about
Tunable release of multiplex biochemicals by plasmonically active rotary nanomotors.Electronic properties of nanoentities revealed by electrically driven rotation.Ordered arrays of Raman nanosensors for ultrasensitive and location predictable biochemical detection.Micromotors with step-motor characteristics by controlled magnetic interactions among assembled componentsFabrication and robotization of ultrasensitive plasmonic nanosensors for molecule detection with Raman scattering.Guided-mode-resonance-coupled plasmonic-active SiO(2) nanotubes for surface enhanced Raman spectroscopy.One-Step Hydrothermal Synthesis of Comb-Like ZnO Nanostructures.Recent Progress on Man-Made Inorganic Nanomachines.Self-Collapse Lithography.Multiple-Patterning Nanosphere Lithography for Fabricating Periodic Three-Dimensional Hierarchical Nanostructures.Polymer-Pen Chemical Lift-Off Lithography.Ultrahigh-speed rotating nanoelectromechanical system devices assembled from nanoscale building blocks.Precision-Guided Nanospears for Targeted and High-Throughput Intracellular Gene Delivery.Near-Field Enhanced Plasmonic-Magnetic Bifunctional Nanotubes for Single Cell BioanalysisLarge-Area, Ultrathin Metal-Oxide Semiconductor Nanoribbon Arrays Fabricated by Chemical Lift-Off LithographyLarge-scale synthesis of SnO2 nanosheets with high lithium storage capacitySynthesis and characterization of gold cubic nanoshells using water-soluble GeO₂templatesScalable Fabrication of Quasi-One-Dimensional Gold Nanoribbons for Plasmonic SensingAptamer-field-effect transistors overcome Debye length limitations for small-molecule sensingMicropatterned Viral Membrane Clusters for Antiviral Drug Evaluation
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Q30390902-EA72A68B-D31E-410E-BBC8-302AE995AC51Q30519189-886C2364-9698-47E6-9758-F57E7A86B19BQ30541395-941A4BA7-FE7A-4B0F-B2D2-0926C4118223Q35027180-D3426EA5-F670-4D5B-A73A-94D4EDF75A00Q35785675-860D9DB5-A6E6-47FF-A22C-510FECD2EC35Q35989152-3DDFF0E7-EA1F-45CC-AEB5-C51CFB889609Q36406408-92579D65-96DC-414C-A757-27098B983F1DQ38538479-0E53457D-BC9F-470F-9B0C-686D8E6420FFQ38664939-7CCD9635-01C6-4C1D-8F6C-4AF7A9886E55Q46209895-D4437A60-C689-4433-AEA3-CFA0F4E5E9FDQ46790298-167EEEC5-F7F4-43B7-908E-5EAFE8D19C56Q51518316-2DEA541A-0CC5-4B28-BA03-B5DFFD0FD688Q52656633-6D9BFD4B-8AB2-435E-8567-A838EF78C812Q54197834-7C044FA6-320C-4661-B6DF-AABFB5E6F843Q61450754-1CF35DEA-C38A-4DEA-8266-3F851F3D7095Q82201461-C5EB23E9-084D-4E8E-9BA4-DE7FB4E6FBA9Q83574823-6C76FEFA-7590-41EC-A771-BC0942C20968Q89571834-ED2B67FA-433C-4DD5-9AFE-4CC87D88ABEAQ91321385-94DFBF7A-5F84-4C37-9BE1-C00A7F456B38Q92266847-CC55CD11-ACDF-4DA3-955C-0663E37E3AFC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Xiaobin Xu
@ast
Xiaobin Xu
@en
Xiaobin Xu
@es
Xiaobin Xu
@nl
Xiaobin Xu
@sl
type
label
Xiaobin Xu
@ast
Xiaobin Xu
@en
Xiaobin Xu
@es
Xiaobin Xu
@nl
Xiaobin Xu
@sl
prefLabel
Xiaobin Xu
@ast
Xiaobin Xu
@en
Xiaobin Xu
@es
Xiaobin Xu
@nl
Xiaobin Xu
@sl
P1053
F-8850-2011
P106
P2456
P31
P3829
P496
0000-0002-3479-0130
P569
2000-01-01T00:00:00Z