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HC Zeng Department of Chemical and Biomolecular Engineering - HC

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HC Zeng Department of Chemical and Biomolecular Engineering - HC Powered By Docstoc
					H.C. Zeng
Department of Chemical and Biomolecular Engineering
Faculty of Engineering, National University of Singapore
10 Kent Ridge Crescent, Singapore 119260


List of publications:

Part I. Refereed International Journal Papers/Patents:

1.     H.C. Zeng, R.N.S. Sodhi and K.A.R. Mitchell, "A LEED Crystallographic Analysis for the
       Cu(100)-(2×2)-S Surface Structure", Surface Science, Vol. 177 (1986) pp 329-337.

2.     H.C. Zeng and K.A.R. Mitchell, "Further Observations with Low-Energy Electron
       Diffraction for the Cu(100)-(2×2)-S Surface Structure: Spot-Profile and Multiple-Scattering
       Analyses", Canadian Journal of Physics, Vol. 65 (1987) pp 500-504.

3.     H.C. Zeng, R.N.S. Sodhi and K.A.R. Mitchell, "A LEED Crystallographic Analysis for the
       Cu(100)c(2×2)-N Surface Structure", Surface Science, Vol. 188 (1987) pp 599-608.

4.     H.C. Zeng, R.A. McFarlane, R.N.S. Sodhi and K.A.R. Mitchell, "LEED Crystallographic
       Studies for the Chemisorption of Oxygen on the (100) Surface of Copper", Canadian
       Journal of Chemistry, Vol. 66 (1988) pp 2054-2062.

5.     H.C. Zeng, R.A. McFarlane and K.A.R. Mitchell, "An Investigation with LEED of the
       Adsorbate Induced Metal Relaxations in the Cu(100)-(2×2)-S Surface Structure", Physical
       Review B, Vol. 39 (1989) pp 8000-8002.

6.     H.C. Zeng, R.A. McFarlane and K.A.R. Mitchell, "A LEED Crystallographic Investigation
       of Some Missing Row Models for the Cu(100)-(2√2×√2)R45o-O Surface Structure",
       Surface Science, Vol. 208 (1989) pp L7-L14.

7.     H.C. Zeng and K.A.R. Mitchell, "A Further LEED Study of the Surface Structure
       Designated Cu(100)-c(2×2)-N", Langmuir, Vol. 5 (1989) pp 829-833.

8.     S.R. Parkin, H.C. Zeng, M.Y. Zhou, and K.A.R. Mitchell, "Low-Energy Electron
       Diffraction Crystallographic Determination for the Cu(110)2×1-O Surface Structure",
       Physical Review B, Vol. 41 (1990) pp 5432-5435.

9.     H.C. Zeng, R.A. McFarlane and K.A.R. Mitchell, "Inclusion of Off-Normal Incidence Data
       in a LEED Crystallographic Analysis for the Cu(100)-(2×2)-S Surface Structure", Canadian
       Journal of Physics, Vol. 68 (1990) pp 353-356.

10.    Ch. Wöll, R.J. Wilson, S. Chiang, H.C. Zeng, and K.A.R. Mitchell, "The Oxygen on
       Cu(100) Surface Structure Studied by Scanning Tunnelling Microscopy and by LEED
       Multiple Scattering Calculations", Physical Review B, Vol. 42 (1990) pp 11926-11929.
11.   H.C. Zeng and K.A.R. Mitchell, "Further LEED Investigations of Missing Row Models for
      the Cu(100)-(2√2×√2)R45o-O Surface Structure", Surface Science, Vol. 239 (1990) pp
      L571-L578.

12.   St.J. Dixon-Warren, E.T. Jensen, J.C. Polanyi, G.-Q. Xu, S.H. Yang, and H.C. Zeng,
      "Photochemistry of Adsorbed Molecules Part 10: Harpooning a Fixed Target: Charge
      Transfer from Ag or K Substrates to Halide Adsorbates", Faraday Discuss. Chem. Soc., Vol.
      91 (1991) pp 451-463.

13.   N. Li, T.C. Tan, and H.C. Zeng, "High Temperature Carbon Monoxide Potentiometric
      Sensor", Journal of the Electrochemical Society, Vol. 140 (1993) pp 1068-1073.

14.   H.C. Zeng, T.C. Chong, L.C. Lim, H. Kumagai, and M. Hirano, "Process for growing oxide
      single crystals", Japan Patent No. H5-227020, 1993.

15.   H.C. Zeng, T.C. Chong, L.C. Lim, H. Kumagai, and M. Hirano, "Pseudo-dendritic Growth
      in Lead Molybdate Single Crystal by Czochralski Technique", Journal of Crystal Growth,
      Vol. 140 (1994) pp 148-156.

16.   S. Shi and H.C. Zeng, "Kinetics of chain reaction between organochromium macrocyclic
      complexes and iodine", Journal of Organometallic Chemistry, Vol. 484 (1994) pp 59-65.

17.   H.C. Zeng, J. Lin, W.K. Teo, F.C. Loh and K.L. Tan, "Surface Ni2+ diffusion in sol-gel
      derived tetragonal and monoclinic ZrO2 matrices", Journal of Non-Crystalline Solids, Vol.
      181 (1995) pp 49-57.

18.   H.C. Zeng and S. Shi, "Retention behaviours of carbon-containing species in as-prepared,
      water treated, and transition metal contaminated ZrO2 gels", Journal of Non-Crystalline
      Solids, Vol. 185 (1995) pp 31-40.

19.   S. Shi, W. Ji, T.C. Chong, H.C. Zeng, J.P. Lang and X.Q. Xin, "A mixed metal cluster (n-
      Bu4N)2[MoCu3OS3(NCS)3]. The first example of a nest-shaped compound with large third-
      order hyperpolarizability and optical limiting effect", Materials Chemistry and Physics, Vol.
      39 (1995) pp 298-303.

20.   H.C. Zeng, J. Lin, W.K. Teo, J.C. Wu, and K.L. Tan, "Monoclinic ZrO2 and Its Supported
      Materials Co/Ni/ZrO2 for N2O Decomposition", Journal of Materials Research, Vol. 10
      (1995) pp 545-552 (a featuring article).

21.   H.C. Zeng, J. Lin, and K.L. Tan, "Memory Effect of ZrO2 Matrix on Surface Co3O4-CoO
      Transition", Journal of Materials Research, Vol. 10 (1995) pp 3096-3105.

22.   W. Liu, K.C. Wong, H.C. Zeng, and K.A.R. Mitchell, "What determines the structures
      formed by oxygen at low index surfaces of copper?", Progress of Surface Science, Vol. 50
      (1995) pp 247-257.
23.   H.C. Zeng, "Synthesis of stoichiometric lead molybdate PbMoO4: an x-ray diffraction,
      Fourier transform infrared spectroscopy and differential thermal analysis study", Journal of
      Materials Research, Vol. 11 (1996) pp 703-715.

24.   H.C. Zeng, "Rectangular vacancy island formation and self-depletion in Czochralski-grown
      PbMoO4 single crystal during heat-treatment", Journal of Crystal Growth, Vol. 160 (1996)
      pp 119-128.

25.   H.C. Zeng, T.C. Chong, L.C. Lim, H. Kumagai, and M. Hirano, "Effects of Meniscus on the
      Directional Growth of Potassium Niobate Single Crystals", Journal of Crystal Growth, Vol.
      160 (1996) pp 289-295.

26.   H.C. Zeng, T.C. Chong, L.C. Lim, H. Kumagai, and M. Hirano, "Two-Level Growth of
      Potassium Niobate KNbO3 Single Crystals: A New Growth Method for ABO3 Type
      Materials", Journal of Crystal Growth, Vol. 160 (1996) pp 296-304.

27.   H.C. Zeng and M. Qian, "Diffusion of transition metals (Co,Ni) and its effects on sol-gel
      derived ZrO2 polymorphic stabilities", Journal of Materials Chemistry, Vol. 6 (1996) pp
      435-442.

28.   X.Y. Pang, H.C. Zeng, J.C. Wu and K. Li, "Catalytic decomposition of nitrous oxide N2O: a
      study for p-block-element lead in PbO-ZrO2/Al2O3 systems", Applied Catalysis B, Vol. 9
      (1996) pp 149-165.

29.   J. Lin, H.Y. Chen, L. Chen, K.L. Tan, and H.C. Zeng, "N2O decomposition over ZrO2 − an
      in-situ DRIFT, TPR, TPD and XPS study", Applied Surface Science, Vol. 103 (1996) pp
      307-314.

30.   L.C. Lim, L.K. Tan, and H.C. Zeng, "Bubble formation in Czochralski-grown lead
      molybdate crystals", Journal of Crystal Growth, Vol. 167 (1996) pp 686-692.

31.   H.C. Zeng and S.K. Tung, "Synthesis of lithium niobate gels using a metal alkoxide - metal
      nitrate precursor", Chemistry of Materials, Vol. 8 (1996) pp 2667-2672.

32.   H.C. Zeng, "Correlation of PbMoO4 crystal imperfections to Czochralski growth process",
      Journal of Crystal Growth, Vol. 171 (1997) pp 136-145.

33.   H.C. Zeng, L.C. Lim, H. Kumagai, and M. Hirano, "Effect of ambient water on crystal
      morphology and coloration of lead molybdate", Journal of Crystal Growth, Vol. 171 (1997)
      pp 493-500.

34.   H.C. Zeng, "Growth Kinetic Study of Potassium Niobate Single Crystal: a new method for
      high time-resolution kinetic data of ABO3-type materials", Journal of Crystal Growth, Vol.
      173 (1997) pp 446-455.

35.   H.C. Zeng and X.Y. Pang, "Catalytic decomposition of nitrous oxide on alumina-supported
      ruthenium catalysts Ru/Al2O3", Applied Catalysis B, Vol. 13 (1997) pp 113-122.
36.   H.C. Zeng, K. Tanaka, K. Hirao, and N. Soga, "Crystallization and glass formation studies
      on 50Li2O-50Nb2O5 and 25Li2O-25Nb2O5-50SiO2 systems", Journal of Non-Crystalline
      Solids, Vol. 209 (1997) pp112-121.

37.   M. Qian and H.C. Zeng, "Synthesis and characterization of Mg-Co catalytic oxide materials
      for low-temperature N2O decomposition", Journal of Materials Chemistry, Vol. 7 (1997) pp
      493-499.

38.   K. Li, X.F. Wang, and H.C. Zeng, "Kinetics of N2O decomposition on a RuO2/Al2O3
      catalyst", Chemical Engineering Research and Design, Part A: Transactions of Institution of
      Chemical Engineers, Vol. 75 (1997) pp 807-812.

39.   H.C. Zeng, "Vapour phase growth of orthorhombic molybdenum trioxide crystals at normal
      pressure of purified air", Journal of Crystal Growth, Vol. 186 (1998) pp 393-402.

40.   X.F. Wang and H.C. Zeng, "Decomposition of water-containing nitrous oxide gas using
      Ru/Al2O3 catalysts", Applied Catalysis B, Vol. 17 (1998) pp 89-99.

41.   H.C. Zeng, C.W. Sheu, and H.C. Hia, "Kinetic Study of Vapour Phase Preparation of
      Orthorhombic Molybdenum Trioxide”, Chemistry of Materials, Vol. 10 (1998) pp 974-979.

42.   Z. Zhan and H.C. Zeng, "Metastability of tetragonal ZrO2 derived from Zr-n-propoxide-
      acetylacetone-water-isopropyl alcohol", Journal of Materials Research, Vol. 13 (1998)
      2174-2183.

43.   H.C. Zeng, M. Qian, and X.Y. Pang, "Catalytic decomposition of high-concentration nitrous
      oxide N2O", Studies in Surface Science and Catalysis, Vol. 116 (1998) pp 485-494.

44.   H.C. Zeng, "Chemical Etching of Molybdenum Trioxide: A New Tailor Made Synthesis of
      MoO3 Catalysts", Inorganic Chemistry, Vol. 37 (1998) pp 1967-1973.

45.   H.C. Zeng and L.C. Lim, "Secondary ionic forces in lead molybdate melt solidification",
      Journal of Materials Research, Vol. 13 (1998) 1426-1429.

46.   H.C. Zeng, Z.P. Xu and M. Qian, "Synthesis of Non-Al-Containing Hydrotalcite-Like
      Compounds Mg0.3Co(II)0.6Co(III)0.2(OH)2(NO3)0.2⋅H2O", Chemistry of Materials, Vol. 10
      (1998) pp 2277-2283.

47.   H.C. Zeng, "A Method for the Decomposition of Nitrous Oxide", Singapore Patent
      Application No. 9801076-2, Filing Date: May 15, 1998; Singapore Patent P-No. 94703,
      Date of Grant: May 31, 2004.

48.   Z.P. Xu and H.C. Zeng, "Thermal Evolution of Co-Hydroxides: A Comparative Study for
      Their Various Structural Phases", Journal of Materials Chemistry, Vol. 8 (1998) pp 2499-
      2506.
49.   S. Balakumar and H.C. Zeng, "Preparation of orthorhombic molybdenum trioxide crystals
      using a semi-open flux growth system", Journal of Crystal Growth, Vol. 194 (1998) pp
      195-202.

50.   S. Balakumar and H.C. Zeng, "Growth modes in vapor phase prepared orthorhombic
      molybdenum trioxide crystals", Journal of Crystal Growth, Elsevier Science B.V., The
      Netherlands, Vol. 197 (1999) pp 186-194.

51.   Z.P. Xu and H.C. Zeng, "Interconversion between Brucite-Like and Hydrotalcite-Like
      Phases in Co-Hydroxide Compounds", Chemistry of Materials, Vol. 11 (1999) pp 67-74.

52.   Z. Zhan and H.C. Zeng, "A catalyst-free approach for sol-gel synthesis of highly mixed
      ZrO2-SiO2 oxides", Journal of Non-Crystalline Solids, Vol. 243 (1999) pp 26-38.

53.   S. Balakumar and H.C. Zeng, "Surface reconstruction in TGS family crystals under
      humidity and temperature controls", Materials Research Innovations, Vol. 2, No. 5 (1999)
      pp 289-298.

54.   H.C. Zeng, "Purification growth of orthorhombic molybdenum trioxide crystals from
      alkali-metal-containing Mo-sources", Journal of Crystal Growth, Vol. 203 (1999) pp 547-
      553.

55.   Z. Zhan and H.C. Zeng, “The Self-Catalytic Role of Zirconium n-Propoxide in Sol-Gel
      Synthesis of ZrO2-SiO2 Mixed Oxides”, Journal of Materials Chemistry, Vol. 9 (1999) pp
      2647-2652.

56.   S. Balakumar and H.C. Zeng, "Water-Assisted Reconstruction on Ferroelectric Domain
      Ends of Triglycine Sulfate (NH2CH2COOH)3·H2SO4 Crystals", Journal of Materials
      Chemistry, Vol. 10 (2000) pp 651-656.

57.   L. Ji, J. Lin, and H.C. Zeng, “Metal−support interactions in Co/Al2O3 catalysts: a
      comparative study on reactivity of support”, Journal of Physical Chemistry B, Vol. 104
      (2000) pp 1783-1790.

58.   U. Chellam, Z.P. Xu, and H.C. Zeng, “Low-temperature synthesis of MgxCo1-xCo2O4
      spinel catalysts for N2O decomposition”, Chemistry of Materials, Vol. 12 (2000) pp 650-
      658.

59.   L. Ji, J. Lin, K.L. Tan, and H.C. Zeng, “Synthesis of High Surface Area Alumina Using
      Aluminium-Trisecbutoxide−2,4-Pentanedione−Isopropanol−Nitric-Acid Precursors”,
      Chemistry of Materials, Vol. 12 (2000) pp 931-939.

60.   H.C. Zeng and Y.Y. Lim, “Synthesis of Co3O4 spinel at ambient conditions”, Journal of
      Materials Research, Vol. 15 (2000) pp 1250-1253.
61.   Z.P. Xu and H.C. Zeng, "A New Approach for Design and Synthesis of CoII and CoII,III
      Hydroxide Materials", International Journal of Inorganic Materials, Vol. 2 (2000) pp 187-
      196.

62.   L. Ji, S. Tang, P. Chen, H.C. Zeng, J. Lin, and K.L. Tan, "Effect of nanostructured
      supports on catalytic methane decomposition", Pure and Applied Chemistry, Vol. 72
      (2000) 327-331.

63.   Z.P. Xu and H.C. Zeng, “Decomposition Processes of Organic-Anion-Pillared Clays
      CoaMgbAl(OH)c(TA)d⋅nH2O”, Journal of Physical Chemistry B, Vol. 104 (2000) pp
      10206-10214.

64.   Z.Y. Hsu and H.C. Zeng, “Generation of Double-Layer Steps on the (010) Surface of
      Orthorhombic MoO3 via Chemical Etching at Room Temperature”, Journal of Physical
      Chemistry B, Vol. 104 (2000) pp 11891-11898.

65.   Z.P. Xu and H.C. Zeng, “In-situ generation of maximum trivalent cobalt in synthesis of
      hydrotalcite-like compounds MgxCoII1-x-yCoIIIy(OH)2(NO3)y⋅nH2O”, Chemistry of
      Materials, Vol. 12 (2000) pp 2597-2603.

66.   S. Tang, L. Ji, J. Lin, H.C. Zeng, K.L. Tan, and K. Li, "CO2 Reforming of Methane to
      Synthesis Gas over Sol-Gel-Made Ni/γ-Al2O3 Catalysts from Organometallic Precursors",
      Journal of Catalysis, Vol. 194 (2000) 424-430.

67.   Z.P. Xu and H.C. Zeng, “Control of surface-area and porosity of Co3O4 via intercalation of
      oxidative or non-oxidative anions in hydrotalcite-like precursors”, Chemistry of Materials,
      Vol. 12 (2000) pp 3459-3465.

68.   L. Ji, J. Lin, and H.C. Zeng, “Formation Route of Carbon Nanotubes in a Gel Matrix”,
      Chemistry of Materials, Vol. 12 (2000) pp 3466-3471.

69.   L. Ji, S. Tang, H.C. Zeng, J. Lin, and K.L. Tan, "CO2 reforming of methane to synthesis
      gas over sol-gel-made Co/γ-Al2O3 catalysts from organometallic precursors", Applied
      Catalysis A, Vol. 207 (2001) pp 247-255.

70.   R. Xu and H.C. Zeng, “Synthesis of Nanosize Supported Hydrotalcite-like Compounds
      CoAlx(OH)2+2x(CO3)y(NO3)x-2y⋅nH2O on γ-Al2O3”, Chemistry of Materials, Vol. 13 (2001)
      pp 297-303.

71.   Z.P. Xu and H.C. Zeng, “Abrupt Structural Transformation in Hydrotalcite-like
      Compounds Mg1-xAlx(OH)2(NO3)x⋅nH2O as a Continuous Function of Nitrate Anions”,
      Journal of Physical Chemistry B, Vol. 105 (2001) pp 1743-1749.

72.   L. Ji, J. Lin, and H.C. Zeng, “Thermal Processes of Volatile RuO2 in Nanocrystalline
      Al2O3 Matrixes Involving γ→α Phase-Transformation”, Chemistry of Materials, Vol. 13
      (2001) pp 2403-2412.
73.   H.C. Zeng, W.K. Ng, L.H. Cheong, F. Xie, and R. Xu, “Insertion Direction of Hydrogen in
      Protonation of α-MoO3”, Journal of Physical Chemistry B, Vol. 105 (2001) pp 7178-
      7181.

74.   S.H. Teo and H.C. Zeng, “Surface and Textural Properties of Network-Modified Silica as
      a Function of Transition Metal Dopant Zirconium”, Journal of Physical Chemistry B,
      Vol. 105 (2001) pp 9093-9100.

75.   Z.P. Xu and H.C. Zeng, “Ionic Interactions in Crystallite Growth of CoMgAl-
      Hydrotalcite-like Compounds”, Chemistry of Materials, Vol. 13 (2001) pp 4555-4563.

76.   Z.P. Xu and H.C. Zeng, “Decomposition Pathways of Hydrotalcite-like Compounds Mg1-
      xAlx(OH)2(NO3)x⋅nH2O as a Continuous Function of Nitrate Anions”, Chemistry of
      Materials, Vol. 13 (2001) pp 4564-4572.

77.   J.T. Sampanthar and H.C. Zeng, “Synthesis of CoIICoIII2-xAlxO4−Al2O3 Nanocomposites
      via Decomposition of CoII0.73CoIII0.27(OH)2.00(NO3)0.23(CO3)0.02⋅0.5 H2O in Sol-Gel Derived
      γ-Al2O3 Matrix", Chemistry of Materials, Vol. 13 (2001) pp 4722-4730.

78.   Z.P. Xu, R. Xu and H.C. Zeng, “Sulphate-Functionalized Carbon/Metal-Oxide
      Nanocomposites from Hydrotalcite-like Compounds”, Nano Letters, Vol. 1 (2001) pp 703-
      706.

79.   L. Chen, J. Lin, H.C. Zeng, and K.L. Tan, "Non-oxidative methane conversion into
      aromatics on mechanically mixed Mo/HZSM-5 catalysts", Catalysis Communications,
      Vol. 2 (2001) pp 201-206.

80.   S.M. Liu, L.M. Gan, L.H. Liu, W.D. Zhang, and H.C. Zeng, “Synthesis of Single-
      Crystalline TiO2 Nanotubes”, Chemistry of Materials, Vol. 14 (2002) pp 1391-1397.

81.   H.C. Zeng, F. Xie, K. Wong, and K.A.R. Mitchell, "Insertion and Removal of Protons in
      Orthorhombic Molybdenum Trioxide under H2S/H2 and O2/N2", Chemistry of Materials,
      Vol. 14 (2002) pp 1788-1796.

82.   J.T. Sampanthar and H.C. Zeng, “Arresting Butterfly-Like Intermediate Nanocrystals of
      β-Co(OH)2 via Ethylenediamine-Mediated Synthesis”, Journal of the American Chemical
      Society, Vol. 124 (2002) pp 6668-6675.

83.   X.W. Lou and H.C. Zeng, “Hydrothermal Synthesis of α-MoO3 Nanorods via Acidification
      of Ammonium-Heptamolybdate-Tetrahydrate”, Chemistry of Materials, Vol. 14 (2002)
      pp 4781-4789.

84.   C. Yong, B.C. Zhang, C.S. Seet, A. See, L. Chan, J. Sudijono, S.L. Liew, C.H. Tung, and
      H.C. Zeng, “Cool Copper Template for Formation of Oriented Nanocrystalline α-
      Tantalum”, Journal of Physical Chemistry B, Vol. 106 (2002) pp 12366-12368 (Letter).
85.   R. Xu and H.C. Zeng, “Mechanistic Investigation on Salt-Mediated Formation of Free-
      Standing Co3O4 Nanocubes at 95oC”, Journal of Physical Chemistry B, Vol. 107 (2003)
      pp 926-930.

86.   X.M. Wei and H.C. Zeng, “Sulfidation of Single Molecular Sheets of MoO3 Pillared by
      Bipyridine in Nanohybrid MoO3(4,4'-bipyridyl)0.5”, Chemistry of Materials, Vol. 15
      (2003) pp 433-442.

87.   X.W. Lou and H.C. Zeng, “Complex α-MoO3 Nanostructures with External Bonding
      Capacity for Self-Assembly”, Journal of the American Chemical Society, Vol. 125
      (2003) pp 2697-2704.

88.   X.M. Wei and H.C. Zeng, “Large-Scale Organizations of MoO3 Nanoplatelets with
      Single-Crystalline MoO3(4,4'-bipyridyl)0.5”, Journal of Physical Chemistry B, Vol. 107
      (2003) pp 2619-2622 (Letter).

89.   B. Liu and H.C. Zeng, “Hydrothermal Synthesis of ZnO Nanorods in Diameter Regime of
      50 nm”, Journal of the American Chemical Society, Vol. 125 (2003) pp 4430-4431.

90.   R. Xu and H.C. Zeng, “Mechanistic Investigation of Self-Redox Decompositions of
      Cobalt-Hydroxide-Nitrate Compounds with Different Nitrate Anion Configurations in
      Interlayer Space”, Chemistry of Materials, Vol. 15 (2003) pp 2040-2048.

91.   J. Feng and H.C. Zeng, “Size-Controlled Growth of Co3O4 Nanocubes”, Chemistry of
      Materials, Vol. 15 (2003) pp 2829-2835.

92.   H.G. Yang and H.C. Zeng, “Self-Aligned Growth of Hexagonal TiO2 Nanosphere Arrays
      on α-MoO3 (010) Surface”, Chemistry of Materials, Vol. 15 (2003) pp 3113-3120.

93.   H.G. Yang and H.C. Zeng, “Control of Nucleation in Solution Growth of Anatase TiO2 on
      Glass Substrate”, Journal of Physical Chemistry B, Vol. 107 (2003) pp 12244-12255.

94.   X.W. Lou and H.C. Zeng, “An Inorganic Route for Controlled Synthesis of W18O49
      Nanorods and Nanofibers in Solution”, Inorganic Chemistry, USA, Vol. 42 (2003) pp
      6169-6171 (Communication).

95.   R. Xu and H.C. Zeng, “Dimensional Control of Cobalt-Hydroxide-Carbonate Nanorods
      and Their Thermal Conversion to One-Dimensional Arrays of Co3O4 Nanoparticles”,
      Journal of Physical Chemistry B, Vol. 107 (2003) pp 12643-12649.

96.   C.S. Seet, B.C. Zhang, C. Yong, S.L. Liew, K. Lia, L.C. Hsia, H.L. Seng, T. Osiposwicz,
      J. Sudijono, H.C. Zeng, and J.B. Tan, “Via Resistance Reduction Using “Cool” PVD-Ta
      Processing”, Journal of The Electrochemical Society, Vol. 150 (2003) pp G766-G770.

97.   H.G. Yang and H.C. Zeng, “Lattice-Strain Directed Synthesis of Anatase TiO2 Single-
      Crystal Microplatelet Arrays on α-MoO3 (010) Template”, Journal of Physical Chemistry
      B, Vol. 108 (2004) pp 819-823 (Letter).
98.    Y. Chang and H.C. Zeng, “Manipulative Synthesis of Multipod-Frameworks for Self-
       Organization and Self-Amplification of Cu2O Microcrystals”, Crystal Growth & Design,
       Vol. 4 (2004) pp 273-278.

99.    Y. Chang and H.C. Zeng, “Controlled Synthesis and Self-Assembly of Single-Crystalline
       CuO Nanorods and Nanoribbons” Crystal Growth & Design, Vol. 4 (2004) pp 397-402.

100.   H.G. Yang and H.C. Zeng, “Preparation of Hollow Anatase TiO2 Nanospheres via
       Ostwald Ripening”, Journal of Physical Chemistry B, Vol. 108 (2004) pp 3492-3495.

101.   B. Liu and H.C. Zeng, “Room-Temperature Synthesis of ZnO Nanorods and Derived
       Hierarchical Nanostructures”, Langmuir, Vol. 20 (2004) pp 4196-4204.

102.   B. Liu and H.C. Zeng, “Salt-Assisted Deposition of SnO2 on a-MoO3 Nanorods and
       Fabrication of Polycrystalline SnO2 Nanotubes”, Journal of Physical Chemistry B, Vol.
       108 (2004) pp 5867-5874.

103.   B. Liu and H.C. Zeng, "Mesoscale Organization of CuO Nanoribbons: Formation of
       'Dandelions' ", Journal of the American Chemical Society, Vol. 126 (2004) pp 8124-8125.

104.   H.G. Yang and H.C. Zeng, "Creation of Intestine-like Interior Space for Metal Oxide
       Nanostructures with a Quasi Reverse Emulsion", Angewandte Chemie, International
       Edition, Vol. 43 (2004) pp 5206-5209.

105.   R. Xu and H.C. Zeng, "Self-Generation of Tiered Surfactant Superstructures for One-Pot
       Synthesis of Co3O4 Nanocubes and Their Close- and Non-Close-Packed Organizations",
       Langmuir, Vol. 20 (2004) pp 9780-9790.

106.   H.G. Yang and H.C. Zeng, "Self-Construction of Hollow SnO2 Octahedra Based on Two-
       Dimensional Aggregation of Nanocrystallites", Angewandte Chemie, International
       Edition, Vol. 43 (2004) pp 5930-5933.

107.   B. Liu and H.C. Zeng, “Fabrication of ZnO “Dandelions” via a Modified Kirkendall
       Process”, Journal of the American Chemical Society, Vol. 126 (2004) pp 16744-16746.

108.   H.G. Yang and H.C. Zeng, “Synthetic Architectures of TiO2/H2Ti5O11×H2O,
       ZnO/H2Ti5O11×H2O, ZnO/TiO2/H2Ti5O11×H2O, and ZnO/TiO2 Nanocomposites”,
       Journal of the American Chemical Society, Vol. 127 (2005) pp 270-278.

109.   Y. Chang, J.J. Teo, and H.C. Zeng, “Formation of Colloidal CuO Nanocrystallites and
       Their Spherical Aggregation and Reductive Transformation to Hollow Cu2O
       Nanospheres”, Langmuir, Vol. 21 (2005) pp 1074-1079.

110.   B. Liu and H.C. Zeng, “Symmetric and Asymmetric Ostwald Ripening in Fabrication of
       Homogeneous Core-Shell Semiconductors”, Small, Vol. 1 (2005) pp 566-571.
111.   Y. Chang, M.L. Lye, and H.C. Zeng, “Large-Scale Synthesis of High-Quality Ultralong
       Copper Nanowires”, Langmuir, Vol. 21 (2005) pp 3746-3748 (Letter).

112.   J. Li and H.C. Zeng, “Size-Tuning, Functionalization, and Reactivation of Au in TiO2
       Nanoreactors”, Angewandte Chemie, International Edition, Vol. 44 (2005) pp 4342-4345.

113.   Y. Wang, J.Y. Lee, and H.C. Zeng, “Polycrystalline SnO2 Nanotubes Prepared via
       Infiltration Casting of Nanocrystallites and Their Electrochemical Application”,
       Chemistry of Materials, Vol. 17 (2005) pp 3899-3903.

114.   J. Feng and H.C. Zeng, "Reduction and Reconstruction of Co3O4 Nanocubes upon Carbon
       Deposition", Journal of Physical Chemistry B, Vol. 109 (2005) pp 17113-17119.

115.   K.W. Kho, Z.X. Shen, H.C. Zeng, K.C. Soo and M. Olivo, “Deposition Method for
       Preparing SERS-Active Gold Nanoparticle Substrates”, Analytical Chemistry, Vol. 77
       (2005) 7462-7471.

116.   B. Liu and H.C. Zeng, “Semiconductor Rings Fabricated by Self-Assembly of
       Nanocrystals” Journal of the American Chemical Society, Vol. 127 (2005) 18262-18268.

117.   H.C. Zeng, "Synthetic Architecture of Interior Space for Inorganic Nanostructures",
       Journal of Materials Chemistry, Vol. 16 (2006) 649-662 (Feature Article).

118.   Y. Wang, H.C. Zeng and J.Y. Lee, “Highly reversible lithium storage in porous SnO2
       nanotubes with coaxially grown carbon nanotube overlayers”, Advanced Materials, Vol.
       18 (2006) 645-649.

119.   H.M. Chen, R.-S. Liu, H.L. Li and H.C. Zeng, “Generating Isotropic Superparamagnetic
       Interconnectivity for Two-dimensional Organization of Nanostructured Building Blocks”,
       Angewandte Chemie, International Edition, Vol. 45 (2006) pp 2713-2717.

120.   J.J. Teo, Y. Chang, and H.C. Zeng, “Fabrications of Hollow Nanocubes of Cu2O and Cu via
       Reductive Self-Assembly of CuO Nanocrystals”, Langmuir, Vol. 22 (2006) pp 7369-7377.

121.   K.X. Yao and H.C. Zeng, “Asymmetric ZnO Nanostructures with an Interior Cavity”,
       Journal of Physical Chemistry B, Vol. 110 (2006) pp 14736-14743.
122.   Y.X. Zhang and H.C. Zeng, “Template-Free Parallel One-Dimensional Assembly of
       Gold Nanoparticles”, Journal of Physical Chemistry B, Vol. 110 (2006) pp 16812-16815
       (Letter).
123.   J. Li and H.C. Zeng, “Preparation of Monodisperse Au/TiO2 Nanocatalysts via Self-
       Assembly”, Chemistry of Materials, Vol. 18 (2006) pp xxxx-xxxx.
124.   H.C. Zeng, “Oriented Attachment: A Versatile Approach for Construction of
       Nanomaterials”, International Journal of Nanotechnology, Vol. 3 (2006) xxxx-xxxx
       (Invited Article).
Part II. Invited Book Chapters:

1.    H.C. Zeng, "Carbon Nanotube Based Nanocomposites", in Handbook of Organic-
      Inorganic Hybrid Materials and Nanocomposites, Volume 2: Nanocomposites, American
      Scientific Publishers, 2003, Chapter 4, pp 151-180.

2.    H.C. Zeng, "Nanostructured Catalytic Materials: Design and Synthesis", in The Dekker
      Encyclopedia of Nanoscience and Nanotechnology, Marcel Dekker, 2004, pp 2539-2550.

3.    H.C. Zeng, "Solid-State Synthesis of Carbon Nanotubes", in Encyclopaedia of
      Nanoscience and Nanotechnology, American Scientific Publishers, 2004, Vol. 10, pp 57-66.

4.    H.C. Zeng, "Synthetic Architecture of Inorganic Nanomaterials", in Nanocrystalline
      Materials: Their synthesis-structure-property relationships and applications, Elsevier
      Science, 2006, Chapter 2, pp 25-56.

				
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