about
Graphene as a signal amplifier for preparation of ultrasensitive electrochemical biosensorsChemically reduced graphene contains inherent metallic impurities present in parent natural and synthetic graphiteProgress and Challenges in Transfer of Large-Area Graphene Films.Graphene for energy solutions and its industrialization.Tunable biomolecular interaction and fluorescence quenching ability of graphene oxide: application to "turn-on" DNA sensing in biological media.Impedimetric thrombin aptasensor based on chemically modified graphenes.Chemistry at the Edge of Graphene.Cytotoxicity of halogenated graphenes.Magnetic control of electrochemical processes at electrode surface using iron-rich graphene materials with dual functionality.Work Function Engineering of Graphene.Metallic impurities availability in reduced graphene is greatly enhanced by its ultrasonication.Transition metal-depleted graphenes for electrochemical applications via reduction of CO₂ by lithium.Solid-phase electrochemical reduction of graphene oxide films in alkaline solution.Chemically-modified graphenes for oxidation of DNA bases: analytical parameters.Highly sensitive bacteria quantification using immunomagnetic separation and electrochemical detection of guanine-labeled secondary beads.Graphene oxide electrocatalyst on MnO₂ air cathode as an efficient electron pump for enhanced oxygen reduction in alkaline solution.Unusual inherent electrochemistry of graphene oxides prepared using permanganate oxidants.Transition metal (Mn, Fe, Co, Ni)-doped graphene hybrids for electrocatalysis.Rational design of carboxyl groups perpendicularly attached to a graphene sheet: a platform for enhanced biosensing applications.Selective removal of hydroxyl groups from graphene oxide.Halogenation of graphene with chlorine, bromine, or iodine by exfoliation in a halogen atmosphere.Graphene oxide electrochemistry: the electrochemistry of graphene oxide modified electrodes reveals coverage dependent beneficial electrocatalysis.Influence of parent graphite particle size on the electrochemistry of thermally reduced graphene oxide.Thermally reduced graphenes exhibiting a close relationship to amorphous carbon.Investigation on the ability of heteroatom-doped graphene for biorecognition.Chemically Reduced Graphene Oxide for the Assessment of Food Quality: How the Electrochemical Platform Should Be Tailored to the Application.Improving the Analytical Performance of Graphene Oxide towards the Assessment of Polyphenols.Electrochemically Exfoliated Graphene and Graphene Oxide for Energy Storage and Electrochemistry Applications.Chemically Modified Graphene: The Influence of Structural Properties on the Assessment of Antioxidant Capacity.The dopant type and amount governs the electrochemical performance of graphene platforms for the antioxidant activity quantification.A limited anodic and cathodic potential window of MoS2: limitations in electrochemical applications.Labeling graphene oxygen groups with europium.Electrochemical tuning of oxygen-containing groups on graphene oxides: towards control of the performance for the analysis of biomarkers.Concurrent phosphorus doping and reduction of graphene oxide.Detection of biomarkers with graphene nanoplatelets and nanoribbons.Could carbonaceous impurities in reduced graphenes be responsible for some of their extraordinary electrocatalytic activities?Precise tuning of surface composition and electron-transfer properties of graphene oxide films through electroreduction.An insight into the hybridization mechanism of hairpin DNA physically immobilized on chemically modified graphenes.Biorecognition on graphene: physical, covalent, and affinity immobilization methods exhibiting dramatic differences.Noble metal (Pd, Ru, Rh, Pt, Au, Ag) doped graphene hybrids for electrocatalysis.
P2860
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P2860
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Electrochemistry at chemically modified graphenes.
@en
Electrochemistry at chemically modified graphenes.
@nl
type
label
Electrochemistry at chemically modified graphenes.
@en
Electrochemistry at chemically modified graphenes.
@nl
prefLabel
Electrochemistry at chemically modified graphenes.
@en
Electrochemistry at chemically modified graphenes.
@nl
P2860
P50
P356
P1476
Electrochemistry at chemically modified graphenes.
@en
P2093
Alessandra Bonanni
Jeffrey S Cross
P2860
P304
10763-10770
P356
10.1002/CHEM.201101117
P407
P577
2011-08-11T00:00:00Z