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773735

Sigma-Aldrich

Carbon nanotube, single-walled

(6,5) chirality, ≥95% carbon basis (≥95% as carbon nanotubes), 0.78 nm average diameter

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Synonym(s):
CHASM, CNT, Signis® SG65i, SWCNT, SWNT, Single wall carbon nanotube
CAS Number:
NACRES:
NA.23

description

G/D Ratio: ≥20 (Raman 633 nm)
Median length: 1 μm

Assay

≥95% carbon basis (≥95% as carbon nanotubes)

form

powder (freeze-dried)

manufacturer/tradename

Signis® SG65i

surface area

≥700 m2/g

impurities

≤5 wt. % Moisture content

average diameter

0.78 nm

mp

3652-3697 °C (lit.)

density

1.7-1.9 g/cm3 at 25 °C (lit.)

bulk density

0.1 g/cm3

SMILES string

[C]

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This Item
704121724777750530
vibrant-m

773735

Carbon nanotube, single-walled

vibrant-m

704121

Carbon nanotube, single-walled

vibrant-m

724777

Carbon nanotube, single-walled

vibrant-m

750530

Carbon nanotube, single-walled

assay

≥95% carbon basis (≥95% as carbon nanotubes)

assay

≥90% carbon basis (≥77% as carbon nanotubes)

assay

≥90% carbon basis (≥80% as carbon nanotubes)

assay

2% (Semiconducting), 98% (Metallic)

form

powder (freeze-dried)

form

powder (freeze-dried)

form

powder (freeze-dried)

form

solid

description

G/D Ratio: ≥20 (Raman 633 nm)

description

G/D Ratio: ≥15 (Raman 633nm), Median length: 1 μm

description

G/D Ratio: ≥15 (Raman 633 nm), Median length: 1 μm

description

-

manufacturer/tradename

Signis® SG65i

manufacturer/tradename

Signis® SG76

manufacturer/tradename

Signis® CG200

manufacturer/tradename

NanoIntegris, Inc.

surface area

≥700 m2/g

surface area

≥700 m2/g

surface area

≥700 m2/g

surface area

-

General description

Produced using CHASM′s patented CoMoCAT synthesis technology, Signis® SG65i is a single-wall carbon nanotube (CNT) product uniquely enriched in semiconducting tubes, with (6,5) chirality being most abundant. Approximately 95% of the CNTs in SG65i are semiconducting, with approximately 41% of those tubes being (6,5) chirality.

Application

Suitable for use in printed semiconductors, photovoltaic devices, sensors, medical research, etc.

Preparation Note

CoMoCAT Catalytic Chemical Vapor Deposition (CVD) Method

Legal Information

CHASM is a trademark of Chasm Advanced Materials
CoMoCAT is a trademark of Chasm Advanced Materials
Signis is a registered trademark of Chasm Advanced Materials

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


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Gabriele Selvaggio et al.
Nature communications, 11(1), 1495-1495 (2020-03-22)
Imaging of complex (biological) samples in the near-infrared (NIR) is beneficial due to reduced light scattering, absorption, phototoxicity, and autofluorescence. However, there are few NIR fluorescent materials known and suitable for biomedical applications. Here we exfoliate the layered pigment CaCuSi4O10
Tsukasa Takeuchi et al.
Bioconjugate chemistry, 30(5), 1323-1330 (2019-03-09)
Single-walled carbon nanotubes (SWCNTs) show strong fluorescence in the 1000-1700 nm second near-infrared (NIR-II) wavelength range and are considered promising candidates for angiographic imaging probes. Oxygen-doped SWCNTs coated with phospholipid-polyethylene glycol (o-SWCNT-PEG) show exceptional potential, as they emit fluorescence at
Anton V Naumov et al.
Nano letters, 9(9), 3203-3208 (2009-07-31)
A new method was used to measure the fraction of semiconducting nanotubes in various as-grown or processed single-walled carbon nanotube (SWCNT) samples. SWCNT number densities were compared in images from near-IR photoluminescence (semiconducting species) and AFM (all species) to compute
Robert Nißler et al.
Nanoscale, 11(23), 11159-11166 (2019-06-01)
Single-walled carbon nanotubes (SWCNTs) have unique photophysical properties and serve as building blocks for biosensors, functional materials and devices. For many applications it is crucial to use chirality-pure SWCNTs, which requires sophisticated processes. Purification procedures such as wrapping by certain
Yuhao Li et al.
Science advances, 6(38) (2020-09-18)
Carbon nanotube (CNT) pores, which mimic the structure of the aquaporin channels, support extremely high water transport rates that make them strong candidates for building artificial water channels and high-performance membranes. Here, we measure water and ion permeation through 0.8-nm-diameter

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