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月访问量

15

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  • 外部: 10

  • 国内: 11

  • 国外: 4

年访问量

212

  • 内部: 18

  • 外部: 194

  • 国内: 196

  • 国外: 16

总访问量

5133

  • 内部: 121

  • 外部: 5012

  • 国内: 4938

  • 国外: 195

访问量
访问量
1. TransOpt. A code to solve electrical transport properties of semic.. [256]
2. Electric Polarization Switching on an Atomically Thin Metallic Oxi.. [241]
3. Soft template-directed interlayer confinement synthesis of a Fe-Co.. [232]
4. A2Cu3In3Te8 (A = Cd, Z.. [224]
5. Giant thermopower of ionic gelatin near room temperature [224]
6. 亚晶格工程与新型“半晶态”热电化合物结构-性能关系研究进展 [218]
7. Thermal stability of Ag9GaSe6 and its potential as a functionally .. [217]
8. Pressure-driven switching of magnetism in layered CrCl3 [210]
9. 亚晶格导电通道与新型热电材料高通量筛选 [210]
10. Violation of the T-1 Relationship in the Lattice Thermal Conductiv.. [208]
11. Interfacial superstructures and chemical bonding transitions at me.. [208]
12. Complex Band Structures and Lattice Dynamics of Bi2Te3-Based Compo.. [199]
13. Mechanical Strain-Tunable Microwave Magnetism in Flexible CuFe2O4 .. [196]
14. Theory for the Charge-Density-Wave Mechanism of 3D Quantum Hall Ef.. [196]
15. Reaction mechanisms for long-life rechargeable Zn/MnO2 batteries [194]
16. Rationalizing the interphase stability of Li|doped-Li(7)La(3)Zr(2).. [188]
17. Boosting the thermoelectric performance of PbSe through dynamic do.. [185]
18. Half-Heusler-like compounds with wide continuous compositions and .. [185]
19. A highly asymmetric interfacial superstructure in WC: Expanding th.. [184]
20. Temperature-Dependent Band Renormalization in CoSb3 Skutterudites .. [184]
21. Prediction and Classification of Formation Energies of Binary Comp.. [182]
22. Mg3+delta SbxBi2-x Family: A Promising Substitute for the State-of.. [181]
23. Thermodynamic criterions of the thermoelectric performance enhance.. [179]
24. Sublattice Short-Range Order and Modified Electronic Structure in .. [179]
25. Discovery of High-Performance Thermoelectric Chalcogenides through.. [174]
26. Realization of higher thermoelectric performance by dynamic doping.. [172]
27. Crystal structures and formation mechanisms of boron-rich tungsten.. [172]
28. Tetrahedral Distortion and Thermoelectric Performance of the Ag-Su.. [171]
29. Short-range order in defective half-Heusler thermoelectric crystal.. [169]
30. Semiconductor glass with superior flexibility and high room temper.. [168]
31. Reducing the charge overpotential of Li-O2batteries through band-a.. [167]
32. All solid thick oxide cathodes based on low temperature sintering .. [165]
33. Entropy as a Gene-Like Performance Indicator Promoting Thermoelect.. [163]
34. Defect-mediated Rashba engineering for optimizing electrical trans.. [163]
35. A highly efficient and informative method to identify ion transpor.. [163]
36. Research Progress on Structure-Performance Relationship for Novel .. [163]
37. Remarkable Band-Gap Renormalization via Dimensionality of the Laye.. [162]
38. Boosting Transport Kinetics of Ions and Electrons Simultaneously b.. [162]
39. First-principles study of the vibrational characteristics of the h.. [160]
40. Recent progress in theoretical and computational investigations of.. [158]
41. The Electronic Transport Channel Protection and Tuning in Real Spa.. [155]
42. Computational insights into the ionic transport mechanism and inte.. [155]
43. Suppression of atom motion and metal deposition in mixed ionic ele.. [154]
44. CAVD, towards better characterization of void space for ionic tran.. [154]
45. 5-IP7 is a GPCR messenger mediating neural control of synaptotagmi.. [154]
46. Tuning Electrical Conductance in Bilayer MoS2 through Defect-Media.. [153]
47. Active learning for the power factor prediction in diamond-like th.. [153]
48. Embedded in-situ nanodomains from chemical composition fluctuation.. [153]
49. Localization in the SCAN meta-generalized gradient approximation f.. [152]
50. Enhanced Hardness in Transition-Metal Monocarbides via Optimal Occ.. [152]
51. Functional-Unit-Based Material Design: Ultralow Thermal Conductivi.. [152]
52. Two-dimensional topological materials discovery by symmetry-indica.. [151]
53. Ab initio thermodynamic optimization of Ni-rich Ni–Co–Mn oxide c.. [151]
54. A general strategy for high-throughput experimental screening of p.. [150]
55. Solid-State Janus Nanoprecipitation Enables Amorphous-Like Heat Co.. [150]
56. Metallic VS2/graphene heterostructure as an ultra-high rate and hi.. [149]
57. Thermal transport in thermoelectric materials with chemical bond h.. [148]
58. Superhard high-entropy dodecaboride with high electrical conductiv.. [147]
59. Isosymmetric phase transitions, ultrahigh ductility, and topologic.. [146]
60. High-throughput screening platform for solid electrolytes combinin.. [145]
61. Solid-State Explosive Reaction for Nanoporous Bulk Thermoelectric .. [144]
62. High-Throughput Computational Screening of Li-Containing Fluorides.. [144]
63. Thermodynamic Ground States of Multifunctional Metal Dodecaborides [141]
64. Thermodynamic activity of solute in multicomponent alloy from firs.. [141]
65. Reaction Mechanisms for Long-Life Rechargeable Zn/MnO2 Batteries [140]
66. Maximized atomic disordering approach boost the thermoelectric per.. [138]
67. The role of the solid electrolyte interphase layer in preventing L.. [137]
68. Precise Regulation of Carrier Concentration in Thermoelectric BiSb.. [136]
69. High-Throughput Screening for Advanced Thermoelectric Materials: D.. [134]
70. Materials informatics platform with three dimensional structures, .. [134]
71. Achieving band convergence by tuning the bonding ionicity in n-typ.. [131]
72. Dynamic process of the resonant phonon scattering in fully filled .. [131]
73. Bistructural Pseudocontinuous Solid Solution with Hierarchical Mic.. [128]
74. Thermal transport in amorphous small organic materials: a mechanis.. [124]
75. The variation of intrinsic defects in XTe (X = Ge, Sn, and Pb) ind.. [124]
76. Initial Decomposition of HMX Energetic Material from Quantum Molec.. [123]
77. Combined subsampling and analytical integration for efficient larg.. [119]
78. Erratum: Localization in the SCAN meta-generalized gradient approx.. [119]
79. Generic Seebeck effect from spin entropy [118]
80. A strategic study for materials interdisciplinary frontiers and di.. [117]
81. High Thermoelectric Performance through Crystal Symmetry Enhanceme.. [114]
82. Stabilizing Low-Coordinated O Ions to Operate Cationic and Anionic.. [113]
83. Regulating Exciton–Phonon Coupling to Achieve a Near-Unity Photol.. [113]
84. Dual adaptive sampling and machine learning interatomic potentials.. [112]
85. Discovery of a Slater-Pauling Semiconductor ZrRu1.5Sb with Promisi.. [112]
86. A dual-site doping strategy for developing efficient perovskite ox.. [112]
87. Giant Narrow-Band Optical Absorption and Distinctive Excitonic Str.. [111]
88. Temperature-dependent structural fluctuation and its effect on the.. [101]
89. Ag rearrangement induced metal-insulator phase transition in therm.. [100]
90. Large Transverse and Longitudinal Magneto-Thermoelectric Effect in.. [99]
91. Designing vacancy-filled Heusler thermoelectric semiconductors by .. [91]
92. Liquid-phase sintering enabling mixed ionic-electronic interphases.. [88]
93. Prediction of protected band edge states and dielectric tunable qu.. [87]
94. Tuning colour centres at a twisted hexagonal boron nitride interfa.. [86]
95. Bio-inspired Double Angstrom-Scale Confinement in Ti-deficient Ti0.. [85]
96. Improving Material Property Prediction by Leveraging the Large- Sc.. [84]
97. Simplified Synthesis of Fluoride-Free Ti3C2Tx via Electrochemical .. [82]
98. Unraveling the relationships between chemical bonding and thermoel.. [79]
99. Off-Stoichiometry Quaternary Heusler-Like Semiconductors with Magn.. [78]
100. Delocalized Bi-tetrahedral cluster induced ultralow lattice therma.. [77]
下载量
1. Half-Heusler-like compounds with wide continuous compositions and .. [11]
2. Giant thermopower of ionic gelatin near room temperature [1]
3. Prediction and Classification of Formation Energies of Binary Comp.. [1]
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