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2017[41]
Architecture of β‐Graphdiyne‐Containing Thin Film Using Modified Glaser–Hay Coupling Reaction for Enhanced Photocatalytic Property of TiO2,
Advanced Materials,
2017,
29,
19,
1700421
-
2017[42]
Chemical vapor deposition growth of linked carbon monolayers with acetylenic scaffoldings on silver foil,
Advanced Materials,
2017,
29,
18,
1604665
-
2017[43]
SnO2@PANI Core–Shell Nanorod Arrays on 3D Graphite Foam: A High-Performance Integrated Electrode for Lithium-Ion Batteries,
ACS applied materials & interfaces,
2017,
9,
11,
9620-9629
-
2016[44]
Direct synthesis of graphdiyne nanowalls on arbitrary substrates and its application for photoelectrochemical water splitting cell,
Advanced Materials,
2016,
29,
9,
1605308
-
2016[45]
Graphdiyne: a metal-free material as hole transfer layer to fabricate quantum dot-sensitized photocathodes for hydrogen production,
Journal of the American Chemical Society,
2016,
138,
12,
3954-3957
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2015[46]
Ultrathermostable, magnetic-driven, and superhydrophobic quartz fibers for water remediation,
ACS Applied Materials & Interfaces,
2015,
8,
1,
1025-1032
-
2015[47]
Hybrid-dimensional magnetic microstructure based 3D substrates for remote controllable and ultrafast water remediation,
Journal of Materials Chemistry A,
2015,
4,
3,
938-943
-
2015[48]
Robust superhydrophobic foam: a graphdiyne‐based hierarchical architecture for oil/water separation,
Advanced Materials,
2015,
28,
1,
168-173
-
2015[49]
Microscopic dimensions engineering: Stepwise manipulation of the surface wettability on 3D substrates for oil/water separation,
Advanced Materials,
2015,
28,
5,
936-942
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2015[50]
Synthesis of graphdiyne nanowalls using acetylenic coupling reaction,
Journal of the American Chemical Society,
2015,
137,
24,
7596-7599
