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636967

Sigma-Aldrich

Titanium carbide

nanopowder, ≤200 nm particle size (SEM)

Synonyma:

Titanium(IV) carbide

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About This Item

Lineární vzorec:
TiC
Číslo CAS:
12070-08-5
Molekulová hmotnost:
59.88
EC Number:
235-120-4
MDL number:
MFCD00011268
UNSPSC Code:
12352302
PubChem Substance ID:
24882816
NACRES:
NA.23

form

nanopowder

particle size

≤200 nm (SEM)

bp

4820 °C (lit.)

mp

3140 °C (lit.)

density

4.930 g/mL at 25 °C (lit.)

bulk density

0.45 g/mL

SMILES string

[C-]#[Ti+]

InChI

1S/C.Ti/q-1;+1

InChI key

YXIVWSJCLXKLJL-UHFFFAOYSA-N

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Application

  • Conductive two-dimensional titanium carbide ′clay′ with high volumetric capacitance: This study demonstrates the high volumetric capacitance of titanium carbide (Ti3C2) films, which are produced by etching aluminum from titanium aluminum carbide (M Ghidiu et al., 2014).
  • Unique lead adsorption behavior of activated hydroxyl group in two-dimensional titanium carbide: The research highlights the lead adsorption capabilities of 2D titanium carbide due to activated hydroxyl groups (Q Peng et al., 2014).
  • Transparent, flexible, and conductive 2D titanium carbide (MXene) films with high volumetric capacitance: This article describes the synthesis and properties of transparent and flexible 2D titanium carbide films, which exhibit high volumetric capacitance (C Zhang et al., 2017).

Storage Class

11 - Combustible Solids

wgk_germany

WGK 1

ppe

Eyeshields, Gloves, type N95 (US)

Osvědčení o analýze (COA)

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Tantalum(IV) carbide ≤5 μm

Sigma-Aldrich

280801

Tantalum(IV) carbide

Titanium boride powder, <10 μm

Sigma-Aldrich

336289

Titanium boride

Silicon carbide nanopowder, <100 nm particle size

Sigma-Aldrich

594911

Silicon carbide

Zirconium carbide powder, max. particle size 45 micron, weight 100 g, purity 99%

GF57564344

Zirconium carbide

Hafnium(IV) carbide <1.25 μm particle size

Sigma-Aldrich

594636

Hafnium(IV) carbide

Titanium powder, <45 μm avg. part. size, 99.98% trace metals basis

Sigma-Aldrich

366994

Titanium

Yuhe Zhu et al.
Dental materials journal, 26(2), 245-253 (2007-07-12)
Carbide layer was formed on the surface of Ti by heating in hydrocarbon atmosphere (benzene C6H6) at 1000-1400 degrees C using a high frequency induction heating method. Physical and mechanical properties of carbide-coated Ti were investigated to examine its potential
Lingzhou Zhao et al.
Biomaterials, 31(32), 8341-8349 (2010-07-30)
Cell-repelling structures are often required in biosensors, bioelectronics, and drug delivery systems, but the search for satisfactory cell-repelling structures with good biocompatibility and long-term stability is challenging. In this work, two types of quasi-aligned nanowire arrays (QANWA) with different surface
T Henning et al.
Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 57(4), 815-824 (2001-05-10)
We review the evidence for carbides in space both from infrared spectroscopy and direct measurements on presolar grains extracted from primitive meteorites. The paper includes a discussion of the structural properties of silicon carbide and metal carbides and their formation
Minzhi Wang et al.
Bioelectrochemistry (Amsterdam, Netherlands), 86, 46-53 (2012-02-22)
We report on the direct electrochemistry of myoglobin (Mb) immobilized on a composite matrix based on chitosan (CHIT) and titanium carbide nanoparticles (TiC NPs) underlying on glassy carbon electrode (GCE). The cyclic voltammetry and electrochemical impedance spectroscopy were used to
K J MacKenzie et al.
Solid state nuclear magnetic resonance, 4(4), 193-201 (1995-05-01)
The first 47,49Ti, 13C, 14N and 15N solid-state nuclear magnetic resonance (NMR) spectra of titanium carbide, nitride and a series of cubic carbonitrides have been obtained under both static and magic-angle spinning (MAS) conditions. The 15N samples were isotopically enriched
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