron irradiation-induced phase
segregation in crystalline and amorphous fluorapatite, American Mineralogist 82 (1997) 858-869. 24.
Chenglu
Lin, Lianwei Wang, Xiangdong Chen, L.F. Chen and L.M. Wang, Structural
characterization of codeposition growth of b-FeSi2 film, Japanese J. Applied Physics 37 (1998) 622-625. 25.
L.M.
Wang, Application of advanced transmission electron microscopy techniques in
the study of radiation effects in insulators, Nuclear Instruments and Methods in Physics Research B 141 (1998)
312-325. 26.
W.L.
Gong, L.M. Wang and R.C. Ewing, Cross-sectional transmission electron
microscopy of irradiation-induced amorphization in a-quartz, J. Applied Physics 84 (8) (1998)
4204-4208. 27.
L.M.
Wang and W.J. Weber, Transmission electron microscopy study of ion-beam-induced
amorphization of Ca2La8(SiO4)6O2,
Philosophical Magazine A 79 (1999)
237-253. 28.
L.M.
Wang, W.L. Gong, S.X. Wang and R.C. Ewing, Comparison of ion-beam irradiation
effects in X2YO4 compounds, J. American Ceramic Society 82(12) (1999) 3321-3329. 29.
L.M.
Wang, S.X. Wang, R.C. Ewing, A. Meldrum, R.C. Birtcher, P.N. Provencio, W.J.
Weber and Hj. Matzke, Irradiation-induced nanostructures, Materials Science and Engineering A 286(1) (2000) 72-80. 30.
S.X.
Wang, L.M. Wang and R.C. Ewing, Nano-scale glass formation in pyrochlore by
heavy ion irradiation, J.
Non-Crystalline Solids 274 (2000) 238-243. 31.
Z.T.
Song, W. Ren, S.X. Wang, L.M. Wang, C.L. Lin, L.Y. Zhang, X. Yao, Structural and abnormal electrical properties
of excess PbO-doped lead lanthanum titanate thin films, J. Physics D 33 (2000) 764-772. 32.
X.Z.
Duo, W.L. Liu, S. Xing, M. Zhang, X.R. Fu, C.L. Lin, P.G. Hu, S.X. Wang, L.M.
Wang, Defect and strain in hydrogen and helium coimplanted single-crystal
silicon, J. Physics D 34 (1) (2001)
5-11. 33.
L.M.
Wang, S.X. Wang, S. Zhu and R.C. Ewing, Effects of fission product
incorporation on the microstructure of cubic zirconia, J. Nuclear Materials 289 (2001) 122-127. 34.
Z.T.
Song, C.L. Lin, L.M. Wang, S.X. Wang, J.X. Gao, X.R. Fu, Microstructural and
electrical properties in textured lead calcium lanthanum titanate thin films
deposited on a Pt/Ti/SiO2/Si substrate, Materials
Letters 47 (2001) 219-224. 35.
L.M.
Wang, S. Zhu, S.X. Wang, R.C. Ewing, N. Boucharat , A. Fernandez , H. Matzke ,
Effects of xenon implantation in spinel-zirconia/ceria composites, Progress in Nuclear Energy 38 (2001) 295-300. 36.
D.
Shi, S.X. Wang, L.M. Wang, W.J. van Ooij, J. Zhao and Z. Yu, Uniform deposition
of ultrathin polymer films on the surface of Al2O3
nanoparticles by a plasma treatment, Applied
Physics Letters 78 (9) (2001) 1243-1245. 37.
X.Z.
Duo, W.L. Liu, M.A. Zhang, L.W. Wang, C.L. Lin, M. Okuyama, M. Noda, W.Y.
Cheung, P.K. Chu, P.G. Hu, S.X. Wang, L.M. Wang, Comparison between the
different implantation orders in H+ and He+
coimplantation, J. Physics D 34 (4)
(2001) 477-482. 38.
Y.L.
Xu, D.L. Shi DL, S. McClellen, R. Buchanan, S.X. Wang, L.M. Wang, Deposition of
epitaxial YBCO thin film on single domain YBCO substrate for the development of
RF components, IEEE Transactions on
Applied Superconductivity 11 (1) (March 2001) 2865-2868. 39.
D.L.
Shi, S.X. Wang, L.M. Wang, X.J. Wen, D. Qu, Y.L. Xu, S.M. McClellan, B.A. Tent,
Interface structural evolution of YBa2Cu3Ox
from a randomly oriented silver alloy substrate, Physica C 353 (3-4) (MAY 15 2001) 258-264. 40.
B.
Qi, R.M. Gilgenbach, Y.Y. Lau, M.D. Johnston, J. Lian, L.M. Wang, G.L. Doll, A.
Lazarides, Ablation plasma ion implantation experiments: Measurement of Fe
implantation into Si, Applied Physics
Letters 78 (24) (2001) 3785-3787. 41.
S.
Nakao, S.X. Wang SX, L.M. Wang, M. Ikeyama, Y. Miyagawa, S. Miyagawa,
Microstructure of high-energy O and Cu ion-implanted silica glasses, Nuclear Instruments and Methods in Physics
Research B 175 (2001) 202-207. 42.
J.
Lian, S.X. Wang, L.M. Wang, R.C. Ewing, Radiation damage and nanocrystal
formation in uranium-niobium titanates, J.
Nuclear Materials 297 (1) (2001) 89-96. 43.
J.
Lian, L.M. Wang, S.X. Wang, J. Chen, L.A. Boatner and R.C. Ewing, Nanoscale
manipulation of pyrochlore: new nanocomposite ionic conductors, Physical Review Letters 87 (14) (2001)
1459011-1459014. 44.
X.
Duo, W. Liu, M. Zhang, L. Wang, C. Lin, M. Okuyama, M. Noda, W.Y. Cheung, S.P.
Wang, P.K. Chu, S.X. Wang and L.M. Wang, Evolution of hydrogen and helium
co-implanted single-crystal silicon during annealing, J. Applied Physics 90 (8) (2001) 3780-3786. 45.
D.L.
Shi, P. He, S.X. Wang, W.J. van Ooij, L.M. Wang, J. Zhao and Z. Yu, Interfacial
particle bonding via an ultrathin polymer film on Al2O3
nanoparticles by plasma polymerization, J. Materials Research 17 (5)
(2002) 981-990. 46.
S.
Zhu, X. T. Zu, L. M. Wang, and R. C. Ewing, Nanodomains of pyrochlore formed by Ti ion
implantation in yttria-stabilized zirconia, Applied Physics Letters 80 (23) (2002)
4327-4329. 47.
S.
Utsunomiya S, L.M. Wang, S. Yudintsev, R.C. Ewing, Ion irradiation-induced
amorphization and nano-crystal formation in garnets, J. Nuclear Materials 303 (2-3) (2002) 177-187. 48.
D.L.
Shi, Y.L. Xu, J. Lian, L.M. Wang, S. McClellan, Interface structure of YBa2Cu3Ox
thin films prepared by a non-fluorine sol-gel route on a single-domain
substrate, Superconductor Science & Technology 15 (5) (2002)
660-664. 49.
D.L.
Shi, Y.L. Xu, S.X. Wang, J. Lian, L.M. Wang, S.M. McClellan, R. Buchanan, K.C.
Goretta, Deposition and interface structures of YBCO thin films via a
non-fluorine sol-gel route, Physica C 371 (2) (2002) 97-103. 50.
D.
Shi, P. He, J. Lian, L Wang and W.J. van Ooij, Plasma deposition and
characterization of acylic acid thin film on ZnO nanoparticles, J. Materials
Research 17 (10) (2002) 2555-2560. 51.
D. Shi, J. Lian, P. He, L.M. Wang, Wim J. van Ooij, M.
Schulz, Y. Liu and D.B. Mast, Plasma deposition of ultrathin polymer films on
carbon nanotubes, Applied Physics Letters 81 (27) (2002) 5216-5218. 52.
P.
Jin, S. Nakao, S.X. Wang and L.M. Wang, Localized epitaxial growth of a-Al2O3
thin films on Cr2O3 template by sputter deposition at low
temperature, Applied Physics Letters
82 (7) (2003) 1024-1026. 53.
B.Qi,
R.M. Gilgenbach, M.C. Jones, M.D. Johnston, Y.Y. Lau, L.M. Wang, J. Lian, G.L.
Doll and A. Lazarides, Diagnostic characterization of ablation plasma ion
implantation, J. Applied Physics 93(11) (2003) 8876-8883. 54.
W.L.
Liu, X.Y. Xie, M. Zhang, Q.W. Shen, C.G. Lin, L.M. Wang, P.K. Chu,
Microstructure and crystallinity of porous silicon and epitaxial siliconlayers
fabricated on p(+) porous silicon, J. Vacuum Science & Technology B 21
(1) (2003) 168-173. 55.
Jie
Lian, Haibo Yao, Donglu Shi, Lumin Wang, Yongli Xu, Qing Liu and Z Han,
Structural characterization of epitaxial YBCO thin films prepared by a
fluorine-free sol-gel method for coated conductors, Superconductor Science
and Technology 16 (2003) 838-844. 56.
S.
Zhu, X.T. Zu, X. Xiang, Z.G. Wang, L.M. Wang, R.C. Ewing, Electron microscopy
and optical spectroscopy study of xenon-implanted yttria-stabilized zirconia, Nuclear Instruments and Methods in Physics
Research B 206 (2003) 1092-1096. 57.
H.B.
Yao, B. Zhao, K. Shi, Z.H. Han, Y.L. Xu, D.L. Shi, S.X. Wang, L.M. Wang, C.
Peroz, C. Villard, Fluorine-free sol gel deposition of epitaxial YBCO thin
films for coated conductors, Physica C 392 (2003) 941-945. 58.
S.
Zhu, K. Sun, Q.Y. Zhang, X.T. Zu, L.M. Wang and R.C. Ewing, Structural and
magnetic characterization of CoxNi1-x nanoparticles in
yttria-stabilized zirconia single crystals, J. Applied Physics 94(9) (2003)
5648-5651. 59.
J.
Lian, S. Ríos, L.A. Boatner, L.M. Wang and R.C. Ewing, Microstructural
evolution and nanocrystal formation in Pb+-implanted ZrSiO4 single
crystals, J. Applied Physics 94 (9) (2003) 5695-5703. |
