Zheng Gai
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Citado por
Ultrathin nanosheets of CrSiTe 3: a semiconducting two-dimensional ferromagnetic material
MW Lin, HL Zhuang, J Yan, TZ Ward, AA Puretzky, CM Rouleau, Z Gai, ...
Journal of Materials Chemistry C 4 (2), 315-322, 2016
Giant magnetoresistance in organic spin valves
D Sun, L Yin, C Sun, H Guo, Z Gai, XG Zhang, TZ Ward, Z Cheng, J Shen
Physical review letters 104 (23), 236602, 2010
Room-temperature multiferroic hexagonal LuFeO 3 films
W Wang, J Zhao, W Wang, Z Gai, N Balke, M Chi, HN Lee, W Tian, L Zhu, ...
Physical review letters 110 (23), 237601, 2013
Growth and magnetism of metallic thin films and multilayers by pulsed-laser deposition
J Shen, Z Gai, J Kirschner
Surface science reports 52 (5-6), 163-218, 2004
Elastically driven anisotropic percolation in electronic phase-separated manganites
TZ Ward, JD Budai, Z Gai, JZ Tischler, L Yin, J Shen
Nature Physics 5 (12), 885-888, 2009
High-yield solvothermal formation of magnetic CoPt alloy nanowires
Z Zhang, DA Blom, Z Gai, JR Thompson, J Shen, S Dai
Journal of the American Chemical Society 125 (25), 7528-7529, 2003
Magnetic iron oxide–fluorescent carbon dots integrated nanoparticles for dual-modal imaging, near-infrared light-responsive drug carrier and photothermal therapy
H Wang, J Shen, Y Li, Z Wei, G Cao, Z Gai, K Hong, P Banerjee, S Zhou
Biomaterials science 2 (6), 915-923, 2014
Competing antiferromagnetism in a quasi-2D itinerant ferromagnet: Fe3GeTe2
J Yi, H Zhuang, Q Zou, Z Wu, G Cao, S Tang, SA Calder, PRC Kent, ...
2D Materials 4 (1), 011005, 2016
Multi-functional core-shell hybrid nanogels for pH-dependent magnetic manipulation, fluorescent pH-sensing, and drug delivery
W Wu, J Shen, Z Gai, K Hong, P Banerjee, S Zhou
Biomaterials 32 (36), 9876-9887, 2011
Paramagnetic Properties of Metal‐Free Boron‐Doped Graphene Quantum Dots and Their Application for Safe Magnetic Resonance Imaging
H Wang, R Revia, K Wang, RJ Kant, Q Mu, Z Gai, K Hong, M Zhang
Advanced Materials, 2016
Adsorption of glycine on Cu (001) and related step faceting and bunching
X Zhao, Z Gai, RG Zhao, WS Yang, T Sakurai
Surface science 424 (2-3), L347-L351, 1999
Formation of FePt nanoparticles having high coercivity
RD Rutledge, WH Morris, MS Wellons, Z Gai, J Shen, J Bentley, JE Wittig, ...
Journal of the American Chemical Society 128 (44), 14210-14211, 2006
Size-and shape-controlled synthesis and properties of magnetic–plasmonic core–shell nanoparticles
EA Kwizera, E Chaffin, X Shen, J Chen, Q Zou, Z Wu, Z Gai, S Bhana, ...
The Journal of Physical Chemistry C 120 (19), 10530-10546, 2016
Magnetism and electronic structure of La 2 ZnIrO 6 and La 2 MgIrO 6: Candidate J eff= 1 2 Mott insulators
G Cao, A Subedi, S Calder, JQ Yan, J Yi, Z Gai, L Poudel, DJ Singh, ...
Physical Review B 87 (15), 155136, 2013
Full electroresistance modulation in a mixed-phase metallic alloy
ZQ Liu, L Li, Z Gai, JD Clarkson, SL Hsu, AT Wong, LS Fan, MW Lin, ...
Physical review letters 116 (9), 097203, 2016
Atomically thin half-van der Waals metals enabled by confinement heteroepitaxy
N Briggs, B Bersch, Y Wang, J Jiang, RJ Koch, N Nayir, K Wang, ...
Nature materials 19 (6), 637-643, 2020
Strain doping: Reversible single-axis control of a complex oxide lattice via helium implantation
H Guo, S Dong, PD Rack, JD Budai, C Beekman, Z Gai, W Siemons, ...
Physical Review Letters 114 (25), 256801, 2015
Ferromagnetic stability in Fe nanodot assemblies on Cu (111) induced by indirect coupling through the substrate
JP Pierce, MA Torija, Z Gai, J Shi, TC Schulthess, GA Farnan, ...
Physical review letters 92 (23), 237201, 2004
Self-assembly of nanometer-scale magnetic dots with narrow size distributions on an insulating substrate
Z Gai, B Wu, JP Pierce, GA Farnan, D Shu, M Wang, Z Zhang, J Shen
Physical review letters 89 (23), 235502, 2002
Observation of conductance quantization of ballistic metallic point contacts at room temperature
Z Gai, Y He, H Yu, WS Yang
Physical Review B 53 (3), 1042, 1996
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Artículos 1–20