Covalent functionalization and passivation of exfoliated black phosphorus via aryl diazonium chemistry.
about
Scanning Probe Nanopatterning and Layer-by-Layer Thinning of Black Phosphorus.Sensitive Detection of Carcinoembryonic Antigen Using Stability-Limited Few-Layer Black Phosphorus as an Electron Donor and a Reservoir.Few-Layer Black Phosphorus Carbide Field-Effect Transistor via Carbon Doping.Electronic structures at the interface between CuPc and black phosphorus.Current and future directions in electron transfer chemistry of graphene.Progress on Electronic and Optoelectronic Devices of 2D Layered Semiconducting Materials.Black phosphorus nanostructures: recent advances in hybridization, doping and functionalization.Raman Sensitive Degradation and Etching Dynamics of Exfoliated Black Phosphorus.Black Phosphorus Rediscovered: From Bulk Material to Monolayers.2D Black Phosphorus for Energy Storage and Thermoelectric Applications.Recent progress in 2D group-VA semiconductors: from theory to experiment.Ambient Protection of Few-Layer Black Phosphorus via Sequestration of Reactive Oxygen Species.Supramolecular networks stabilise and functionalise black phosphorus.Noncovalent Functionalization and Charge Transfer in Antimonene.Black Phosphorus Nanosheets as a Robust Delivery Platform for Cancer Theranostics.Quasi-Monolayer Black Phosphorus with High Mobility and Air Stability.Recovery Mechanism of Degraded Black Phosphorus Field-Effect Transistors by 1,2-Ethanedithiol Chemistry and Extended Device Stability.Fluorinated Phosphorene: Electrochemical Synthesis, Atomistic Fluorination, and Enhanced Stability.Band-edge engineering via molecule intercalation: a new strategy to improve stability of few-layer black phosphorus.Metal-Ion-Modified Black Phosphorus with Enhanced Stability and Transistor Performance.Two-dimensional nanomaterial-based field-effect transistors for chemical and biological sensing.Current progress in black phosphorus materials and their applications in electrochemical energy storage.The Covalent Functionalization of Layered Black Phosphorus by Nucleophilic Reagents.Recent Applications of 2D Inorganic Nanosheets for Emerging Energy Storage System.Interlayer Bond Formation in Black Phosphorus at High Pressure.Layer-Tunable Phosphorene Modulated by the Cation Insertion Rate as a Sodium-Storage Anode.Sandwiched Thin-Film Anode of Chemically Bonded Black Phosphorus/Graphene Hybrid for Lithium-Ion Battery.Tuning the Carrier Confinement in GeS/Phosphorene van der Waals Heterostructures.Fundamental Insights into the Degradation and Stabilization of Thin Layer Black Phosphorus.Noncovalent Functionalization of Black Phosphorus.Light-Induced Ambient Degradation of Few-Layer Black Phosphorus: Mechanism and Protection.Black Phosphorus and its Biomedical Applications.Few-Layered Black Phosphorus: From Fabrication and Customization to Biomedical Applications.Bandgap-tunable black phosphorus quantum dots: visible-light-active photocatalysts.Black Phosphorus Revisited: A Missing Metal-Free Elemental Photocatalyst for Visible Light Hydrogen Evolution.Facile bottom-up synthesis of partially oxidized black phosphorus nanosheets as metal-free photocatalyst for hydrogen evolution.Passivation of Black Phosphorus via Self-Assembled Organic Monolayers by van der Waals Epitaxy.Polymer-Based Black Phosphorus (bP) Hybrid Materials by in Situ Radical Polymerization: An Effective Tool To Exfoliate bP and Stabilize bP Nanoflakes.Phosphorene: from theory to applicationsStabilizing black phosphorus nanosheets via edge-selective bonding of sacrificial C molecules
P2860
Q36182639-1FA4F12E-DAC6-43C1-8802-9F41FDD792EEQ36257080-E962E9C5-120E-4996-AEA4-BD623D7287FCQ36344268-F7F26FD1-2B5D-40F0-9724-3EF2D732551AQ38642125-0AE6422E-617A-4B3D-A89C-7175C971CAE8Q38670272-C8C9CBEF-CB90-4BDF-A7E7-ECA0AEF5706CQ38673289-977A680C-A8E3-4DBB-856F-0D17F453084FQ38691703-B25BC2B6-F2A5-4299-916E-41D1595539D5Q38743051-11AF33E2-1EDE-4276-829A-A74276FA5825Q39098443-9151247B-1EF9-42A4-93B2-D2F3C08094A4Q39359441-0EB6F65A-AB31-4931-8870-80DEF257C5A7Q46001679-2AE304FE-3CB6-422D-9C08-EB7056EEF199Q46367127-D74A3426-44B1-4FA6-B5C2-F574F46A093AQ46723508-7F39DB28-8FC3-4A27-9985-C7E413B4F79FQ47131303-F28D9387-4FAE-48FF-8241-679466830778Q47149280-D1679F52-CB51-4D4E-8A40-6449C3E9279FQ47190870-3AE7D17C-E1C0-4BCD-B52C-61EE21538E30Q47277838-C4070980-5F7A-4DCE-AA4A-D8865261D1FBQ47389096-6A0B1EB5-5217-4C36-898D-7FB5C982027BQ47413199-7678AEB4-7264-4F82-9894-7DD9A07C2168Q47619936-507463E6-A072-443F-B493-E94D1E74D843Q47652742-9FEC6FE3-0979-48AE-9442-5DFC30037BC2Q47721123-F96FF09C-798A-4C0C-B280-F910AD9C8B91Q47795319-B25607C6-E6C0-476D-94C7-53389B82F048Q47876279-57776748-DE92-413F-AA40-1B67941447C7Q47936336-0F247A9D-B593-44C3-8539-C36940F74C88Q47941497-50E35523-A5CE-40F3-8286-BB35D5B91B7BQ47979551-5D8685E5-B60C-4044-9846-E8C5D419CEDEQ48043589-3EF9185D-221F-4BD8-98FF-6F40D2B85AAEQ48181656-FB9D2038-75B0-4DEF-8DBA-9A72CBAEB90AQ48288080-53B39FE0-8061-4883-97BC-60F7F1593E98Q49114770-4043CC83-7237-4745-9710-7A064BFEF803Q49788141-A2383E68-DD34-43AC-9717-E4FC00D054C4Q50014441-02103923-B1F1-44FB-BABC-65E16177A94BQ50107788-55650FB0-B692-48E4-ACAE-66E0F5C23FFAQ50874549-99C0EBD7-B3B4-4C17-B6A6-C2A84F986D26Q52644089-4DD28313-14AF-4EE0-8E06-C18CBFA6F480Q53632735-CE7EB9DD-BD66-4732-ACAD-FB393438D539Q54959452-2F832389-26AD-4B74-B9A4-8219196E9230Q56688656-2033088C-E5A6-4278-AB80-54A9071345BFQ57291559-6078C81F-838A-40D2-9D80-B24C14CD0C40
P2860
Covalent functionalization and passivation of exfoliated black phosphorus via aryl diazonium chemistry.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年学术文章
@wuu
2016年学术文章
@zh
2016年学术文章
@zh-cn
2016年学术文章
@zh-hans
2016年学术文章
@zh-my
2016年学术文章
@zh-sg
2016年學術文章
@yue
2016年學術文章
@zh-hant
name
Covalent functionalization and ...... via aryl diazonium chemistry.
@en
Covalent functionalization and ...... via aryl diazonium chemistry.
@nl
type
label
Covalent functionalization and ...... via aryl diazonium chemistry.
@en
Covalent functionalization and ...... via aryl diazonium chemistry.
@nl
prefLabel
Covalent functionalization and ...... via aryl diazonium chemistry.
@en
Covalent functionalization and ...... via aryl diazonium chemistry.
@nl
P2093
P2860
P50
P356
P1433
P1476
Covalent functionalization and ...... via aryl diazonium chemistry.
@en
P2093
Christopher R Ryder
Deep Jariwala
Joshua D Wood
Spencer A Wells
P2860
P2888
P304
P356
10.1038/NCHEM.2505
P577
2016-05-02T00:00:00Z
P5875
P6179
1045575082
P698
P818
1605.01012