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2021[1]
Screening Topological Quantum Materials for Na-Ion Battery Cathode,
ACS Mater. Lett.,
2021,
4,
175,
175-180
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2021[2]
Theory-Guided Discovery of Novel Materials,
J. Phys. Chem. Lett.,
2021,
12,
28,
6499-6513
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2020[3]
Yttrium–Sodium Halides as Promising Solid-State Electrolytes with High Ionic Conductivity and Stability for Na-Ion Batteries,
J. Phys. Chem. Lett.,
2020,
11,
9,
3376-3383
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2019[4]
The ultralow thermal conductivity and ultrahigh thermoelectric performance of fluorinated Sn2Bi sheet in room temperature,
Nano Energy,
2019,
67,
104283
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2019[5]
Lithium Chlorides and Bromides as Promising Solid-State Chemistries for Fast Ion Conductors with Good Electrochemical Stability,
Angew. Chem. Int. Ed.,
2019,
58,
24,
8039-8043
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2019[6]
Classifying superheavy elements by machine learning,
Phys. Rev. A,
2019,
99,
022110
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2018[7]
Interpenetrating silicene networks: A topological nodal-line semimetal with potential as an anode material for sodium ion batteries,
Phys. Rev. Mater.,
2018,
2,
08421
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2018[8]
Super Atomic Clusters: Design Rules and Potential for Building Blocks of Materials,
Chem. Rev.,
2018,
118,
11,
5755-5870
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2018[9]
High-pressure-assisted design of porous topological semimetal carbon for Li-ion battery anode with high-rate performance,
Phys. Rev. Mater.,
2018,
2,
025403
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2017[10]
Valley-Polarized Quantum Anomalous Hall Effect in Ferrimagnetic Honeycomb Lattices,
Phys. Rev. Lett.,
2017,
119,
046403
