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1. Spin-Orbit Splitting in Single-Layer MoS2 Revealed by Triply Reson.. [1927]
2. 电子束泵浦ZnO/ZnMgO量子阱的最佳激发电压 [1673]
3. 电子束泵浦氧化锌基量子阱的斯塔克效应 [1624]
4. 非对称ZnO/ZnMgO双量子阱内量子效率的提高 [1607]
5. Pressure-Induced Large Emission Enhancements of Cadmium Selenide N.. [1599]
6. Polyol-mediated synthesis of well-dispersed -NaYF4 nanocubes [1426]
7. 基于立方相MgZnO薄膜的高响应度深紫外探测器 [1375]
8. Doped, conductive SiO2 nanoparticles for large microwave absorptio.. [1140]
9. P-type conductivity in N-doped ZnO: The role of the NZn-V O comple.. [1086]
10. n-type Rashba spin splitting in a bilayer inorganic halide perovsk.. [1005]
11. p-Type Conductivity in N-Doped ZnO: The Role of the N-Zn-V-O Compl.. [979]
12. 2D Phosphorene_ Epitaxial Growth and Interface Engineering for Ele.. [960]
13. Achieving High-Performance Surface-Enhanced Raman Scattering throu.. [951]
14. Structural and Electronic Properties of Inorganic Mixed Halide Per.. [919]
15. Properties of Disorder-Engineered Black Titanium Dioxide Nanoparti.. [895]
16. Engineering the Electronic Structure of Graphene [893]
17. CdS/Cyclohexylamine Inorganic-Organic Hybrid Semiconductor Nanofib.. [883]
18. Stacking-Dependent Optical Conductivity of Bilayer Graphene [881]
19. Effects of Mg concentration on solubility and chemical state of N .. [866]
20. 低温外延生长平整ZnO薄膜 [862]
21. Erratum to: Incorporating mutation scheme into krill herd algorith.. [845]
22. Erratum to Incorporating mutation scheme into krill herd algorithm.. [838]
23. Enhanced Responsivity of Highly Spectrum-Selective Ultraviolet Pho.. [828]
24. Titanium Dioxide Nanomaterials: Self-Structural Modifications [828]
25. A modified firefly algorithm for UCAV path planning [819]
26. Hydrogenation and disorder in engineered black TiO2 [809]
27. Control of N/N2 species ratio in NO plasma for p-type doping of Zn.. [786]
28. 梯度组分缓冲层诱导的单一立方相Mg_(0.3)Zn_(0.7)O薄膜外延生长 [747]
29. 通过交替生长气氛调控N掺杂ZnO薄膜电学特性 [743]
30. Photoluminescent and oxygen sensing properties of core-shell nanos.. [737]
31. Energy transfer-process from polymer to rare earth complexes [730]
32. Artificial leaf structures as a UV detector formed by the self-ass.. [729]
33. m面蓝宝石上外延(110)取向立方MgZnO薄膜及其日盲紫外探测器件研究(英文.. [704]
34. Synthesis and characterization of new bifunctional nanocomposites .. [696]
35. Experimental and first-principles study of ferromagnetism in Mn-do.. [684]
36. Effect of compressive stress on stability of N-doped p-type ZnO [674]
37. 硼对氮掺杂的p型ZnO薄膜的影响 [672]
38. High pressure synthesis and characterization of noble metal nitrid.. [670]
39. Studies on synthesis and EL properties of several novel squaraines [663]
40. Effects of magnesium on phosphorus chemical states and p-type cond.. [659]
41. Mechanical analysis of pointing mechanism for space spectrometer [655]
42. Control of N/N(2) species ratio in NO plasma for p-type doping of .. [638]
43. Low temperature edge dynamics of AB-stacked bilayer graphene: Natu.. [637]
44. Hybridizing harmony search with biogeography based optimization fo.. [626]
45. Redistribution of carriers in OEL devices by inserting a thin char.. [624]
46. Two-dimensional multibit optoelectronic memory with broadband spec.. [624]
47. Europium complexes as emitters in organic electroluminescent devic.. [616]
48. Design of multi-pulse trigger system for rotated spark switch [611]
49. Electronic and optical properties of kesterite Cu2ZnSnS4 under in-.. [604]
50. Bandgap engineering of Cu2CdxZn1-xSnS 4 alloy for photovoltaic app.. [601]
51. Nonvolatile and Programmable Photodoping in MoTe2 for Photoresist-.. [597]
52. Zincblende-wurtzite phase transformation of ZnSe films by pulsed l.. [596]
53. Uniform mesoporous Anatase-brookite biphase TiO2 hollow spheres wi.. [593]
54. Low temperature edge dynamics of AB-stacked bilayer graphene: natu.. [585]
55. ZnO light-emitting devices with a lifetime of 6.8 hours [585]
56. High frequency local vibrational modes of oxygen doped CdSe [581]
57. Thickness and stacking geometry effects on high frequency overtone.. [578]
58. Plasma Modified MoS2 Nanofl akes for Surface Enhanced Raman Scatte.. [550]
59. Controlled growth of pure cubic Mg0.3Zn0.7O thin films on c-plane .. [543]
60. Optical properties of align carbon nanotubes film [532]
61. Hydrogenated black ZnO nanoparticles with enhanced photocatalytic .. [532]
62. A simple tight-binding model for typical graphyne structures [527]
63. Reversible Switching of a Single-Dipole Molecule Imbedded in Two-D.. [527]
64. Tunable enhancement of exciton emission from MgZnO by hybridized q.. [520]
65. Level set topology optimization design of large-aperture mirror [516]
66. Effect of boron on nitrogen doped p-type ZnO thin films [509]
67. Angle error investigation in laser tracker testing large aspheric .. [509]
68. A Hybrid Metaheuristic DE/CS Algorithm for UCAV Three-Dimension Pa.. [507]
69. An experimental and first-principles study on band alignments at i.. [507]
70. Remote sensing image restoration based on zero-norm regularized ke.. [505]
71. Plasma induced deep ultraviolet emissions from MgZnO films [500]
72. Dynamical properties and their strain-dependence of ZnSe(ZnSe:N): .. [495]
73. 点缺陷调控:宽禁带Ⅱ族氧化物半导体的机遇与挑战 [492]
74. Tunable Hybridized Quadrupole Plasmons and Their Coupling with Exc.. [481]
75. Incorporating mutation scheme into krill herd algorithm for global.. [480]
76. Wavelength-Tuned Light Emission via Modifying the Band Edge Symmet.. [475]
77. Trap-assisted large gain in Cu2O/C-60 hybrid ultraviolet/visible p.. [475]
78. A hybrid meta-heuristic DE/CS Algorithm for UCAV path planning [467]
79. 复合二维材料C_2N/Graphene的结构与电子特性研究 [454]
80. A Bat Algorithm with Mutation for UCAV Path Planning [445]
81. Application of system-level house of software reliability to RTI m.. [431]
82. Application of Kalman filter in suppressing torque disturbance [425]
83. Materials Research Society Symposium Proceedings: Preface [407]
84. 2D Phosphorene: Epitaxial Growth and Interface Engineering for Ele.. [382]
85. Epitaxial (110)-oriented cubic MgZnO films on m-plane sapphire for.. [371]
86. Optical characteristic of ion beam sputter deposited aluminum thin.. [364]
87. p-type doping of ZnO:N thin fims by alternating the growth atmosph.. [341]
88. Smooth surface morphology of ZnO thin films on sapphire at low tem.. [327]
89. Control of N/N2 species ratio in NO plasma for p-type doping of Zn.. [315]
90. Optical characterization of bare CdSe and CdSe/CdS core/shell nano.. [274]
91. Determination of optical constants of zirconia and silica thin fil.. [261]
92. Study on dynamic imaging on TDI CCD optical remote sensor of push-.. [257]
93. Fuzzy-PID control for airborne optoelectronic stabilized platform [257]
94. Ion beam sputter deposition of zirconia thin films - art. no. 6624.. [255]
95. Ion beam sputter deposition of zirconia thin films (EI CONFERENCE) [249]
96. Determination of optical constants of zirconia and silica thin fil.. [243]
97. Optical characteristic of ion beam sputter deposited aluminum thin.. [238]
98. All-solid-stated laser controller design based on digital optical .. [235]
99. Low threshold field electron emission of diamond films (EI CONFERE.. [233]
100. Electric field calculation of nanowire cold cathode device with a .. [219]

下载量

1. Pressure-Induced Large Emission Enhancements of Cadmium Selenide N.. [1082]
2. 电子束泵浦ZnO/ZnMgO量子阱的最佳激发电压 [971]
3. 非对称ZnO/ZnMgO双量子阱内量子效率的提高 [898]
4. Polyol-mediated synthesis of well-dispersed -NaYF4 nanocubes [876]
5. 电子束泵浦氧化锌基量子阱的斯塔克效应 [815]
6. 基于立方相MgZnO薄膜的高响应度深紫外探测器 [784]
7. Doped, conductive SiO2 nanoparticles for large microwave absorptio.. [689]
8. n-type Rashba spin splitting in a bilayer inorganic halide perovsk.. [607]
9. Spin-Orbit Splitting in Single-Layer MoS2 Revealed by Triply Reson.. [261]
10. Engineering the Electronic Structure of Graphene [254]
11. Properties of Disorder-Engineered Black Titanium Dioxide Nanoparti.. [248]
12. Enhanced Responsivity of Highly Spectrum-Selective Ultraviolet Pho.. [225]
13. p-Type Conductivity in N-Doped ZnO: The Role of the N-Zn-V-O Compl.. [217]
14. Stacking-Dependent Optical Conductivity of Bilayer Graphene [204]
15. Energy transfer-process from polymer to rare earth complexes [193]
16. Effects of Mg concentration on solubility and chemical state of N .. [193]
17. 硼对氮掺杂的p型ZnO薄膜的影响 [193]
18. Effects of magnesium on phosphorus chemical states and p-type cond.. [191]
19. 2D Phosphorene_ Epitaxial Growth and Interface Engineering for Ele.. [191]
20. Synthesis and characterization of new bifunctional nanocomposites .. [189]
21. 梯度组分缓冲层诱导的单一立方相Mg_(0.3)Zn_(0.7)O薄膜外延生长 [188]
22. Structural and Electronic Properties of Inorganic Mixed Halide Per.. [186]
23. 低温外延生长平整ZnO薄膜 [178]
24. Hydrogenation and disorder in engineered black TiO2 [174]
25. Achieving High-Performance Surface-Enhanced Raman Scattering throu.. [171]
26. 通过交替生长气氛调控N掺杂ZnO薄膜电学特性 [168]
27. Photoluminescent and oxygen sensing properties of core-shell nanos.. [167]
28. High pressure synthesis and characterization of noble metal nitrid.. [166]
29. Level set topology optimization design of large-aperture mirror [164]
30. Incorporating mutation scheme into krill herd algorithm for global.. [163]
31. Nonvolatile and Programmable Photodoping in MoTe2 for Photoresist-.. [163]
32. Reversible Switching of a Single-Dipole Molecule Imbedded in Two-D.. [157]
33. Two-dimensional multibit optoelectronic memory with broadband spec.. [157]
34. Design of multi-pulse trigger system for rotated spark switch [152]
35. Remote sensing image restoration based on zero-norm regularized ke.. [151]
36. Titanium Dioxide Nanomaterials: Self-Structural Modifications [151]
37. Erratum to Incorporating mutation scheme into krill herd algorithm.. [150]
38. High frequency local vibrational modes of oxygen doped CdSe [149]
39. Zincblende-wurtzite phase transformation of ZnSe films by pulsed l.. [148]
40. Artificial leaf structures as a UV detector formed by the self-ass.. [147]
41. Plasma Modified MoS2 Nanofl akes for Surface Enhanced Raman Scatte.. [144]
42. Europium complexes as emitters in organic electroluminescent devic.. [143]
43. Experimental and first-principles study of ferromagnetism in Mn-do.. [143]
44. m面蓝宝石上外延(110)取向立方MgZnO薄膜及其日盲紫外探测器件研究(英文.. [143]
45. Tunable enhancement of exciton emission from MgZnO by hybridized q.. [139]
46. Uniform mesoporous Anatase-brookite biphase TiO2 hollow spheres wi.. [135]
47. Angle error investigation in laser tracker testing large aspheric .. [135]
48. Trap-assisted large gain in Cu2O/C-60 hybrid ultraviolet/visible p.. [135]
49. Application of system-level house of software reliability to RTI m.. [131]
50. Effect of compressive stress on stability of N-doped p-type ZnO [130]
51. Control of N/N(2) species ratio in NO plasma for p-type doping of .. [130]
52. Hydrogenated black ZnO nanoparticles with enhanced photocatalytic .. [129]
53. Low temperature edge dynamics of AB-stacked bilayer graphene: natu.. [128]
54. Plasma induced deep ultraviolet emissions from MgZnO films [120]
55. Studies on synthesis and EL properties of several novel squaraines [117]
56. Redistribution of carriers in OEL devices by inserting a thin char.. [117]
57. CdS/Cyclohexylamine Inorganic-Organic Hybrid Semiconductor Nanofib.. [115]
58. An experimental and first-principles study on band alignments at i.. [114]
59. Control of N/N2 species ratio in NO plasma for p-type doping of Zn.. [113]
60. Thickness and stacking geometry effects on high frequency overtone.. [108]
61. Wavelength-Tuned Light Emission via Modifying the Band Edge Symmet.. [106]
62. Erratum to: Incorporating mutation scheme into krill herd algorith.. [104]
63. Tunable Hybridized Quadrupole Plasmons and Their Coupling with Exc.. [99]
64. Controlled growth of pure cubic Mg0.3Zn0.7O thin films on c-plane .. [95]
65. Effect of boron on nitrogen doped p-type ZnO thin films [95]
66. Low temperature edge dynamics of AB-stacked bilayer graphene: Natu.. [89]
67. Electronic and optical properties of kesterite Cu2ZnSnS4 under in-.. [89]
68. Dynamical properties and their strain-dependence of ZnSe(ZnSe:N): .. [88]
69. Hybridizing harmony search with biogeography based optimization fo.. [73]
70. Optical properties of align carbon nanotubes film [72]
71. Bandgap engineering of Cu2CdxZn1-xSnS 4 alloy for photovoltaic app.. [72]
72. 点缺陷调控:宽禁带Ⅱ族氧化物半导体的机遇与挑战 [72]
73. Application of Kalman filter in suppressing torque disturbance [68]
74. Fuzzy-PID control for airborne optoelectronic stabilized platform [58]
75. Study on dynamic imaging on TDI CCD optical remote sensor of push-.. [56]
76. Control of N/N2 species ratio in NO plasma for p-type doping of Zn.. [45]
77. Mechanical analysis of pointing mechanism for space spectrometer [45]
78. Optical characteristic of ion beam sputter deposited aluminum thin.. [38]
79. Optical characterization of bare CdSe and CdSe/CdS core/shell nano.. [36]
80. Ion beam sputter deposition of zirconia thin films (EI CONFERENCE) [36]
81. Low threshold field electron emission of diamond films (EI CONFERE.. [33]
82. Determination of optical constants of zirconia and silica thin fil.. [31]
83. Field emission performances of diamond powders coated with metal (.. [30]
84. Determination of optical constants of zirconia and silica thin fil.. [26]
85. Study on dynamic imaging on TDI CCD optical remote sensor of push-.. [24]
86. All-solid-stated laser controller design based on digital optical .. [23]
87. Fabrication and electron emission of carbon microtubes (EI CONFERE.. [22]
88. Ion beam sputter deposition of zirconia thin films - art. no. 6624.. [21]
89. Electric field calculation of nanowire cold cathode device with a .. [19]
90. Optical characteristic of ion beam sputter deposited aluminum thin.. [17]
91. All-solid-stated laser controller design based on digital optical .. [15]
92. Application of linear CCD for position measurement (EI CONFERENCE) [13]
93. Mean-Shift tracking algorithm with adaptive kernel-bandwidth of ta.. [13]
94. Laser interference nanolithography with a 405nm fiber semiconducto.. [11]
95. Study on high temperature stability of off-axis aspherical collima.. [10]
96. LTP-1型激光电视指纹探测仪 [2]