Long Yan
Title
Cited by
Cited by
Year
Nitrogen/sulfur dual-doped 3D reduced graphene oxide networks-supported CoFe2O4 with enhanced electrocatalytic activities for oxygen reduction and evolution reactions
W Yan, X Cao, J Tian, C Jin, K Ke, R Yang
Carbon 99, 195-202, 2016
1162016
FeCo2O4/hollow graphene spheres hybrid with enhanced electrocatalytic activities for oxygen reduction and oxygen evolution reaction
W Yan, Z Yang, W Bian, R Yang
Carbon 92, 74-83, 2015
1102015
Synthesis of nitrogen doped graphene from graphene oxide within an ammonia flame for high performance supercapacitors
D Li, C Yu, M Wang, Y Zhang, C Pan
Rsc Advances 4 (98), 55394-55399, 2014
86*2014
Hyperbranched polysiloxane grafted graphene for improved tribological performance of bismaleimide composites
X YanáMa
RSC advances 5 (17), 12578-12582, 2015
68*2015
An efficient Bi-functional electrocatalyst based on strongly coupled CoFe2O4/carbon nanotubes hybrid for oxygen reduction and oxygen evolution
W Yan, W Bian, C Jin, JH Tian, R Yang
Electrochimica Acta 177, 65-72, 2015
642015
Surface modification of MnCo2O4 with conducting polypyrrole as a highly active bifunctional electrocatalyst for oxygen reduction and oxygen evolution reaction
X Cao, W Yan, C Jin, J Tian, K Ke, R Yang
Electrochimica Acta 180, 788-794, 2015
522015
Diverse self-sustained oscillatory patterns and their mechanisms in excitable small-world networks
Y Qian, X Liao, X Huang, Y Mi, L Zhang, G Hu
Physical Review E 82 (2), 026107, 2010
50*2010
The electrical conductivity of carbon nanotube sheets by ion beam irradiation
A Ishaq, L Yan, D Zhu
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2009
492009
Bacterial-cellulose-derived carbon nanofiber-supported CoFe2O4 as efficient electrocatalyst for oxygen reduction and evolution reactions
S Liu, W Yan, X Cao, Z Zhou, R Yang
International Journal of Hydrogen Energy 41 (11), 5351-5360, 2016
462016
Two-dimensional Na–Cl crystals of unconventional stoichiometries on graphene surface from dilute solution at ambient conditions
G Shi, L Chen, Y Yang, D Li, Z Qian, S Liang, L Yan, LH Li, M Wu, H Fang
Nature chemistry 10 (7), 776-779, 2018
422018
Irradiation resistance of MAX phases Ti3SiC2 and Ti3AlC2: Characterization and comparison
Q Huang, R Liu, G Lei, H Huang, J Li, S He, D Li, L Yan, J Zhou
Journal of Nuclear Materials 465, 640-647, 2015
392015
Free nitrous acid breaks down extracellular polymeric substances in waste activated sludge
T Zhang, Q Wang, J Khan, Z Yuan
Rsc Advances 5 (54), 43312-43318, 2015
392015
TEM, XRD and nanoindentation characterization of Xenon ion irradiation damage in austenitic stainless steels
HF Huang, JJ Li, DH Li, RD Liu, GH Lei, Q Huang, L Yan
Journal of Nuclear Materials 454 (1-3), 168-172, 2014
382014
Constructing carbon nanotube junctions by Ar ion beam irradiation
A Ishaq, Z Ni, L Yan, J Gong, D Zhu
Radiation Physics and Chemistry 79 (6), 687-691, 2010
372010
Formation of ordered Ge quantum dots on the surface
YP Zhang, L Yan, SS Xie, SJ Pang, HJ Gao
Applied Physics Letters 79 (20), 3317-3319, 2001
362001
Nanostructure variations and their effects on mechanical strength of Ni-17Mo-7Cr alloy under xenon ion irradiation
H HF, L JJ, L RD, L GH, Q Huang, L Yan
Materials Transactions, M2014075, 2014
342014
Topology-dependent interface contribution to magneto-optical response from ultrathin Co films grown on the (001),(110), and (111) surfaces of Pd
M Przybylski, L Yan, J Żukrowski, M Nyvlt, Y Shi, A Winkelmann, J Barthel, ...
Physical Review B 73 (8), 085413, 2006
322006
Saturation of ion irradiation effects in MAX phase Cr2AlC
Q Huang, H Han, R Liu, G Lei, L Yan, J Zhou
Acta Materialia 110, 1-7, 2016
312016
Fabrication and uniaxial magnetic anisotropy of Co nanowires on a Pd (110) surface
L Yan, M Przybylski, Y Lu, WH Wang, J Barthel, J Kirschner
Applied Physics Letters 86 (10), 102503, 2005
312005
Enhanced electron field emission of carbon nanotubes by Si ion beam irradiation
Z Ni, A Ishaq, L Yan, J Gong, D Zhu
Journal of Physics D: Applied Physics 42 (7), 075408, 2009
292009
The system can't perform the operation now. Try again later.
Articles 1–20