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257303

Sigma-Aldrich

1,2,3,4-Butanetetracarboxylic acid

99%

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About This Item

Linear Formula:
[-CH(CO2H)CH2CO2H]2
CAS Number:
Molecular Weight:
234.16
Beilstein:
1729167
EC Number:
MDL number:
UNSPSC Code:
12162002
PubChem Substance ID:
NACRES:
NA.23

Quality Level

Assay

99%

form

powder

mp

195-197 °C (dec.) (lit.)

SMILES string

OC(=O)CC(C(CC(O)=O)C(O)=O)C(O)=O

InChI

1S/C8H10O8/c9-5(10)1-3(7(13)14)4(8(15)16)2-6(11)12/h3-4H,1-2H2,(H,9,10)(H,11,12)(H,13,14)(H,15,16)

InChI key

GGAUUQHSCNMCAU-UHFFFAOYSA-N

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General description

1,2,3,4-Butanetetracarboxylic acid (BTCA) is utilized as a cross-linking agent and as a building block for the synthesis of specialized polymers for the formulation of resins, polymers, coatings, and adhesives.

Application

1,2,3,4-Butanetetracarboxylic acid (BTCA) can be used as a cross-linking agent:
  • To functionalize cotton fabric. BTCA-treated fabric shows improved anti-pilling, wrinkle resistance, and fire-retardant properties.
  • To fabricate flexible, free-standing nanocellulose membranes. The cross-linking with BTCA improves water stability and ionic conductivity of membranes.

Pictograms

Exclamation mark

Signal Word

Warning

Hazard Statements

Hazard Classifications

Acute Tox. 4 Oral - Eye Irrit. 2

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Bolin Ji et al.
Carbohydrate polymers, 207, 288-296 (2019-01-03)
The sodium l-glutamate is reported as an efficient catalyst for the cross-linking between 1,2,3,4-butanetetracarboxylic acid (BTCA) and cellulose. Results presented ester absorbance of the treated fabrics strongly increased in the presence of the homemade l-glutamate salt, a mixture of l-glutamic
Asli Celebioglu et al.
Scientific reports, 7(1), 7369-7369 (2017-08-09)
Water pollution is a serious concern for public health and environment in today's world; hence, there exists a strong demand to develop cost-effective, sustainable and eco-friendly membranes. Here, we produce a highly efficient molecular filter membrane based on bio-renewable material;
Peipei Wang et al.
Carbohydrate polymers, 218, 103-111 (2019-06-22)
Environmentally friendly, sustainable, and high-performance thermal insulators are in high demand. Petroleum-based insulator foams usually have high thermal conductivity and pose health hazards. Here, we report ultralight composite foams that are highly strong, elastic, and super-insulating. The foams are composed
Solmaz Heydarifard et al.
Carbohydrate polymers, 181, 1086-1092 (2017-12-20)
Development of a foam-formed cellulose filter paper with high wet strength was carried out for application as a drinking water filter. The wet strength and antimicrobial activity of cellulose foam paper against several bacteria species (Bacillus subtilis MTCC 441 (Gram
Mattia Alberto Lucchini et al.
ACS applied materials & interfaces, 10(35), 29599-29607 (2018-08-08)
In this work, we report a versatile approach for the development of an in-flow purification water system under solar illumination. Cellulose nanofibrils (CNFs) were impregnated with TiO2 nanoparticles using water as a solvent to obtain hybrid CNF/TiO2 monoliths with 98%

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