Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
about
Stacking sequence and interlayer coupling in few-layer graphene revealed by in situ imaging.A Chemical Template for Synthesis of Molecular Sheets of Calcium CarbonateThermal Conductance of the 2D MoS2/h-BN and graphene/h-BN Interfaces.Transfer of monolayer TMD WS2 and Raman study of substrate effects.Plasmon Excitations of Multi-layer Graphene on a Conducting Substrate.Fast response and high sensitivity ZnO/glass surface acoustic wave humidity sensors using graphene oxide sensing layerAnalytical modeling of uniaxial strain effects on the performance of double-gate graphene nanoribbon field-effect transistors.Contrast and Raman spectroscopy study of single- and few-layered charge density wave material: 2H-TaSe₂Biaxial compressive strain engineering in graphene/boron nitride heterostructures.In-Situ Stretching Patterned Graphene Nanoribbons in the Transmission Electron Microscope.Dirac Cones in two-dimensional conjugated polymer networks.The extended growth of graphene oxide flakes using ethanol CVD.Atomic layer etching of graphene through controlled ion beam for graphene-based electronics.Modulation of Electronic and Optical Anisotropy Properties of ML-GaS by Vertical Electric FieldProduction of few-layer phosphorene by liquid exfoliation of black phosphorus.Facile synthesis 3D flexible core-shell graphene/glass fiber via chemical vapor deposition.Deformation of wrinkled graphene.Strong piezoelectricity in single-layer graphene deposited on SiO2 grating substrates.Enhancement of resistive switching under confined current path distribution enabled by insertion of atomically thin defective monolayer graphene.The positive piezoconductive effect in graphene.2D Materials for Optical Modulation: Challenges and Opportunities.Observation of strain effect on the suspended graphene by polarized Raman spectroscopy.Visualization of arrangements of carbon atoms in graphene layers by Raman mapping and atomic-resolution TEM.Mechanical Control of Individual Superconducting Vortices.Nano-Bioelectronics.Visualising the strain distribution in suspended two-dimensional materials under local deformation.Phonon softening and crystallographic orientation of strained graphene studied by Raman spectroscopyStatistical Analysis of Main and Interaction Effects on Cu(II) and Cr(VI) Decontamination by Nitrogen-Doped Magnetic Graphene Oxide.Probing substrate influence on graphene by analyzing Raman lineshapesChemical and Bandgap Engineering in Monolayer Hexagonal Boron Nitride.Thinning and shaping solid films into functional and integrative nanomembranes.Engineering the electronic structure of graphene.Graphene-based flexible and stretchable thin film transistors.Semiconducting graphene: converting graphene from semimetal to semiconductor.Graphene-based hybrid structures combined with functional materials of ferroelectrics and semiconductors.Graphene and graphitic derivative filled polymer composites as potential sensors.Straining graphene using thin film shrinkage methods.Seamless lamination of a concave-convex architecture with single-layer graphene.Current and future directions in electron transfer chemistry of graphene.Strain engineering of graphene: a review.
P2860
Q28821270-67224E61-8C7B-45BA-A6A5-2622146C371BQ28833530-FE07D22F-90C7-4621-8E9B-D3813EDB91C8Q30361585-39FCBD2E-D7F0-492E-8DAA-947BAE8B674AQ30362742-30250F84-BCDB-44A6-9F9B-808944ACBB39Q30390390-DAECAE39-BC93-43DD-BF9B-BA29A47AC739Q30423527-FB2461A4-BFB6-478C-8D12-75D62E5B8219Q30442816-A7323035-C20F-470E-A3D4-1CA6183D9448Q30449580-830EC33E-273A-4529-9F75-E0D45ED0D604Q30460551-74800F25-B2F1-4AAD-B771-2A8B6449A149Q30849411-BAA3EDE9-FDDF-47D8-8B24-8AD524177B2AQ30879311-21CE0908-4347-43D4-831E-A6B78065BA79Q33457287-22B2AFB0-7891-4D10-9DF7-0942C5FCA906Q33732665-C419171C-0F95-425D-9EF5-A81FE498636EQ33799050-AA8CA9E0-7BDE-48F2-B10E-2A0C5DE041B2Q34042064-2AC19766-B7CA-4648-A650-911B430ADBB7Q34078249-DAF3571E-1BF3-4658-A809-3B6F918CCA8EQ35576148-ACCABBD3-D12D-4B00-9D4C-48E6C37C5213Q35819027-14512442-AA15-49AB-85E6-7FA45B3E9626Q35838084-76A400D4-B27F-4B1F-AF33-02D8EA1A2E4EQ36084458-75781D84-4433-4E35-AE7D-310195AAB7E5Q36285945-1DC7B939-4173-4BB9-84F4-CD6DE23319BEQ36412630-2C07DB8C-DED5-45E1-A7BE-E83A56AD90B2Q36579802-92C6B8EB-9E40-4C25-A96B-C335E6C359E3Q36682045-017FC119-23DC-4A72-881B-E864DB8E9B6CQ36901843-A82F5553-1105-4CAE-866F-5FB21CB9846FQ37040226-8A3477BF-3F5E-46E6-9D1D-60C33552B792Q37183043-0EDBDD01-A8E4-4AA2-A94E-72B3A9C74B7CQ37303354-EF335298-A41C-49A6-8BB4-504D3A27322CQ37585199-20D1A399-6D5C-4DCD-92D5-FCAA8BE20F52Q37734676-20F8B450-85A0-4507-9035-8DA28ADB8DCDQ38003580-DCF810A1-8C2B-48B2-8CA2-ACAD5F541747Q38023775-49FE1081-9631-4ECE-BBFB-D97A1B43E6CEQ38024319-19840C66-5B7B-4481-B7AE-D9CA9D619C53Q38074007-42E68506-3A34-441F-99FD-241CB03AA7E8Q38206123-FD8BEF45-B80D-428C-92E8-2F43B692A72AQ38316995-DB53D221-2218-4265-8965-097A51B9C606Q38394751-1A042831-2A5D-4465-8C28-023E300E1301Q38421439-EC679288-FB9F-4B3B-90BF-B78D8659AD4AQ38670272-7530BEDF-F652-4B00-819D-9E12577B79D9Q38706794-228AB659-1BD5-426E-9743-2068E7E1D8B6
P2860
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@en
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@nl
type
label
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@en
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@nl
prefLabel
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@en
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@nl
P2093
P356
P1433
P1476
Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening.
@en
P2093
Ying Ying Wang
Yuan Ping Feng
Yun Hao Lu
Ze Xiang Shen
Zhen Hua Ni
P304
P356
10.1021/NN800459E
P407
P577
2008-11-01T00:00:00Z