Cell specific cytotoxicity and uptake of graphene nanoribbons. - sprookjes - yvandenbroek - TriplyDB

Cell specific cytotoxicity and uptake of graphene nanoribbons.

Cell specific cytotoxicity and uptake of graphene nanoribbons.

http://www.wikidata.org/entity/Q34306510

about

Two-dimensional nanostructure-reinforced biodegradable polymeric nanocomposites for bone tissue engineering Graphene-based contrast agents for photoacoustic and thermoacoustic tomography.Synthesis, toxicity, biocompatibility, and biomedical applications of graphene and graphene-related materials Applications and toxicity of graphene family nanomaterials and their composites Mechanistic understanding of toxicity from nanocatalysts Toxicity of graphene-family nanoparticles: a general review of the origins and mechanisms Oxidative Stress and Mitochondrial Activation as the Main Mechanisms Underlying Graphene Toxicity against Human Cancer Cells Porous three-dimensional carbon nanotube scaffolds for tissue engineering.The effects of graphene nanostructures on mesenchymal stem cells Immunotoxicity assessment of CdSe/ZnS quantum dots in macrophages, lymphocytes and BALB/c mice Interaction of graphene nanoribbons with components of the blood vascular system Toxicology of graphene-based nanomaterials Reduced graphene oxide-silver nanoparticle nanocomposite: a potential anticancer nanotherapy Enzymatic Degradation of Oxidized and Reduced Graphene Nanoribbons by Lignin Peroxidase In vitro cytocompatibility of one-dimensional and two-dimensional nanostructure-reinforced biodegradable polymeric nanocomposites Biofabrication of a novel biomolecule-assisted reduced graphene oxide: an excellent biocompatible nanomaterial Biomedical photoacoustics: fundamentals, instrumentation and perspectives on nanomedicine.Neural Cell Chip Based Electrochemical Detection of Nanotoxicity Toxicology of chemically modified graphene-based materials for medical application.Ti-GO-Ag nanocomposite: the effect of content level on the antimicrobial activity and cytotoxicity.Synthesis, Characterization, In Vitro Phantom Imaging, and Cytotoxicity of A Novel Graphene-Based Multimodal Magnetic Resonance Imaging - X-Ray Computed Tomography Contrast Agent.Cell Microarray Technologies for High-Throughput Cell-Based Biosensors.Graphene nanoribbons as a drug delivery agent for lucanthone mediated therapy of glioblastoma multiforme Fabrication and cytocompatibility of in situ crosslinked carbon nanomaterial films.Graphene Functionalized Scaffolds Reduce the Inflammatory Response and Supports Endogenous Neuroblast Migration when Implanted in the Adult Brain Interactions of 1D- and 2D-layered inorganic nanoparticles with fibroblasts and human mesenchymal stem cells.Graphene oxide-silver nanocomposite as a promising biocidal agent against methicillin-resistant Staphylococcus aureus.Core-shell self-assembly triggered via a thiol-disulfide exchange reaction for reduced glutathione detection and single cells monitoring.Graphene-based platforms for cancer therapeutics Novel hydrated graphene ribbon unexpectedly promotes aged seed germination and root differentiation.Assessing in vivo toxicity of graphene materials: current methods and future outlook.In Vitro Bioactivity of One- and Two-Dimensional Nanoparticle Incorporated Bone Tissue Engineering Scaffolds.Uptake of label-free graphene oxide by Caco-2 cells is dependent on the cell differentiation status.Two- and Three-Dimensional All-Carbon Nanomaterial Assemblies for Tissue Engineering and Regenerative Medicine.Structural disruption increases toxicity of graphene nanoribbons.Potentiating effect of graphene nanomaterials on aromatic environmental pollutant-induced cytochrome P450 1A expression in the topminnow fish hepatoma cell line PLHC-1.Cytotoxicity of halogenated graphenes.Novel GO-COO-β-CD/CA inclusion: its blood compatibility, antibacterial property and drug delivery.In vitro hematological and in vivo vasoactivity assessment of dextran functionalized graphene.Quercetin-mediated synthesis of graphene oxide-silver nanoparticle nanocomposites: a suitable alternative nanotherapy for neuroblastoma.

P2860

Q24601870-3C8FCC49-EDE5-430B-9108-B1D79D850865 Q24613187-00AADC24-D716-4FFE-949C-5038CCB24AD4 Q26745949-FBEF6FEE-F778-41C4-9109-CB91BB73C630 Q26751311-2BE49E2A-E3F1-4A13-B7DE-8A39D169FC69 Q26996332-A7F3A116-9548-49EC-BD27-24C7D84B490E Q28071613-5CA41FA7-2337-45D5-AB76-23EFB69A1CA9 Q28083724-9FE20230-91FE-466F-930C-6F491CE13368 Q28259163-99AED055-2DFA-4ED5-86C8-5D5F9280391A Q28384456-F6204F0E-222F-45DE-94FC-1C085B42571D Q28386055-6810476D-B599-4343-BBCF-D896ED06B38A Q28387840-B509A978-FF38-43A8-8BE7-303E33C7113C Q28390234-F5B198AE-EF8B-4F32-AC39-12B3FE87074B Q28390819-740D3746-F17F-4D56-8DB1-784E8EA92A48 Q28393924-F6FB85F4-8692-48D9-8BBE-18B1D74EF4B4 Q28393989-7D493C97-4065-462E-8616-8BDBF7A6ECE0 Q28817501-FAED9BD4-16FE-48F1-95FC-E2ABCF3257A3 Q30366179-4FB73EA5-2880-41A0-A770-7BEB8B5BBA28 Q30378116-ACE11617-DE25-446B-9D6B-58BFB873045B Q30427860-5BC17C2F-3E89-423E-8AB1-6D3ABD452004 Q33807157-7D369E3B-E84F-4ECC-B2CB-9D3490C4DAD4 Q33837738-594AF599-706F-4B51-AF5F-9AC42D1A85C5 Q33858214-58B45BE5-9B51-4325-A548-5230424E497B Q34791084-16A92D81-F8B8-400A-9A3F-051DD893EC30 Q35658681-F3FAD282-0FD9-4004-9D4D-6BE36BEFA3A6 Q35957660-E7B677DE-4327-4017-9CBD-CEA4CCCEE2FF Q36076777-511DEA22-7B05-46CF-9F48-4875C977BC94 Q36257260-551D56B8-0B94-4703-8DCE-984FA1E4E3EC Q37093191-AF36DA9B-BEE0-43A4-8009-DD5F6D727332 Q37158662-449C69C0-494F-4D1B-8706-C8835BBEB024 Q37497732-64C94BA6-DE9E-4B21-9CA3-60C360B0484F Q38254089-FBFACC4A-5A9B-4954-9415-E888D27520E1 Q38649615-7392825C-1967-4F29-92C3-EBAD166A6FE6 Q38699493-3BC87650-3C7E-483B-A7C7-644A938B0524 Q38820511-D9383DA1-DEFE-479A-8E75-87B1BB5A58BE Q38956238-9798F67F-57DD-45D9-A1C9-DCE977455D36 Q39007144-EF30233F-D2DF-4661-AA8A-21D7199956E6 Q39051080-A8F0BE10-532F-45FF-868C-E88F2A7FD729 Q39069661-89898673-AE68-4FEE-9F67-99CCB991F206 Q39100572-423396EA-BE2A-4FE0-B4D3-018BB2D80810 Q40071681-1847C82C-D7A7-4C3B-B1D1-0465C38CAFBC

P2860

Cell specific cytotoxicity and uptake of graphene nanoribbons.

http://www.wikidata.org/entity/Q34306510

description

2012 nî lūn-bûn

@nan

2012 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2012 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

name

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@ast

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@en

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@nl

type

label

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@ast

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@en

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@nl

prefLabel

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@ast

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@en

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@nl

P1433

Q34306510-19D1EE85-3AB8-4AEB-8090-121B7AFF9102

P1476

Q34306510-3157E437-3EAC-4975-8F7F-2E088E97E495

P2093

Q34306510-BCC9589C-0B30-406D-9481-9612A4B25D80

Q34306510-CDEF7B5B-860F-4B30-A4B7-1D4C191401B1

Q34306510-CE25C373-7861-4631-B939-BB8D2708B531

Q34306510-D70F1B1E-CEB6-45B5-BC66-339544047703

P2860

Q34306510-0039D7EE-C5BA-4BE8-A1A4-E6018241D2A2

Q34306510-1676828B-0F64-428A-AC58-2818B0D10C24

Q34306510-17F09AC0-674D-4E34-AD8F-C0870AF9F58C

Q34306510-244CEB1D-2F92-48D9-A5CE-D035C82A2B27

Q34306510-25D2DCF0-2003-4EDD-9724-0CE6A9535BD3

Q34306510-4A842F95-526E-427F-8392-E4DE55C3107E

Q34306510-4DAD21DC-4549-4169-8E8B-A8E60248E54B

Q34306510-4F469EAF-97BF-4785-BC68-A2F13E9DE51B

Q34306510-601FAEA8-34A7-4501-A8C1-726B4DD14D67

Q34306510-7C446051-D496-4AB0-8642-CA1E4BFB6CC5

P304

Q34306510-2B9A68B7-862F-4B78-884E-28DD7776F3AC

P31

Q34306510-99261E41-8644-4BDD-82D0-7FF7D1041B14

P356

Q34306510-3BC09351-FFF4-4A41-97F2-221D2A1A8D55

P433

Q34306510-A37A6DFD-3367-4B16-80BD-E6C1026DF89D

P478

Q34306510-5D5E86E5-5D4F-4E60-BD0A-8BCBE1B579B6

P50

Q34306510-098727C8-B3FF-4814-AE17-6138E58B48B9

Q34306510-66F56992-2395-434D-96FE-9AA2A5012212

P577

Q34306510-2BA02BB8-62B8-41B3-BED7-1BA91812DA38

P5875

Q34306510-B134AD96-D82F-4A7B-854D-EDC312F4BF15

P698

Q34306510-62480A92-F296-483B-AB66-07D5F5FE575F

P921

Q34306510-34510BB5-268C-4EC1-A6A0-18037DC81BF5

Q34306510-4ACDAE96-91F6-41B3-BBDE-2B22036183CF

P932

Q34306510-3985AD66-ECC1-4774-AB29-1D4E99352F42

P356

J.BIOMATERIALS.2012.09.057

P1433

P1476

Cell specific cytotoxicity and uptake of graphene nanoribbons.

@en

P2093

Jeong Y Yang

http://www.w3.org/2001/XMLSchema#string

Kayla Neville

http://www.w3.org/2001/XMLSchema#string

Kevin Zhang

http://www.w3.org/2001/XMLSchema#string

Sayan Mullick Chowdhury

http://www.w3.org/2001/XMLSchema#string

P2860

Physicochemical characterization, and relaxometry studies of micro-graphite oxide, graphene nanoplatelets, and nanoribbons

Electric Field Effect in Atomically Thin Carbon Films

Longitudinal unzipping of carbon nanotubes to form graphene nanoribbons

The rise of graphene

Cytotoxicity of nanoparticles

Carbon Nanotubes in Biology and Medicine: In vitro and in vivo Detection, Imaging and Drug Delivery.

Nano-Graphene Oxide for Cellular Imaging and Drug Delivery.

Wafer-scale graphene integrated circuit.

Clonogenic assay of cells in vitro.

Detection of individual gas molecules adsorbed on graphene.

P304

283-293

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.BIOMATERIALS.2012.09.057

http://www.w3.org/2001/XMLSchema#string

P433

1

http://www.w3.org/2001/XMLSchema#string

P478

34

http://www.w3.org/2001/XMLSchema#string

P50

Balaji Sitharaman

P577

2012-10-13T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

232277344

http://www.w3.org/2001/XMLSchema#string

P698

23072942

http://www.w3.org/2001/XMLSchema#string

P921

P932

3489471

http://www.w3.org/2001/XMLSchema#string