116、T. Lv, L. K. Pan*, X. J. Liu, Z. Sun, RSC Advances DOI:10.1039/C2RA21382F, Enhanced visible-light photocatalytic degradation of methyl orange by BiPO4-CdS composites synthesized using microwave-assisted method

115、T. Q. Chen, L. K. Pan*, K. Yu, Z. Sun, Solid State Ionics DOI: 10.1016/j.ssi.2012.10.005 Microwave-assisted synthesis of reduced graphene oxide-carbon nanotubes composites as negative electrode materials for lithium ion batteries

114、T. Q. Chen, L. K. Pan*, X. J. Liu, K. Yu, Z. Sun, RSC Advances DOI:10.1039/C2RA21740F, One-step synthesis of SnO2-reduced graphene oxide-carbon nanotubes composites via microwave assistance for lithium ion batteries

113、T. Lv, L. K. Pan*, X. J. Liu, Z. Sun, Journal of Nanoscience Letters 3, 20 (2013), Microwave-assisted synthesis of TiO2-CdS composites for visible-light photocatalytic degradation of methyl orange.

112、T. Lv, L. K. Pan*, X. J. Liu, Z. Sun, Electrochimica Acta 83, 216 (2012), Visible-light photocatalytic degradation of methyl orange by CdS-TiO2-Au composites synthesized via microwave-assisted reaction

111、X. J. Liu, L. K. Pan*, T. Lv, Z. Sun, C. Q. Sun, Journal of Molecular Catalysis A: Chemical 363-364, 417 (2012), Enhanced photocatalytic reduction of Cr(VI) by ZnO-TiO2-CNTs composites synthesized via microwave-assisted reaction

110、G. Zhu, L. K. Pan*, J. Yang, X. J. Liu, H. C. Sun, Z. Sun, Journal of Materials Chemistry DOI:10.1039/C2JM33219A, Electrospun nest-shaped TiO2 structures as a scattering layer for dye sensitized solar cells

109、X. J. Liu, X. J. Wang, H. L. Li, L. K. Pan*, T. Lv, Z. Sun, C. Q. Sun, Journal of Materials Chemistry 22, 16293 (2012), Microwave-assisted synthesis of ZnO-Y3Al5O12:Ce3+ composites with enhanced visible light photocatalysis

108、H. B. Li, L. K. Pan*, C. Y. Nie, Y. Liu, Z. Sun, Journal of Materials Chemistry 22, 15556 (2012), Reduced graphene oxide and activated carbon composite for capacitive deionization

107、S. Chen, G. H. Zhou, F. F. Su, H. L. Zhang, L. X. Wang, M. J. Wu, M. B. Chen, L. K. Pan, S. W. Wang, Materials Letters 77, 17 (2012), Power conversion efficiency enhancement in silicon solar cell from solution processed transparent upconversion film.

106、Y. P. Zhang, T. Q. Chen, J. H. Wang, G. Q. Min, L. K. Pan, Z. T. Song, Z. Sun, W. M. Zhou, J. Zhang, Applied Surface Science 258, 4729 (2012), The study of multi-walled carbon nanotubes with different diameter as anodes for lithium ion batteries. 

105、T. Lv, L. K. Pan*, X. J. Liu, Z. Sun, Catalysis Science and Technology 2, 2297 (2012), Enhanced photocatalytic degradation of methylene blue by ZnO-reduced graphene oxide-carbon nanotubes composites synthesized via microwave-assisted reaction

104、J. Yang, L. K. Pan*, G. Zhu, X. J. Liu, H. C. Sun, Z. Sun, Journal of Electroanalytical Chemistry 677-680, 101 (2012), Electrospun TiO2 microspheres as a scattering layer for CdS quantum dot-sensitized solar cells

103、X. J. Liu, L. K. Pan*, T. Lv, Z. Sun, C. Q. Sun, RSC Advances 2, 3823 (2012), Sol-gel synthesis of Au/N-TiO2 composite for photocatalytic reduction of Cr(VI)

102、C. Y. Nie, L. K. Pan*, Y. Liu, H. B. Li, T. Q. Chen, T. Lu, Z. Sun, Electrochimica Acta 66, 106 (2012), Electrophoretic deposition of carbon nanotubes/polyacrylic acid composite film electrode for capacitive deionization

101、G. Zhu, L. K. Pan*, H. C. Sun, X. J. Liu, T. Lv, T. Lu, J. Yang, Z. Sun, ChemPhysChem 13, 769 (2012), Electrophoretic deposition of reduced graphene-Au nanoparticle composite film as counter electrode for CdS quantum dot-sensitized solar cells

100、X. J. Liu, T. Lv, L. K. Pan*, Z. Sun, C. Q. Sun, Desalination and Water Treatment 42, 216 (2012), Microwave-assisted synthesis of ZnO for photocatalytic reduction of Cr(VI) in aqueous solution

99、X. J. Liu, L. K. Pan*, Q. F. Zhao, T. Lv, G. Zhu, T. Q. Chen, T. Lu, Z. Sun, C. Q. Sun, Chemical Engineering Journal 183, 238 (2012), UV-assisted photocatalytic synthesis of ZnO-reduced graphene oxide composites with enhanced photocatalytic activity in reduction of Cr(VI)

98、T. Lv, L. K. Pan*, X. J. Liu, T. Lu, G. Zhu, Z. Sun, C. Q. Sun, Catalysis Science and Technology 2, 754 (2012), One-step synthesis of CdS-TiO2-chemically reduced graphene oxide composites via microwave-assisted reaction for visible-light photocatalytic degradation of methyl orange

97、C. Y. Nie, L. K. Pan*, H. B. Li, T. Q. Chen, T. Lu, Z. Sun, Journal of Electroanalytical Chemistry 666, 85 (2012), Electrophoretic deposition of carbon nanotubes film electrodes for capacitive deionization

96、G. Zhu, X. J. Wang, H. L. Li, L. K. Pan*, H. C. Sun, X. J. Liu, T. Lv, Z. Sun, Chemical Communications 48, 958 (2012), Y3Al5O12:Ce phosphors as scattering layer for high-efficiency dye sensitized solar cells

95、H. B. Li, C. Y. Nie, L. K. Pan*, Z. Sun, Desalination and Water Treatment 42, 210 (2012), The study of membrane capacitive deionization from charge efficiency

94、T. Xu, F. F. Su, L. K. Pan*, G. Zhu, T. Lu, Z. Sun, Journal of Nanoscience Letters 2, 18 (2012), Microwave assisted synthesis of graphene-Au nanocomposite.

93、H. B. Li, L. K. Pan*, C. Y. Nie, Z. Sun, Journal of Nanoscience Letters 2, 9 (2012) (invited review), Development and application of capacitive deionization: from aspect of nanocarbon electrodes.

92、Y. K. Zhan, C. Y. Nie, H. B. Li, L. K. Pan*, Z. Sun, Physica Status Solidi C 9, 55 (2012), Kinetics and isotherm studies on electrosorption of NaCl by activated carbon fiber, carbon nanotube and carbon nanotube-carbon nanofiber composite film.

2011

91、X. J. Liu, L. K. Pan*, T. Lv, G. Zhu, Z. Sun, C. Q. Sun, Chemical Communications 47, 11984 (2011), Microwave-assisted synthesis of CdS-reduced graphene oxide composites for photocatalytic reduction of Cr(VI)

90、G. Zhu, L. K. Pan*, T. Lu, X. J. Liu, T. Lv, T. Xu, Z. Sun, Electrochimica Acta 56, 10288 (2011), Electrophoretic deposition of carbon nanotubes films as counter electrodes of dye-sensitized solar cells

89、X. J. Liu, L. K. Pan*, T. Lv, G. Zhu, T. Lu, Z. Sun, C. Q. Sun, RSC Advances 1, 1245 (2011), Microwave-assisted synthesis of TiO2-reduced graphene oxide composites for photocatalytic reduction of Cr(VI)

88、J. Yan, Z. W. Zhao, L. K. Pan, Physica Status Solidi A 208, 2335 (2011), Growth and characterization of graphene by chemical reduction of graphene oxide in solution

87、X. J. Liu, L. K. Pan, Z. Sun, Y. M. Chen, X. X. Yang, L. W. Yang, Z. F. Zhou, C. Q. Sun, Journal of Advanced Dielectrics 1, 407 (2011), Correlation between the elastic and the vibronic behavior of nanostructured Titania and their pressure, size, and temperature dependence

86、X. J. Liu, L. K. Pan*, Z. Sun, Y. M. Chen, X. X. Yang, L. W. Yang, Z. F. Zhou, C. Q. Sun, Journal of Applied Physics 110, 044322 (2011), Strain engineering of the elasticity and the Raman shift of nanostructured TiO2

85、T. Lv, L. K. Pan*, X. J. Liu, T. Lu, G. Zhu, Z. Sun, Journal of Alloys and Compounds 509, 10086 (2011), Enhanced photocatalytic degradation of methylene blue by ZnO-reduced graphene oxide composite synthesized via microwave-assisted reaction

84、T. Lu, L. K. Pan*, H. B. Li, C. Y. Nie, M. F. Zhu, Z. Sun, Journal of Electroanalytical Chemistry 661 (2011) 270, Reduced graphene oxide-carbon nanotubes composite films by electrophoretic deposition method for supercapacitors

83、G. Zhu, L. K. Pan*, T. Lu, T. Xu, Z. Sun, Journal of Materials Chemistry 21, 14869 (2011), Electrophoretic deposition of reduced graphene-carbon nanotubes composite films as counter electrodes of dye-sensitized solar cells

82、G. Zhu, L. K. Pan*, T. Xu, Z. Sun, ACS Applied Materials & Interfaces 3, 3146 (2011), CdS/CdSe Co-Sensitized TiO2 Photoanode for Quantum-Dot Sensitized Solar Cells by Microwave Assisted Chemical Bath Deposition Method.

81、T. Lu, L. K. Pan*, C. Y. Nie, Z. W. Zhao, Z. Sun, Physica Status Solidi A 208, 2325 (2011), A green and fast way for reduction of graphene oxide in acidic aqueous solution via microwave assistance.

80、X. J. Liu, L. K. Pan*, T. Lv, T. Lu, G. Zhu, Z. Sun, C. Q. Sun, Catalysis Science and Technology 1, 1189 (2011), Microwave-assisted synthesis of ZnO-graphene composite for photocatalytic reduction of Cr(VI)

79、G. Zhu, L. K. Pan*, T. Xu, Z. Sun, Journal of Electroanalytical Chemistry 659, 205 (2011), Microwave assisted chemical bath deposition of CdS on TiO2 film for quantum dot-sensitized solar cells

78、G. Zhu, L. K. Pan*, T. Xu, Q. F. Zhao, Z. Sun, Journal of Alloys and Compounds 509, 7814 (2011), Cascade structure of TiO2/ZnO/CdS film for quantum dot sensitized solar cells

77、G. Zhu, L. K. Pan*, T. Xu, Z. Sun, ACS Applied Materials & Interfaces 3, 1472 (2011), One-step synthesis of CdS sensitized TiO2 photoanodes for quantum dot-sensitized solar cells by microwave-assisted chemical bath deposition method.

76、G. Zhu, L. K. Pan*, T. Xu, Q. F. Zhao, B. Lu, Z. Sun, Nanoscale 3, 2188 (2011), Microwave assisted CdSe quantum dots deposition on TiO2 films for dye-sensitize solar cells.

75、Y. K. Zhan, L. K. Pan*, C. Y. Nie, H. B. Li, Z. Sun, Journal of Alloys and Compounds 509, 5667 (2011), Carbon nanotube-chitosan composite electrodes for electrochemical removal of Cu(II) ions

74、T. Lu, L. K. Pan*, H. B. Li, G. Zhu, T. Lv, X. J. Liu, Z. Sun, T. Chen, D. H. C. Chua, Journal of Alloys and Compounds 509, 5488 (2011), Microwave-assisted synthesis of graphene-ZnO nanocomposite for electrochemical supercapacitors (ESI highly cited paper)

73、Y. K. Zhan, C. Y. Nie, L. K. Pan*, H. B. Li, Z. Sun, International Journal of Electrochemistry doi:10.4061/2011/572862, Removal Behavior of Carbon Nanotube and Carbon Nanofiber Film in CuCl2 Solution: Kinetics and Thermodynamics Study.

72、H. B. Li, L. K. Pan*, T. Lu, Y. K. Zhan, C. Y. Nie, Z. Sun, Journal of Electroanalytical Chemistry 653, 40 (2011), A comparative study on electrosorptive behavior of carbon nanotubes and graphene for capacitive deionization.

71、Y. K. Zhan, C. Y. Nie, H. B. Li, L. K. Pan*, Z. Sun, Electrochimica Acta 56, 3164 (2011), Enhancement of electrosorption capacity of activated carbon fibers by grafting with carbon nanofibers.

70、X. J. Liu, L. K. Pan*, Z. Sun, X. H. Wang, J. Zhou, L. T. Li, C. Q. Sun, Journal of Applied Physics 109, 033511 (2011), Mechanically Stiffened and Thermally Softened Bulk Modulus of BaXO3 (X = Ti, Zr, Nb) Cubic Perovskites.

69、Y. Wang, Y. G. Nie, L. K. Pan, Z. Sun, C. Q. Sun, Applied Surface Science 257, 3603 (2011), Potential barrier genertation at the BeW interface blocking thermonuclear radiation.

68、C. Y. Nie‚ Y. K. Zhan‚ L. K. Pan*‚ H. B. Li‚ Z. Sun‚ Desalination and Water Treatment 30, 266 (2011)‚ Electrsorption of different cations and anions with membrane capacitive deionization based on carbon nanotube/nanofiber electrodes and ion-exchange membranes.

67、H. B. Li‚ W. Zhang‚ L. Zou‚ L. K. Pan‚ Z. Sun‚ Journal of Materials Research 26, 970 (2011)‚ Synthesis of TiO2-graphene composites via visible-light photocatalytic reduction of graphene oxide

66、M.C. Zhang‚ X.J. Wang‚ H. Ding‚ H.L. Li‚ L.K. Pan‚ Z. Sun‚ International Journal of Applied Ceramic Technology 8, 752 (2011) ‚The Enhanced Low-Voltage Cathodoluminescent Properties of Spherical Y₂O₃:Eu³⁺ Phosphors Coated with In₂O₃ and its Application to Field-Emission Displays

65、L. K. Pan*‚ H. B. Li‚ Y. K. Zhan‚ Y. P. Zhang‚ Z. Sun‚ Current Physical Chemistry 1, 16-26 (2011) (invited review)‚ Electrosorption Behavior of Carbon Nanotube and Carbon Nanofiber Film Electrodes

64、G. Zhu‚ T. Lv‚ L. K. Pan*‚ Z. Sun‚ C. Q. Sun‚Journal of Alloy and Compounds 509‚ 362 (2011)‚ All spray pyrolysis deposited CdS sensitized ZnO films for quantum dot-sensitized solar cells.

63、G. Zhu‚ T. Xu‚ T. Lv‚ L. K. Pan*‚ Q. F. Zhao‚ Z. Sun‚ Journal of Electroanalytical Chemistry 650, 248 (2011)‚ Graphene-incorporated nanocrystalline TiO2 films for CdS quantum dot sensitized solar cells (ESI highly cited paper)

2010

62、F. F. Su, L. K. Pan*, Y. Zheng, Z. Sun, Surface Review and Letters 17, 493 (2010), Morphological controlled synthesis of Au nanocrystals.

61、H. B. Li‚ L. Zou‚ L. K. Pan‚ Z. Sun‚ Environmental Science and Technology 44, 8692 (2010)‚ Novel graphene-like electrodes for capacitive deionization.

60、Y. Wang‚ Y. G. Nie‚ J. S. Pan‚ L. K. Pan‚ Z. Sun‚ C. Q. Sun‚ Physical Chemistry Chemistry Physics 12‚ 12753 (2010)‚ Layer and orientation resolved bond relaxation and quantum entrapment of charge and energy at Be surfaces.

59、H.B. Li‚ L. Zou‚ L.K. Pan‚ Z. Sun‚ Separation and Purification Technology 75, 8 (2010)‚ Using graphene nano flakes as electrodes to remove ferric ions by capacitive deionization.

57、G. Zhu‚ F. F. Su‚ T. Lv‚ L. K. Pan*‚ Z. Sun‚ Nanoscale Research Letters 5, 1749 (2010)‚ Au nanoparticles as interfacial layer for CdS quantum dot-sensitized solar cells.

56、 L. K. Pan, M. X. Gu‚ G. Ouyang‚ C. Q. Sun‚ Key Engineering Materials 444‚ 17-45 (2010) (review article)‚ Behind the quantum and size effects: broken-bond-induced local strain and skin-depth densified quantum trapping of charge and energy.

55、G. Zhu‚ Z. J. Cheng‚ T. Lv‚ L. K. Pan*‚ Q. F. Zhao‚ Z. Sun‚ Nanoscale 2‚ 1229 (2010)‚ Zn-doped nanocrystalline TiO2 films for CdS quantum dot sensitized solar cells

54、T. Lu‚ Y. P. Zhang‚ H. B. Li‚ L. K. Pan*‚ Y. L. Li‚ Z. Sun‚ Electrochimica Acta 55‚4170 (2010)‚ Electrochemical behaviors of graphene-ZnO and graphene-SnO2 composite films for supercapacitors (ESI highly cited paper)

53、Z. J. Chen‚ F. F. Su‚ L. K. Pan*‚ M. L. Cao‚ Z. Sun‚ Journal of Alloy and Compound 494‚ L7 (2010)‚ CdS quantum dots-embedded silica film as luminescent down-shifting layer for crystalline Si solar cells

52、C. Q. Sun‚ Y. Wang‚ Y. G. Nie‚ B. R. Mehta‚ M. Khanuja‚ S. M. Shivaprasad‚ Y. Sun‚ J. S. Pan‚ L. K. Pan‚ Z. Sun‚ Physical Chemistry Chemical Physics 12‚ 3131 (2010)‚ Interface charge polarization and quantum trapping in AgPd and CuPd bimetallic alloy catalysts

51、H. B. Li‚ L. K. Pan*‚ Y. P. Zhang‚ L. Zou‚ C. Q. Sun‚ Y. K. Zhan‚ Z. Sun‚ Chemical Physics Letters 485‚ 161 (2010)‚ Kinetics and thermodynamics study for electrosorption of NaCl onto carbon nanotubes and carbon nanofibres electrodes.

50、Y. K. Zhan‚ H. B. Li‚ L. K. Pan*‚ Y. P. Zhang‚ Y. W. Chen‚ Z. Sun‚ Water Science and Technology 61‚ 1427 (2010)‚ Regeneration of carbon nanotube and nanofiber composite film electrode for electrical removal of cupric ions.

49、Y. Wang‚ Y. G. Nie‚ J. S. Pan‚ L. K. Pan‚ Z. Sun‚ C. Q. Sun‚ Physical Chemistry Chemical Physics 12‚ 2177 (2010)‚ Orientation-resolved 3d5/2 energy shift of Rh and Pd surfaces: Anisotropy of the skin-depth lattice strain and quantum trapping.

2009

48、C. Q. Sun‚ Y. Wang‚ Y. Nie‚ Y. Sun‚ J. Pan‚ L. K. Pan‚ Z. Sun‚ Journal of Physical Chemistry C 113‚ 21889 (2009)‚ Adatoms-induced local bond contraction‚ quantum trap depression and charge polarization at Pt and Rh surfaces.

47、Y. P. Zhang‚ X. W. Sun‚ L. K. Pan*‚ H. B. Li‚ Z. Sun‚ C. Q. Sun‚ B. K. Tay‚ Solid State Ionics 180‚ 1525 (2009)‚ Carbon nanotube-ZnO nanocomposite electrodes for supercapacitors.

46、C. Q. Sun‚ Y. Sun‚ Y. Ni‚ X. Zhan‚ J. Pan‚ X. H. Wang‚ J. Zhou‚ L. T. Li‚ W. Zheng‚ S. Yu‚ L. K. Pan‚ Z. Sun‚ Journal of Physical Chemistry C 113‚ 20009 (2009)‚ Coulomb repulsion at the nanometer-sized contact: a force driving superhydrophobicity‚ superfluidity‚ superlubricity‚ supersolidity.

45、C. Q. Sun‚ Y. Sun‚ Y. G. Nie‚ Y. Wang‚ J. S. Pan‚ G. Ouyang‚ L. K. Pan‚ Z. Sun‚ Journal of Physical Chemistry C 113‚ 16464 (2009)‚ Coordination-resolved C-C bond length and the C 1s binding energy of carbon allotropes and the effective atomic coordination of the few-layer graphene.

44、H. B. Li‚ T. Lu‚ L. K. Pan*‚ Y. P. Zhang‚ Z. Sun‚ Journal of Materials Chemistry 19‚ 6773 (2009)‚ Electrosorption behavior of graphene in NaCl solutions

43、Z. J. Cheng‚ L. K. Pan*‚ F. F. Su‚ M. L. Cao‚ Z. Sun‚ Surface Review and Letters 16‚ 669 (2009)‚ Eu3+ doped silica film as luminescent down-shifting layer for crystalline Si solar cells

42、Y. P. Zhang‚ H. B. Li‚ L. K. Pan*‚ T. Lu‚ Z. Sun‚ Journal of Electroanalytical Chemistry 634‚ 68 (2009)‚ Capacitive behavior of Graphene-ZnO composite film for supercapacitors (ESI highly cited paper)

41、J. W. Li‚ X. J. Liu‚ L. W. Yang‚ Z. F. Zhou‚ G. F. Xie‚ Y. Pan‚ X. H. Wang‚ J. Zhou‚ L. T. Li‚ L. K. Pan‚ Z. Sun‚ C. Q. Sun‚ Applied Physics Letters 95‚ 031906 (2009)‚ Photoluminescence and Photoabsorption blueshift of nanostructured ZnO: Skin-depth quantum trapping and electron-phonon coupling.

40、L. K. Pan*‚ Z. Sun‚ Journal of Physics and Chemistry of Solids 70‚ 1113 (2009)‚ Solvent and temperature-dependent conductive behavior of poly(3-hexylthiophene)

39、L. K. Pan*‚ H. B. Li‚ Z. Sun‚ C. Q. Sun‚Surface Review and Letters 16, 265 (2009)‚ Surface metalization on the photo-emission‚ photo-absorption and core-level shift of nanosolid silicon

38、L. K. Pan*‚ H. B. Li‚ Z. Sun‚ C. Q. Sun‚ Surface Review and Letters 16‚ 351 (2009)‚ Optical transition of porous silicon prepared at different anodization temperatures

37、L. K. Pan*‚ Z. Sun‚ Current Applied Physics 9‚ 1351 (2009)‚ Temperature dependent conductive behavior of pentacene in organic field-effect transistor

36、Y. P. Zhang‚ X. W. Sun‚ L. K. Pan*‚ H. B. Li‚ Z. Sun‚ C. Q. Sun‚ B. K. Tay‚ Journal of Alloys and Compounds 480‚ L17 (2009)‚ Carbon nanotube-zinc oxide electrode and gel polymer electrolyte for electrochemical supercapacitors

35、H. B. Li‚ L. K. Pan*‚ Y. P. Zhang‚ Z. Sun‚ Water Science and Technology 59‚ 1657 (2009) Ferric ion adsorption and electrosorption by carbon nanotubes and nanofibres films

34、L. K. Pan*‚ X. Z. Wang‚ Y. Gao‚ Y. P. Zhang‚ Y. W. Chen‚ Z. Sun‚ Desalination 244‚ 139 (2009)‚ Electrosorption of anions with carbon nanotube and nanofibre composite film electrodes

33、L. K. Pan*‚ Z. Sun‚ C. Q. Sun‚ Scripta Materialia 60‚ 1105 (2009)‚ Coordination imperfection enhanced electron-phonon interaction and band gap expansion in Si and Ge nanocrystals

32、Y. Gao‚ L. K. Pan*‚ H. B. Li, Y. P. Zhang, Z. J. Zhang, Y. W. Chen, Z. Sun, Thin Solid Films 517‚ 1616 (2009)‚ Electrosorption behavior of cations with carbon nanotubes and carbon nanofibres composite film electrodes

31、X. D. Li‚ Z. J. Zhao‚ T. Feng‚ L. K. Pan‚ S. M. Huang‚ Y. W. Chen‚ Z. Sun‚ International Journal of Number Theory 5‚ 123 (2009)‚ The giant magnetostriction of [Fe/Tb/Fe/Dy]n multilayer films under different annealing temperature

30、X. D. Li‚ Z. J. Zhao‚ S. M. Huang‚ L. K. Pan‚ Y. W. Chen‚ X. L. Yang‚ Z. Sun‚ Chinese Science Bulletin 54‚ 608 (2009)‚ Structure‚ magnetic properties and giant magnetostriciton studies in [Tb/Fe/Dy]n nano-multilayer film

2001-2008

29、H. B. Li‚ Y. Gao‚ L. K. Pan*‚ Y. P. Zhang‚ Y. W. Chen‚ Z. Sun‚ Water Research 42‚ 4923 (2008)‚ Electrosorptive Desalination by Carbon Nanotubes and Nanofibres Electrodes and Ion-Exchange Membranes

28、X. D. Li‚ L. K. Pan‚Z. J. Zhao‚ S. M. Huang‚ Y. W. Chen‚ Z. Sun‚ Surface Review Letters 15‚ 619 (2008)‚ The Giant Magnetostriction and magnetic properties of the amorphous alternant [Tb/Fe/Dy]n and [Fe/Tb/Fe/Dy]m nano-multilayer films

27、Y. P. Zhang‚ L. K. Pan*‚ Y. Gao‚ Z. J. Zhang‚ Z. Sun‚ Surface Review and Letters 15‚ 245 (2008)‚ Electric double layer capacitors with carbon nanotubes electrodes and gel polymer/polyacid electrolytes

26、M. X. Gu‚ Y. C. Zhou‚ L. K. Pan‚ Z. Sun‚ S. Z. Wang‚ C. Q. Sun‚ Journal of Applied Physics 102‚083524 (2007)‚ Temperature dependence of the elastic and vibronic behavior of bonds in Si‚ Ge and diamond crystals

25、M. X. Gu‚ L. K. Pan‚ T. C. A. Yeung‚ B. K. Tay‚ C. Q Sun‚ The Journal of Physical Chemistry C 111‚13606 (2007)‚ Atomistic origin of thermally-driven softening of Raman optic phonons in group III-nitrides

24、M. X. Gu‚ L. K. Pan‚ B. K. Tay‚ C. Q. Sun‚ Journal of Raman Spectroscopy 38‚ 780 (2007)‚ Atomistic origin and temperature dependence of Raman optical redshift in nanostructures: a broken bond rule

23、Y. Gao‚ L. K. Pan*‚ Y. P. Zhang‚ Y. W. Chen‚ Z. Sun‚ Surface Review and Letters 14‚ 1033 (2007)‚ Electrosorption of FeCl3 Solutions with Carbon Nanotubes and Nanofibres Film Electrodes Grown on Graphite Substrates

22、X. Z. Wang‚ L. K. Pan‚ M. G. Li‚ Y. W. Chen‚ R. M. Cheng‚ S. M. Huang‚ Z. Sun‚ Surface Review and Letters‚ 14‚ 135 (2007)‚ Effect of acetylene flow rate on electrosorption capacity of carbon nanotubes and nanofiber composite film electrodes

21、C. Q. Sun‚ L. K. Pan‚ T. P. Chen‚ X. W. Sun‚ C. M. Li‚ Applied Surface Sciences 252‚ 2101 (2006)‚ Distinguishing the effect of crystal-field screening from the effect of valence recharging on the 2p3/2 and 3d5/2 level energies of nanostructured copper

20、C. M. Li‚ L. K. Pan‚ J. H. T. Luong‚ The Analyst 131‚ 788 (2006)‚ Capacitance immunosensors based on an array biotap

19、X. Z. Wang‚ M. G. Li‚ Y. W. Chen‚ R. M. Cheng‚ S. M. Huang‚ L. K. Pan‚ Z. Sun‚ Applied Physics Letters 89‚ 053127 (2006)‚ Electrosorption of ions from aqueous solution with carbon nanotubes and nanofibers composite film electrodes
18、X. Z. Wang‚ M. G. Li‚ Y. W. Chen‚ R. M. Chen‚ S. M. Huang‚ L. K. Pan‚ Z. Sun‚ Electrochemical Solid-State Letters 9‚ E23 (2006)‚ Electrosorption of NaCl solutions with carbon nanotubes and nanofibers composite film electrodes

17、C. M. Li‚ L. K. Pan‚ Y. Gan‚ C. Q. Sun‚ International Journal of NanoScience 5‚ 395 (2006)‚ Impedance analysis for characterization of materials used in organic transistors

16、C. M. Li‚ L. K. Pan‚ Y. Gan‚ C. Q. Sun‚ J. Zhang‚ and D. Gamota‚ International Journal of NanoScience 4‚ 451 (2005)‚ Impedance Characterization of Dielectric and Semiconducting Materials with Organic Capacitors for Organic Transistors

15、C. M. Li‚ C. Q. Sun‚ W. Chen‚ L. K. Pan‚ Surface and Coatings Technology 198‚ 474 (2005)‚ Electrochemical Thin Film Deposition of Polypyrrole on Different Substrates

14、C. Q. Sun‚ L. K. Pan‚ C. M. Li‚ S. Li‚ Physics Review B 72‚ 134301 (2005)‚ Size-Induced Acoustic Hardening and Optic Softening of Phonons in InP‚ CeO2‚ SnO2‚ CdS‚ Ag‚ and Si nanostructures

13、L. K. Pan‚ C. Q. Sun‚ C. M. Li‚ The Journal of Physical Chemistry B 108‚ 3404 (2004)‚ Elucidating Si-Si dimer vibration from the size-dependent Raman shift of nanosolid Si

12、L. K. Pan‚ C. Q. Sun‚ T. P. Chen‚ S. Li‚ C. M. Li‚ B. K. Tay‚ Nanotechnology 15‚ 1802 (2004)‚ Dielectric Suppression of Nansolid Si

11、L. K. Pan‚ C. Q. Sun‚ Journal of Applied Physics 95‚ 3819 (2004)‚ Coordination Imperfection Enhanced Electron-Phonon Interaction

10、L. K. Pan‚ Y. K. Ee‚ C. Q. Sun‚ G. Q. Yu‚ Q. Y. Zhang‚ B. K. Tay‚ Journal of Vacuum Science and Technology B 22‚ 583 (2004)‚ Band-Gap Expansion‚ Core-Level Shift and Dielectric Suppression of Porous Si Passivated by Plasma Fluorination

9、L. K. Pan‚ C. Q. Sun‚ C. M. Li‚ Applied Surface Sciences 240‚ 19 (2004)‚ Estimating the extent of surface oxidation by measuring the porosity dependent dielectrics of oxygenated porous silicon

8、L. K. Pan‚ C. Q. Sun‚ G. Q. Yu‚ Q. Y. Zhang‚ Y. Q. Zhang‚ B. K. Tay‚ Journal of Applied Physics 96‚ 1704 (2004)‚ Distinguishing the Effect of Passivation from the Effect of Size on the Photonic and Electronic Behavior of Porous Silicon

7、G. Q. Yu‚ B. K. Tay‚ Z. Sun‚ L. K. Pan‚ Applied Surface Science 219‚ 228 (2003)‚ Properties of fluorinated amorphous diamond like carbon films by PECVD
6、G. Q. Yu‚ B. K. Tay‚ S. P. Lau‚ K. Prasad‚ L. K. Pan‚ J. W. Chai‚ D. Lai‚ Chemical Physics Letters 374‚ 264 (2003)‚ Effects of N Ion Energy on Titanium Nitride Films Deposited by Ion Assisted Filtered Cathodic Vacuum Arc

5、C. Q. Sun‚ L. K. Pan‚ Y. Q. Fu‚ B. K. Tay‚ S. Li‚ The Journal of Physical Chemistry B 107‚ 5113 (2003)‚ Size Dependence of the 2p-Level Shift of Nanosolid Silicon

4、C. Q. Sun‚ L. K. Pan‚ H. L. Bai‚ Z. Q. Li‚ P. Wu‚ E.Y. Jiang‚ Acta Materialia 51‚ 4631 (2003)‚ Effects of Surface Passivation and Interfacial Reaction on the Size-Dependent 2p-Level shift of Supported Copper Nanosolids

3、L. K. Pan‚ H. T. Huang‚ C. Q. Sun‚ Journal of Applied Physics 94‚ 2695 (2003)‚ Dielectric Relaxation and Transition of Porous Silicon

2、L. K. Pan‚ C. Q. Sun‚ B. K. Tay‚ T. P. Chen‚ S. Li‚ Journal of Physical Chemistry B 106‚ 11725 (2002)‚ Photoluminescence of Si Nanosolids near the Lower End of the Size Limit
1、C. Q. Sun‚ T. P. Chen‚ B. K. Tay‚ S. Li‚ H. Huang‚ Y. B. Zhang‚ L. K. Pan‚ S. P. Lau‚ X. W. Sun‚ Journal of Physics D: Applied Physics 34‚ 3470 (2001)‚ An Extended ‘Quantum Confinement’ Theory: Surface-Coordination Imperfection Modifies the Entire Band Structure of a Nanosolid