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synergic Mn+-cross-linked GO paper

Based on

1 Articles
2017 Most recent source

Composition

1

highly oxidized graphene oxide nanosheets

electrochemically reduced graphene oxide single-layer laser-scribed graphene reduced graphene oxide nanosheets epoxy-containing graphene oxide chemically converted graphene coal-derived graphene oxide electrodeposited graphene epoxydated graphene oxide graphene oxide nanosheets oxygen patterned graphene reduced graphene oxide nanographene oxide oxidized graphene HOGO nanosheets graphene oxide GO nanosheets epoxydated GO graphene epoxy GO nano-GO GO-2d ERGO CDGO RGO rGO CCG EGR GOO NGO GO
Type Nano Material
Formula
Role raw materials
2

magnesium(II) ion

magnesium cation Mg(II) cation magnesium ion magnesium(2+) magnesium Mg2+ ion Mg ion Mg2+
Type Single Compound
Formula Mg2+
Role raw materials
3

copper(II) cation

copper(2+) ion copper(II) ion copper cation copper2+ ion copper ion copper(2+) copper(II) Cu2+ ion Cu ion
Type Single Compound
Formula Cu2+
Role raw materials
4

cobalt(2+) cation

cobalt(II) cation cobalt(2+) ion cobalt(II) ion cobalt cation Co(II) ion cobalt ion cobalt(2+) Co2+ ion Co ion Co(2+) Co2+
Type Single Compound
Formula Co2+
Role raw materials
5

nickel(II) cation

nickel(2+) ion nickel(II) ion nickel cation Ni(II) ion nickel ion nickel(2+) nickel(II) Ni2+ ion Ni ion Ni(2+) Ni2+
Type Single Compound
Formula Ni2+
Role raw materials
6

calcium(II) ion

calcium cation calcium ion calcium(2+) Ca2+ ion Ca2+
Type Single Compound
Formula Ca2+
Role raw materials
7

trivalent aluminium

aluminium(III) ion aluminum(III) ion aluminium cation aluminium(III) aluminium ion aluminum ion Al(III) ion Al3+ ion Al ion
Type Single Compound
Formula Al3+
Role raw materials
8

oxozirconium(2+)

Type Single Compound
Formula ZrO2+
Role raw materials
9

oxotitanium(2+)

TiO2+
Type Single Compound
Formula TiO2+
Role raw materials

Properties

General physical and chemical properties

Property Value Nanomaterial Variant Source
dielectric tangent loss

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Applications

Area Application Nanomaterial Variant Source
electronics

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Characterization

Method Nanomaterial Variant Source
atomic force microscopy

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Biological effects

Preparation

Method 1

Type: Physical formation
Source:
  1. SUzoijIFC09utZan3W
  2. hCEmLQxWml8J4SRFiWXAEOfxwTru
  3. hOdToLSodxZRFFtl7d
Product

synergic Mn+-cross-linked GO paper

RMS roughness: ~ 54 nm

Medium/Support: none

Method 2

Type: Physical formation
Source:
  1. JILoU
Product

synergic Mn+-cross-linked GO paper

RMS roughness: ~ 133.2 - ~ 671.8 nm

Medium/Support: none

References

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