B. Refereed papers already published in SCI indexed journals:
1.
L.M. Wang, F.Z. Wang, J.H. Zhang, L.H. Zhai, P.G. Cao, Auger electron spectroscopy
interface study of evaporated and ion-plated silver films on steel substrates, Thin Solid
Films 105 (1983) 319-323.
2.
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.
3.
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.
4.
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) 12411248.
5.
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.
6.
L.E. Seitzman, L.M. Wang, R.D. Griffin, A.P. Komissarov, G.L. Kulcinski and R.A. Dodd,
Cross-section specimen preparation technique for nickel alloys and stainless steels,
Ultramicroscopy 29 (1989) 291-298.
7.
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.
8.
L.M. Wang, R.C. Birtcher, Radiation induced formation of cavities in amorphous
germanium, Applied Physics Letters 55 (24) (1989) 2494-2496.
9.
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.
10.
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.
11.
L.M. Wang, R.K. Eby, J. Janeczek and R.C. Ewing, In Situ TEM study of ion-beaminduced amorphization of crystalline natural silicates, Nuclear Instrument and Methods
in Physics Research B59 (1991) 395-400.
12.
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.
13.
L.M. Wang and R.C. Ewing, Detailed in-situ study of ion beam-induced amorphization of
zircon, Nuclear Instrument and Methods in Physics Research B65 (1992) 319-323.
14.
R.C. Ewing and L.M. Wang, Amorphization of zirconolite: alpha-decay event damage
versus krypton ion irradiation, Nuclear Instrument and Methods in Physics Research
B65 (1992) 324-329.
15.
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.
16.
S.W. Lyons, L.M. Wang and T.T. Kodas, Nanophase oxide formation by intraparticle
reaction, Nanostructured Materials 1 (1992) 283-291.
17.
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.
18.
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.
19.
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.
20.
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.
21.
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.
22.
Z.Y. Chen, Z.Z. Sheng, Y.Q. Tang, Y.F. Li, L.M. Wang and D.O. Pederson, Synthesis and
characterization of 2234 phase Tl2Ba2Ca3Cu4O12 prepared near and at melting Point,
Superconductor Science and Technology 6 (4) (1993) 261-264.
23.
Z.Y. Chen, Z.Z. Sheng and L.M. Wang, New high Tc cuprate (Tl1-xCrx)(Sr2yBay)2Ca2Cu3O9, Applied Physics Letters 62 (23) (1993) 3034-3036.
24.
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.
25.
W.J. Weber and L.M. Wang, Effect of temperature and recoil-energy spectra on irradiationinduced amorphization in Ca2La8(SiO4)6O2, Nuclear Instrument and Methods in Physics
Research B91 (1994) 63-66.
26.
W.J. Weber, R.C. Ewing and L.M. Wang, The radiation-induced crystalline-to amorphous
transition in zircon, J. Materials Research 9 (3) (1994) 688-698.
27.
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.
28.
N. Bordes, L.M. Wang, R.C. Ewing and K.E. Sickafus, Ion-beam induced disordering and
onset of amorphization in spinel by defect accumulation, J. Materials Research 10 (4)
(1995) 981-985.
29.
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.
30.
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.
31.
W.J. Weber and L.M. Wang, The temperature dependence of ion-beam-induced
amorphization in -SiC, Nuclear Instrument and Methods in Physics Research B106
(1995) 298-302.
32.
Z.Y. Chen, H.M. Luo, Z.Z. Sheng, B. Qu, Y.T. Qian, and L.M. Wang, Phase and
superconductivity of (Tl,M)-Sr-Cu-O system: Experimental-Evidence for possible
existence of Sr-Based Tl-2212-phase, Physica Status Solidi A 158 (1) (1996) 179-182.
33.
W.L. Gong, L.M. Wang, R.C. Ewing and Y. Fei, Surface and grain-boundary
amorphization: Thermodynamic melting of coesite below the glass transition temperature,
Physical Review B 53 (1996) 2155-2158.
34.
A. Meldrum, L.M. Wang and R.C. Ewing, Ion beam induced amorphization of monazite,
Nuclear Instruments and Methods in Physics Research B116 (1996) 220-224.
35.
W.J. Weber, L.M. Wang and N. Yu, The irradiation-induced crystalline-to-amorphous
phase-transition in alpha-SiC, Nuclear Instruments and Methods in Physics Research
B116 (1996) 322-326.
36.
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 ionirradiated Tl-type high temperature superconductors, Physica C 267 (1996) 243-253.
37.
W.L. Gong, L.M. Wang, R.C. Ewing and J. Zhang, Electron and ion beam-induced
amorphization of coesite, Physical Review B 54(6) (1996) 3800-3808.
38.
Hj. Matzke and L.M. Wang, High-resolution transmission electron microscopy of ion
irradiated UO2, J. Nuclear Materials 231 (1996) 155-158.
39.
Z.Y. Chen, Y.T. Qian, H.M. Luo, B. Qu, Z.Z. Sheng and L.M. Wang, Effects of V-doping
or Cr-doping on phase-formation, electric properties and superconductivity of the 3212type phase Pb2Sr2(Ca0.5Y0.5)Cu3O2, Modern Physics Letters B 10 (13) (1996) 609-614.
40.
W.J. Weber, N. Yu, L.M. Wang and N.J. Hess, Temperature and dose dependence of ionbeam-induced amorphization in -SiC, J. Nuclear Materials 244 (1997) 258-265 (cover
photo).
41.
W.L. Gong, L.M. Wang and R.C. Ewing, Interface-mediated amorphization of coesite by
200 keV electrons, J. Applied Physics 81 (6) (1997) 2570-2574.
42.
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.
43.
S.X. Wang, L.M. Wang, R.C. Ewing and R.H. Doremus, Ion irradiation-induced
amorphization in the Al2O3-SiO2 system: A comparison with glass formation, J. Applied
Physics 81 (2) (1997) 587-593.
44.
A. Meldrum, L.A. Boatner, L.M. Wang and R.C. Ewing, Ion-beam-induced amorphization
of LaPO4 and ScPO4, Nuclear Instruments and Methods in Physics Research B
127/128 (1997) 160-165.
45.
S.X. Wang, L.M. Wang, R.C. Ewing, Amorphization of Al2SiO5 polymorphs under ion
beam irradiation, Nuclear Instruments and Methods in Physics Research B 127/128
(1997) 186-190.
46.
Y.X. Guo, L.M. Wang, R.C. Ewing, Ion-beam-irradiation induced structure transformation
in -AlMnSi, Nuclear Instruments and Methods in Physics Research B 127/128 (1997)
752-755.
47.
L.F. Chen and L.M. Wang, Formation of a stable decagonal quasicrystal in cobalt ion
implanted aluminum, Applied Physics Letters 70 (14) (1997) 1825-1827.
48.
L.F. Chen, L.M. Wang, Y.X. Guo, R.C. Ewing, Ion irradiation-induced phase
transformation in Al-Cu-Co-Ge decagonal quasicrystal, Nuclear Instruments and
Methods in Physics Research B 127/128 (1997) 127-131.
49.
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.
50.
Chenglu Lin, Lianwei Wang, Xiangdong Chen, L.F. Chen and L.M. Wang, Structural
characterization of codeposition growth of -FeSi2 film, Japanese J. Applied Physics 37
(1998) 622-625.
51.
W.J. Weber, N. Yu and L.M. Wang, Irradiation-induced amorphization in -SiC, J.
Nuclear Materials 253 (1998) 53-59.
52.
W.L. Gong, L.M. Wang, R.C. Ewing, E. Venaz, J.K. Bates and W.L. Ebert, Analytical
electron microscopy study of the French SON68 nuclear waste glass during phase alteration
at 200°C, J. Nuclear Materials 254 (1998) 249-265.
53.
S.X. Wang, L.M. Wang, R.C. Ewing and R.H. Doremus, Ion-beam-induced amorphization
in MgO-Al2O3-SiO2. Part I: Experimental and Theoretical Basis, J. Noncrystalline Solid
238 (3) (1998) 198-213.
54.
S.X. Wang, L.M. Wang, R.C. Ewing and R.H. Doremus, Ion-beam-induced amorphization
in MgO-Al2O3-SiO2. Part II: Empirical Model, J. Noncrystalline Solid 238 (3) (1998)
214-224.
55.
L.M. Wang, S.X. Wang, W.L. Gong and R.C. Ewing, Temperature dependence of Kr ioninduced amorphization of mica minerals, Nuclear Instruments and Methods in Physics
Research B 141 (1998) 501-508.
56.
S.X. Wang, L.M. Wang and R.C. Ewing, Ion irradiation-induced amorphization of CaAlO4,
Nuclear Instruments and Methods in Physics Research B 141 (1998) 509-513.
57.
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.
58.
T. Hartmann, L.M. Wang, W.J. Weber, N. Yu, K.E. Sickafus, J.N. Mitchell, C.J.
Wetteland, M.A. Nastasi, M.G. Hollander, N.P. Baker, C.R. Evans, J.R. Tesmer, C.J.
Maggiore, Ion beam radiation damage effects in rutile (TiO2), Nuclear Instruments and
Methods in Physics Research B 141 (1998) 398-403.
59.
R. Devanathan, W.J. Weber, K.E. Sickafus, M. Nastasi, L.M. Wang, S.X. Wang, Cryogenic
radiation response of sapphire, Nuclear Instruments and Methods in Physics Research
B 141 (1998) 366-371.
60.
L.M. Wang, S.X. Wang, W.L. Gong, R.C. Ewing and W.J. Weber, Amorphization of
ceramic materials by ion beam irradiation, Materials Science & Engineering A 253
(1998) 106-113.
61.
W.J. Weber, L.M. Wang, N.Yu and N.J. Hess, Structure and properties of ion-beammodified (6H) silicon carbide, Materials Science & Engineering A 253 (1998) 62-70.
62.
W.L. Gong, L.M. Wang and R.C. Ewing, Cross-sectional transmission electron microscopy
of irradiation-induced amorphization in -quartz, J. Applied Physics 84 (8) (1998) 42044208.
63.
D.K. Teertstra, P. Cerrny, F.C. Hawthorne, J. Pier, L.M. Wang and R.C. Ewing, Rubicline,
a new feldspar mineral from San Piero in Campo, Elba, Italy, American Mineralogist 83
(1998) 1335-1339.
64.
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.
65.
S.X. Wang, L.M. Wang, R.C. Ewing, G.S. Was and G.R. Lumpkin, Ion irradiation-induced
phase transformation of pyrochlore and zirconolite, Nuclear Instruments and Methods in
Physics Research B 148 (1999) 704-709.
66.
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.
67.
S.X. Wang, B.D. Begg, L.M. Wang, R.C. Ewing, W.J. Weber and K.V. Govindan Kutty,
Radiation stability of gadolinium zirconate: a waste form for plutonium disposition, J.
Materials Research 14 (1999) 4470-4473.
68.
A. Meldrum, L.A. Boatner, S.J. Zinkle, S.X. Wang, L.M. Wang and R.C. Ewing, Effects of
dose rate and temperature on the crystalline-to-metamict transformation in the ABO4
orthosilicates, Canadian Mineralogist 37 (1999) 207-221.
69.
B.X. Gu, L.M. Wang and R.C. Ewing, The effect of amorphization on the Cs ion exchange
and retention capacity of zeolite-NaY, J. Nuclear Materials 278 (2000) 64-72.
70.
S.X. Wang, L.M. Wang and R.C. Ewing, Electron and ion irradiation of zeolites, J.
Nuclear Materials (2000) 233-241.
71.
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.
72.
S.X. Wang, G.R. Lumpkin, L.M. Wang and R.C. Ewing, Ion irradiation-induced
amorphization of six zirconolite compositions, Nuclear Instruments and Methods in
Physics Research B 166-167 (2000) 293-298.
73.
S.X. Wang, L.M. Wang, R.C. Ewing and K.V. Govindan Kutty, Ion irradiation of rare
earth- and yttrium-tatanate pyrochlores, Nuclear Instruments and Methods in Physics
Research B 169 (2000) 135-140.
74.
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.
75.
L.M. Wang, S.X. Wang and R.C. Ewing, Amorphization of cubic zirconia by cesium ion
implantation, Philosophical Magazine Letters 80 (2000) 341-347.
76.
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.
77.
B.X. Gu, L.M. Wang, S.X. Wang, D.G. Zhao, V.H. Rotberg and R.C. Ewing, The effect of
H+ irradiation on the Cs ion exchange capacity of zeolite-NaY, J. Materials Chemistry 10
(2000) 2610-2616.
78.
M. Nyman, B.X. Gu, L.M. Wang, R.C. Ewing and T.M. Neoff, Synthesis and
characterization of a new microporous cesium silicotitanate (SNL-B) molecular sieve,
Microporous Materials 40 (2000) 115-125.
79.
M. Nyman, F. Bonhomme, D.M. Teter, R.S. Maxwell, B.X. Gu, L.M. Wang, R.C. Ewing
and T.M. Neoff, Integrated experimental and computational methods for structure
determination and characterization of a new, highly stable cesium silicotitanate phase,
Cs2TiSi6O15 (SNL-A), Chemistry of Materials 12 (2000) 3449-3458.
80.
S.X. Wang, L.M. Wang and R.C. Ewing, Irradiation induced-amorphization: the effects of
temperature, ion species, dose rate, and materials, Physical Review B, 63(2) (2001) 4105141058.
81.
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.
82.
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.
83.
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.
84.
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.
85.
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.
86.
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.
87.
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.
88.
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.
89.
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.
90.
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.
91.
S.X. Wang, L.M. Wang, R.C. Ewing, Ion irradiation-induced amorphization of two GeO2
polymorphs, Nuclear Instruments and Methods in Physics Research B 175 (2001) 615619.
92.
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.
93.
B.X. Gu, L.M. Wang, L.D. Minc and R.C. Ewing, Temperature effects on the radiation
stability and ion exchange capacity of smectites, J. Nuclear Materials 297 (3) (2001) 345354.
94.
J. Chen, J. Lian, L.M. Wang, R.C. Ewing and L.A. Boatner, X-ray photoelectron
spectroscopy study of irradiation-induced amorphization of Gd2Ti2O7, Applied Physics
Letters 79 (13) (2001) 1989-1991.
95.
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.
96.
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 coimplanted single-crystal silicon during annealing, J. Applied Physics 90 (8) (2001) 37803786.
97.
X.T. Zu, L.M. Wang, Y. Huo, L.B. Li, Z.G. Wang, T.C. Lu, L.J. Liu and X.D. Feng, Effect
of electron irradiation on the transformation characteristics of narrow hysteresis TiNiCu
shape memory alloys, Applied Physics Letters 80 (1) (2002) 31-33.
98.
B. Gu, L. Wang and R.C. Ewing, The effects of radiation on the retention of strontium in
zeolite-NaSrY, J. Materials Chemistry 12 (2002) 233-238.
99.
J. Chen, J. Lian, L.M. Wang, R.C. Ewing, R.G. Wang and W. Pan, X-ray photoelectron
spectroscopy study of disordering in Gd2(Ti1-xZrx)2O7 pyrochlores Physical Review Letters
88 (10) (2002) 1105901-105904.
100. 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.
101. 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.
102. 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.
103. K.B. Helean KB, A. Navrotsky A, E.R. Vance, M.L. Carter, B. Ebbinghaus, O. Krikorian,
J. Lian, L.M. Wang, J.G. Catalano, Enthalpies of formation of Ce-pyrochlore,
Ca0.93Ce1.00Ti2.035O7.00, U-pyrochlore, Ca1.46U0.234+U0.466+Ti1.85O7.00 and Gd-pyrochlore,
Gd2Ti2O7: three materials relevant to the proposed waste form for excess weapons
plutonium, J. Nuclear Materials 303 (2-3) (2002) 226-239.
104. 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.
105. 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.
106. J. Lian, L.M. Wang, G.R. Lumpkin and R.C. Ewing, Heavy ion irradiation effects of
brannerite-type ceramics, Nuclear Instruments and Methods in Physics Research B 191
(2002) 565-570.
107. S. Utsunomiya, L.M. Wang and R.C. Ewing, Ion irradiation effects in natural garnets:
Comparison with zircon, Nuclear Instruments and Methods in Physics Research B 191
(2002) 600-605.
108. J. Lian, X.T. Zu, K.V. Kutty, J. Chen, L.M. Wang and R.C. Ewing, Ion-irradiation-induced
amorphization of La2Zr2O7 pyrochlore, Phsical Review B 66 (2002) 0541081-5.
109. 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) 25552560.
110. Z.G. Wang, X.T. Zu, X.D. Feng, S. Zhu, J.Y. Dai, L.B. Lin, L.M. Wang, Study of
two-way shape memory extension spring of narrow hysteresis TiNiCu shape
memory alloys, Materials Letters 56 (3) (2002) 284-288.
111. 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.
112. S. Utsunomiya, L.M. Wang, M. Douglas, S.B. Clark and R.C. Ewing, The effect of
ionizing radiation on uranophane, American Mineralogist 88 (2003) 159-166.
113. 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.
114. J. Lian, L. Wang, J. Chen, K. Sun, R.C. Ewing, J.M. Farmer, L.A. Boatner, The orderdisorder transition in ion-irradiated pyrochlore, Acta Materialia 51(2003) 1493-1502.
115. Z.G. Wang, X.T. Zu, X.D. Feng, L.B. Lin, S. Zhu, L.P. You, L.M. Wang, Design of TiNi
alloy two-way shape memory coil extension spring, Materials Science and Engineering A
345 (2003) 249-254.
116. X.T. Zu, L.B. Lin, Z.G. Wang, S. Zhu, L.P. You, L.M. Wang, Y. Huo,
Influence of electron irradiation on the martensitic transformation of a binary TiNi shape
memory alloy, J. Alloys and Compounds 351 (1-2) (2003) 87-90.
117. X.T. Zu, C.F. Zhang, S. Zhu, Y. Huo, Z.G. Wang, L.M. Wang, Electron irradiation-induced
changes of martensitic transformation characteristics in a TiNiCu shape memory alloy,
Materials Letters 57 (13-14) (2003) 2099-2103.
118. 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.
119. 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.
120. 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.
121. 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.
122. Z.G. Wang, X.T. Zu, L.J. Liu, S. Zhu, Y. Huo, L.B. Lin, X.D. Feng, L.M. Wang,
Effect of 18 MeV proton irradiation on the R-phase transformation in TiNi shape memory
alloys, Nuclear Instruments & Methods in Physics Research B 211 (2) (2003) 239-243.
123. 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.
124. 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.
125. S. Utsunomiya S, S. Yudintsev, L.M. Wang, R.C. Ewing, Ion-beam and electron-beam
irradiation of synthetic britholite, J. Nuclear Materials 322 (2003) 180-188.
126. Z.G. Wang, X.T. Zu, P. Fu, J.Y. Dai, S. Zhu, L.M. Wang, Two-way shape memory effect
of TiNi alloy coil extension springs, Materials Science and Engineering A 360 (1-2)
(2003) 126-131.
127. J. Lian, S. Ríos, L.A. Boatner, L.M. Wang and R.C. Ewing, Microstructural evolution and
nanocrystal formation in Pb+-implanted ZrSiO4 sungle crystals, J. Applied Physics 94 (9)
(2003) 5695-5703.
128. J. Lian, J. Chen, L.M. Wang, R.C. Ewing, J.M. Farmer, L.A. Boatner, K.B. Helean,
Radiation-induced amorphization of rare-earth titanate pyrochlores, Physical Review B 68
(2003) 134107.
129. X.T. Zu, S. Zhu, X. Xiang, L.P. You, Y. Huo, L.M. Wang, In situ TEM observation of
heavy-ion-irradiation-induced amorphization in a TiNiCu shape memory alloy, Materials
Science and Engineering A 363 (2003) 352-355.
130. D. Shi, J. Lian, P. He, L.M. Wang, F. Xiao, L. Yang, M.J. Schulz, and D.B. Mast, Plasma
coating of carbon nanofibers for enhanced dispersion and interfacial bonding in polymer
composites, Applied Physics Letters 83(25) (2003) 5301-5303.
131. J. Zeng, P. Chou, A. Ignatiev, J. Lian, L. Wang, Microstructure of epitaxial YBa 2Cu3O7-δ
thick films grown by photoassisted metal-organic chemical vapor deposition, IEEE
Transactions on Applied Superconductivity 13(4) (2003) 3839-3844.
132. X. Xiang and X.T. Zu, S. Zhu and L.M. Wang, Optical properties of metallic nanoparticles
in Ni-ion-implanted -Al2O3 single crystals, Applied Physics Letters 84(1) (2004) 52-54.
133. K. Sun, S. Zhu, R. Fromknecht, G. Linker, L.M. Wang, Formation of single-layered Au
nanoparticles in Au ion implanted TiO2 and SrTiO3, Materials Letters 58 (2004) 547-550.
134. Z.G. Wang, X.T. Zu, Y. Huo, S. Zhu, X.W. Wei and L.M. Wang, Effect of electron
irradiation and heat treatment on the multi-step transformation in a Ni-rich near-equiatomic
TiNi alloy, Nuclear Instruments & Methods in Physics Research B 215 (2004) 436-442.
135. R. Fromknecht, G. Linker, L.M. Wang, S. Zhu, K. Sun, A. van Veen, M. van Huis, J.
Niemyer, T. Weimann and J. Wang, Formation of Au nanocrystals in ceramic oxides by ion
implantation, Surface and Interface Analysis 36 (2004) 193-194 (short communications).
136. K. Sun, L.M. Wang, R.C. Ewing and W.J. Weber, Electron induced phase separation in a
sodium borosilicate glass, Nuclear Instruments & Methods in Physics Research B 218
(2004) 368-374.
137. W. Jiang, W.J. Weber, L.M. Wang and K. Sun, Amorphization processes in Au ion
irradiated GaN at 150-300K, Nuclear Instruments & Methods in Physics Research B
218 (2004) 427-432.
138. J. Lian, R.C. Ewing, L.M. Wang and K.B. Helean, Ion-beam irradiation of Gd2Sn2O7 and
Gd2Hf2O7 pyrochlore: Bond-type effect, J. Materials Research 19(5) (2004) 1575-1580.
139. J. Lian, L.M. Wang, R.G. Haire, K.B. Helean, R.C. Ewing, Ion Beam irradiation in
La2Zr2O7-Ce2Zr2O7 pyrochlore, Nuclear Instruments & Methods in Physics Research B
218 (2004) 236-243.
140. Weilin Jiang, William J. Weber, Chongmin Wang, Lumin Wang and Kai Sun,
Experimental studies of defects, implants and their processes in ion-irradiated gallium
nitride single crystals, Defect and Diffusion Forum 226-228 (2004) 91-111 (also cited in
Defects and Diffusion in ceramics-an Annual Retrospective-VI, edited by David J. Fisher,
Trans Tech Publications, Inc., Zurich, Switzerland (2004) p.p. 91-111).
141. J.M. Zeng, J. Lian, L.M. Wang, P.C. Chou, A. Ignatiev, HRTEM characterization of
Yba2Cu3O7-delta thick films on LaAlO3 substrates, Physica C 405(2) (2004) 127-132.
142. S. Thevuthasan, V. Shutthanandan, C.M. Wang, W.J. Weber, W. Jiang, A. Cavanagh, J.
Lian and L.M. Wang, Ion-beam synthesis of epitaxial Au nanocrystals in MgO, J.
Materials Research 19(5) (2004) 1311-1314 (Rapid communications).
143. Z.G. Wang, X.T. Zu, X.D. Feng, S. Zhu, J. Deng and L.M. Wang, Effect of
electrothermal annealing on the transformation behavior of TiNi shape memory
alloy and two-way shape memory spring actuated by direct electrical current,
Physica B 349 (2004) 365–370.
144. Y. Hou, X.T. Zu, A. Li, Z.G. Wang and L.M. Wang, Modeling and simulation of
irradiation effects on martensitic transformation in shape memory alloys, Acta Materialia
52(9) (2004) 2683-2690.
145. X.C. Sun, Z.Y. Jia, Y.H. Huang, J.W. Harrell, D.E. Nikles, K. Sun and L.M. Wang,
Synthesis and magnetic properties of CoPt nanoparticles, J. Applied Physics 95(11) (2004)
6747-6749.
146. K. Parvin, J. Ma, J. Ly, X.C. Sun, D.E. Nikles, K. Sun and L.M. Wang, Synthesis and
magnetic properties of monodisperse Fe3O4 nanoparticles, J. Applied Physics 95(11)
(2004) 7121-7123.
147. T.C. Lu, L.B. Lin, X.T. Zu, S. Zhu, L.M. Wang, Nuclear Instruments & Methods in
Physics Research B 218 (2004) 111-116.
148. X.T. Zu, F.R. Wan, S. Zhu and L.M. Wang, Irradiation-induced martensitic transformation
of TiNi shape memory alloys, Physica B 351 (2004) 59-62.