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450812

Copper(II) oxide

Name: Copper(II) oxide
Brand: ALDRICH

powder, 99.99% trace metals basis

Synonyme(s) :

Red copper oxide, Cupric oxide

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A propos de cet article

Formule linéaire :

CuO

Numéro CAS:

1317-38-0

Poids moléculaire :

79.55

NACRES:

NA.23

PubChem Substance ID:

24868548

UNSPSC Code:

12352303

EC Number:

215-269-1

MDL number:

MFCD00010979

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Propriétés

Quality Segment

100

assay

99.99% trace metals basis

form

powder

reaction suitability

core: copper

application(s)

battery manufacturing

SMILES string

[Cu]=O

InChI

1S/Cu.O

InChI key

QPLDLSVMHZLSFG-UHFFFAOYSA-N

Description

General description

Copper(II)oxide or cupric oxide (CuO) is a chemically stable black solid. As a mineral, it is called tenorite and is a critical product of copper mining. Our CuO with a trace metals purity of 99.99% is a high purity material ideal for applications in electronics, ceramics, and catalysis. CuO is a medium bandgap semiconductor with a bandgap in the range of 1.2-2.6 eV depending on the preparation conditions and usually shows p-type conductivity due to the presence of copper vacancy defects. In ceramic sciences, CuO is a key componentof many types of high T_c superconducting materials like BaYCu₃O_9-δand Bi₂Sr₂CuO_6+δ; the CuO is usually milled or mixed with other metal oxides and sintered at high temperatures to obtain complex metal oxides. In the field of catalysis, CuO is also widely used as a precursor to synthesize electrocatalysts for organic synthesis and degradation of organic pollutants.

Application

Copper(II) Oxide Nanoparticles Embedded within a PEDOT Matrix for Hydrogen Peroxide Electrochemical Sensing.: This study explores the use of copper(II) oxide nanoparticles embedded in a PEDOT matrix for effective hydrogen peroxide electrochemical sensing, highlighting the material′s potential in energy storage applications (Lete et al., 2022).
Green Fabrication of Nonenzymatic Glucose Sensor Using Multi-Walled Carbon Nanotubes Decorated with Copper (II) Oxide Nanoparticles for Tear Fluid Analysis.: Researchers developed a nonenzymatic glucose sensor using copper(II) oxide nanoparticles on multi-walled carbon nanotubes, showcasing copper oxide′s versatility in high-capacity energy storage solutions and renewable energy applications (Asgari Kheirabadi et al., 2022).
Facile Synthesis of Copper(II) Oxide Nanospheres Covered on Functionalized Multiwalled Carbon Nanotubes Modified Electrode as Rapid Electrochemical Sensing Platform for Super-Sensitive Detection of Antibiotic.: This paper discusses the synthesis of copper(II) oxide nanospheres on multiwalled carbon nanotubes, emphasizing their application in rapid and sensitive electrochemical sensing, relevant to battery technology (Chen et al., 2019).
Composite Planar Electrode for Sensing Electrochemical Oxygen Demand.: This study focuses on the development of a composite planar electrode incorporating copper(II) oxide for sensing electrochemical oxygen demand, relevant to improving battery efficiency (Orozco et al., 2008).

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pictograms

GHS09

signalword

Warning

hcodes

H410

pcodes

P273 - P391 - P501

Hazard Classifications

Aquatic Acute 1 - Aquatic Chronic 1

Classe de stockage

13 - Non Combustible Solids

wgk

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

dust mask type N95 (US), Eyeshields, Faceshields, Gloves

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Certificats d'analyse (COA)

Lot/Batch Number

0000467356

0000451569

0000443657

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Archetypal sandwich-structured CuO for high performance non-enzymatic sensing of glucose.

Sumanta Kumar Meher et al.

Nanoscale, 5(5), 2089-2099 (2013-02-06)

In the quest to enhance the selectivity and sensitivity of novel structured metal oxides for electrochemical non-enzymatic sensing of glucose, we report here a green synthesis of unique sandwich-structured CuO on a large scale under microwave mediated homogeneous precipitation conditions.

Self-assembly of mesoporous CuO nanosheets-CNT 3D-network composites for lithium-ion batteries.

Hongwen Huang et al.

Nanoscale, 5(5), 1785-1788 (2013-01-31)

A facile, flexible and large-scale technique was proposed to prepare a CuO-CNT 3D-network composite with the aid of electrostatic interactions in aqueous solution. The composite greatly improves the electrochemical performance. At a rate of 0.1 C, the cycling discharge capacity

Stable Cu₂O nanocrystals grown on functionalized graphene sheets and room temperature H₂S gas sensing with ultrahigh sensitivity.

Lisha Zhou et al.

Nanoscale, 5(4), 1564-1569 (2013-01-18)

Stable Cu(2)O nanocrystals of around 3 nm were uniformly and densely grown on functionalized graphene sheets (FGS), which act as molecular templates instead of surfactants for controlled nucleation; the distribution density of nanocrystals can be easily controlled by FGS with

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