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Hyperdoping silicon with selenium: solid vs. liquid phase epitaxy.Swift carbon ion irradiated Nd:YAG ceramic optical waveguide amplifier.Key concepts behind forming-free resistive switching incorporated with rectifying transport properties.Channel waveguide lasers at 1064 nm in Nd:YAG crystal produced by C⁵⁺ ion irradiation with shadow masking.Guided continuous-wave and graphene-based Q-switched lasers in carbon ion irradiated Nd:YAG ceramic channel waveguide.Nd:YAG waveguide laser Q-switched by evanescent-field interaction with graphene.Carbon p electron ferromagnetism in silicon carbide.Magnetic interactions in BiFe₀.₅Mn₀.₅O₃ films and BiFeO₃/BiMnO₃ superlatticesBi₂Se₃ Q-switched Nd:YAG ceramic waveguide laser.Ferromagnetic Mn-Implanted GaP: Microstructures vs Magnetic Properties.Tailoring nonlinear optical properties of Bi2Se3 through ion irradiation.Q-switched waveguide laser based on two-dimensional semiconducting materials: tungsten disulfide and black phosphorous.Tunable Picosecond Laser Pulses via the Contrast of Two Reverse Saturable Absorption Phases in a Waveguide Platform.Ultra-doped n-type germanium thin films for sensing in the mid-infrared.Ion beam-induced shaping of Ni nanoparticles embedded in a silica matrix: from spherical to prolate shapeMn-doped Ge and Si: A Review of the Experimental StatusForming-free resistive switching in multiferroic BiFeO3 thin films with enhanced nanoscale shunts.InP nanocrystals on silicon for optoelectronic applications.Defect-induced magnetism in graphite through neutron irradiationInterplay between Kondo-like behavior and short-range antiferromagnetism inEuCu2Si2single crystalsSpin Manipulation in Co-Doped ZnOLiPON thin films with high nitrogen content for application in lithium batteries and electrochromic devices prepared by RF magnetron sputteringCladding-like waveguide structure in Nd:YAG crystal fabricated by multiple ion irradiation for enhanced waveguide lasingIon-Irradiation-Induced Cobalt/Cobalt Oxide Heterostructures: Printing 3D InterfacesUnveiling Electronic Properties in Metal-Phthalocyanine-Based Pyrazine-Linked Conjugated Two-Dimensional Covalent Organic FrameworksA bimodal soft electronic skin for tactile and touchless interaction in real timeA semiconducting layered metal-organic framework magnet
P50
Q30418950-74931C32-6348-495E-AC3B-BC460A802A14Q34779673-93B4CEC4-1734-473C-8F4D-51361DEAE06CQ34824176-60BEAD60-027B-4DC0-9B85-58AD1A1EE098Q35090247-BB7B13A0-FBFD-4EDD-8863-6EF676665DF7Q35129639-9CB386F7-1C15-4D24-8945-06D4F6316AEAQ35161310-87804215-FD73-4F9D-BD80-D26CC8D8BBDEQ35165786-C156E60A-378E-4CA5-90EE-CD4F1E893022Q35172064-3F606DB6-B661-43EC-8CCE-42C508CE63C0Q35561075-6FA6E74D-F2C6-4821-B703-00CBF4BBE49BQ35901300-04CB0E28-EC4C-477B-98A8-A4D85F3149A9Q35926757-DB64D5DB-5567-48AB-996E-37B9150DE7CAQ35932747-9EF13FFE-E7B1-4849-ADB0-6242D6065F0CQ36020256-4388F601-CB4E-4E47-AC24-82CA4C821729Q36990767-879A59A2-1A83-4C74-97D9-AA071831473EQ38991112-FAD4D22F-BCC5-4581-B951-E428055A83F6Q42243125-27CC71A3-D704-43AF-BB36-55ED96D72658Q44075051-CB8F7736-B066-4A39-9BC6-DFBDF73E5305Q51535736-ED106737-17FF-4B5B-AE88-E98A7ED80891Q61014357-1354DD76-8D2C-4D28-829A-2AAABF3E21D0Q62383169-3BCD2D65-758B-4BFE-B700-1E474B9964D5Q62394511-6E679DA0-E3C0-4518-8BCE-4FACDEA6C6A0Q64218067-7331C964-24B6-47E4-B4CB-03526746452EQ86512321-783CB87E-E0D0-4E3A-A4ED-632AC94D770EQ89491443-9B618E9A-7396-4768-9523-D548CC941A41Q90304556-3AE0E295-9E58-40BE-9F55-319ECC3F5707Q90339823-7E68E6F0-7DA5-4A8E-A3A5-C2F0E103A1C4Q92092265-D66E7666-E112-43E4-B68E-E2CDB0BC8A55
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Shengqiang Zhou
@ast
Shengqiang Zhou
@en
Shengqiang Zhou
@es
Shengqiang Zhou
@nl
Shengqiang Zhou
@sl
type
label
Shengqiang Zhou
@ast
Shengqiang Zhou
@en
Shengqiang Zhou
@es
Shengqiang Zhou
@nl
Shengqiang Zhou
@sl
prefLabel
Shengqiang Zhou
@ast
Shengqiang Zhou
@en
Shengqiang Zhou
@es
Shengqiang Zhou
@nl
Shengqiang Zhou
@sl
P106
P31
P496
0000-0002-4885-799X