What is the 2,4-Xylenol?

2,4-Xylenol is clear colorless to yellow liquid, while it's Molecular Formula is C8H10O. clear colorless to yellow liquid

What is the CAS number for 2,4-Xylenol?

The CAS number of 2,4-Xylenol is 105-67-9.

What is 2,4-Xylenol (105-67-9) used for?

2,4-Xylenol, also known as 2,4-dimethylphenol, is an organic compound belonging to the phenol family. It is a colorless to pale yellow crystalline solid with a characteristic phenolic odor. The chemical formula for 2,4-xylenol is C8H10O, and it has a molecular weight of 122.17 g/mol. 2,4-Xylenol is derived from the xylenol isomers, which are derivatives of phenol, and is characterized by the presence of two methyl groups at the 2nd and 4th carbon positions on the benzene ring. 2,4-Xylenol is used in various applications, including as a chemical intermediate in the synthesis of dyes, pharmaceuticals, and agrochemicals, as well as a precursor for the production of antioxidants and resins. It is also employed as a disinfectant and a preservative in some industrial processes. Due to its potential health and environmental risks, proper handling and disposal protocols are essential when working with 2,4-xylenol.InChI:InChI=1/C8H10O/c1-6-4-3-5-8(9)7(6)2/h3-5,9H,1-2H3

What is the 2,4-Xylenol?

2,4-Xylenol is clear colorless to yellow liquid, while it's Molecular Formula is C8H10O. clear colorless to yellow liquid

What is the CAS number for 2,4-Xylenol?

The CAS number of 2,4-Xylenol is 105-67-9.

What is 2,4-Xylenol (105-67-9) used for?

2,4-Xylenol, also known as 2,4-dimethylphenol, is an organic compound belonging to the phenol family. It is a colorless to pale yellow crystalline solid with a characteristic phenolic odor. The chemical formula for 2,4-xylenol is C8H10O, and it has a molecular weight of 122.17 g/mol. 2,4-Xylenol is derived from the xylenol isomers, which are derivatives of phenol, and is characterized by the presence of two methyl groups at the 2nd and 4th carbon positions on the benzene ring. 2,4-Xylenol is used in various applications, including as a chemical intermediate in the synthesis of dyes, pharmaceuticals, and agrochemicals, as well as a precursor for the production of antioxidants and resins. It is also employed as a disinfectant and a preservative in some industrial processes. Due to its potential health and environmental risks, proper handling and disposal protocols are essential when working with 2,4-xylenol.InChI:InChI=1/C8H10O/c1-6-4-3-5-8(9)7(6)2/h3-5,9H,1-2H3

Product classification

Related products

2,4-Dimethylphenol

Product Name: 2,4-Dimethylphenol
CAS: 105-67-9
Purity:
Appearance: clear colorless to yellow liquid

Email:sales@finerchem.com

Inquiry

Product Details

Reliable factory customized supply 2,4-Dimethylphenol 105-67-9

Molecular Formula:C8H10O
Molecular Weight:122.167
Appearance/Colour:clear colorless to yellow liquid
Vapor Pressure:0.093mmHg at 25°C
Melting Point:22-23 ºC
Refractive Index:n20/D 1.538(lit.)
Boiling Point:210.9 ºC at 760 mmHg
Flash Point:85.6 ºC
PSA：20.23000
Density:1.014 g/cm³
LogP:2.00900

2,4-Xylenol(Cas 105-67-9) Usage

Use Description

2,4-Xylenol, a specific chemical compound, serves distinct roles in various fields. In the realm of industrial chemistry, it plays a significant role as a precursor in the synthesis of antioxidants, resins, and specialty chemicals used in various applications, contributing to the enhancement of product stability and performance. In the field of disinfection and sanitation, 2,4-xylenol is utilized as an antimicrobial agent in cleaning products and disinfectants, aiding in the elimination of bacteria and pathogens from surfaces. Moreover, in the fragrance and flavor industries, this compound can serve as a raw material for the creation of scents and flavors that find application in a wide range of products. Its applications in industrial chemistry, disinfection, and fragrances underscore its importance in improving product properties, ensuring hygiene, and enhancing sensory experiences within these distinct domains.

InChI:InChI=1/C8H10O/c1-6-4-3-5-8(9)7(6)2/h3-5,9H,1-2H3

105-67-9 Relevant articles

Sodium perborate: A convenient reagent for benzylic hydroperoxide rearrangement

Kabalka,Reddy,Narayana

, p. 7667 - 7668 (1993)

Sodium perborate in boron trifluoride et...

Catalytic oxidation of aromatic hydrocarbons by a molecular iron-NHC complex

Lindhorst, Anja C.,Schütz, Jan,Netscher, Thomas,Bonrath, Werner,Kühn, Fritz E.

, p. 1902 - 1911 (2017)

An iron-NHC complex bearing a tetradenta...

Photochemical reactions of oxygen atoms with toluene, m-xylene, p-xylene, and mesitylene: An infrared matrix isolation investigation

Parker, James K.,Davis, Steven R.

, p. 4108 - 4114 (2000)

The photochemical reactions of oxygen at...

One-pot synthesis of phenols by hydroxylation of aromatics with hydroxylamine

Zhang, Dongsheng,Gao, Liya,Xue, Wei,Zhao, Xinqiang,Wang, Shufang,Wang, Yanji

, p. 369 - 371 (2012)

In this study, a new approach for one-po...

Application of two morphologies of Mn2O3for efficient catalyticortho-methylation of 4-chlorophenol

Gui, Wenying,Liu, Xiaofei,Wang, Zhenlu,Zhang, Chunlei,Zhang, Hongqiang,Zhang, Li,Zhu, Wanchun

, p. 20836 - 20849 (2021)

Vapor phaseortho-methylation of 4-chloro...

The role of ion-molecule pair intermediates in acid-catalyzed solvolysis. General base-catalyzed formation of 4-methylbenzyl carbocation and its trapping by nucleophiles

Thibblin

, p. 7427 - 7433 (1993)

The specific acid-catalyzed hydrolysis o...

-

Simons,McArthur

, p. 364 (1947)

Synthesis of substituted phenols via hydroxylation of arenes using hydrogen peroxide in the presence of hexaphenyloxodiphosphonium triflate

Khodaei, Mohammad Mehdi,Alizadeh, Abdolhamid,Hezarkhani, Hadis Afshar

, p. 878 - 882 (2018)

A mild and efficient protocol for the sy...

Evaluation of acute toxicity and genotoxicity of liquid products from pyrolysis of Eucalyptus grandis wood

Pimenta,Bayona,Garcia,Solanas

, p. 169 - 175 (2000)

Slow pyrolysis of Eucalyptus grandis woo...

Photoinduced Decomposition of Peracetic Acid in Xylenes. Orientation in Aromatic Substitution of Methyl and Hydroxyl Radicals

Ogata, Yoshiro,Tomizawa, Kohtaro

, p. 785 - 788 (1980)

The photolysis of peracetic acid (1) in ...

-

Lambooy

, p. 5327 (1950)

Highly Selective and Efficient Ring Hydroxylation of Alkylbenzenes with Hydrogen Peroxide and an Osmium(VI) Nitrido Catalyst

Kwong, Hoi-Ki,Lo, Po-Kam,Yiu, Shek-Man,Hirao, Hajime,Lau, Kai-Chung,Lau, Tai-Chu

, p. 12260 - 12263 (2017)

The OsVI nitrido complex, OsVI(N)(quin)2...

Phenylthioalkylation-Desulphurisation for the C-Alkylation of Phenols

Fleming, Ian,Iqbal, Javed

, p. 937 - 939 (1982)

Effect of Co incorporation and support selection on deoxygenation selectivity and stability of (Co)Mo catalysts in anisole HDO

Ranga, Chanakya,Alexiadis, Vaios I.,Lauwaert, Jeroen,L?deng, Rune,Thybaut, Joris W.

, p. 61 - 70 (2019)

A series of supported Co modified Mo cat...

Efficient Transformation of Anisole into Methylated Phenols over High-Silica HY Zeolites under Mild Conditions

Meng, Qinglei,Fan, Honglei,Liu, Huizhen,Zhou, Huacong,He, Zhenhong,Jiang, Zhiwei,Wu, Tianbin,Han, Buxing

, p. 2831 - 2835 (2015)

Transformation of anisole (methoxybenzen...

Synthesis of mono- and polycyclic tricarbonyliron cyclohexa-2,4-dienone complexes and phenols from tosylhydrazones of acyclic dienone complexes

Franck-Neumann, Michel,Geoffroy, Philippe,Gassmann, Dominique

, p. 2054 - 2058 (2002)

Cyclohexa-2,4-dienones stabilized by coo...

A new mild deprotecting method for O-benzylsulfonyl phenols and alcohols based on a DTBB-catalyzed lithiation

Alonso, Francisco,Moglie, Yanina,Vitale, Cristian,Radivoy, Gabriel,Yus, Miguel

, p. 1971 - 1976 (2005)

A variety of alcohols and phenols, prote...

Carbonyl Oxide Chemistry. The NIH Shift

Kumar, S.,Murray, R. W.

, p. 1040 - 1045 (1984)

Benzophenone oxide has been shown to oxi...

Acid-Catalyzed Dehydration of Substituted Dienediols

Wigal, Carl T.,McKinley, Jason D.,Coyle, Jennifer,Porter, Diane J.,Lehman, Daniel E.

, p. 8421 - 8423 (1995)

-

Gassmann,Amick

, p. 889 (1974)

ipso-Attack in the Hydroxylation of o- and p-Xylene using bis(trimethylsilyl) Peroxide and Aluminium Chloride

Apatu, Jonas O.,Chapman, David C.,Heaney, Harry

, p. 1079 - 1080 (1981)

Electrophilic hydroxylation of o- and p-...

Oxyfunctionalization of Hydrocarbons. 11. Hydroxylation of Benzene and Alkylbenzenes with Hydrogen Peroxide in Hydrogen Fluoride/Boron Trifluoride

Olah, George A.,Fung, Alexander P.,Keumi, Takashi

, p. 4305 - 4306 (1981)

Improved oxidation of aromatic and aliphatic hydrocarbons using rate enhancing variants of P450Bm3 in combination with decoy molecules

Munday, Samuel D.,Shoji, Osami,Watanabe, Yoshihito,Wong, Luet-Lok,Bell, Stephen G.

, p. 1036 - 1039 (2016)

Enzyme performance can be improved using...

-

Vesely,Schmerling

, p. 4028,4030 (1970)

Comparison of cresol transformation on USHY and HZSM-5

Imbert,Guisnet,Gnep

, p. 279 - 286 (2000)

In the commercial synthesis of cresols, ...

PHOTOCHEMICAL ELECTRON TRANSFER REACTIONS OF 4-TRICHLOROMETHYL-4-METHYL-2,5-CYCLOHEXADIEN-1-ONES

Schuster, David I.,Brisimitzakis, Angelo C.

, p. 4531 - 4534 (1982)

Ultraviolet irradiation of the title com...

-

Harris,Saeman,Bergstrom

, p. 2063,2065 (1949)

Ortho-alkylation of phenol with methanol using Pb-Cr promoted magnesium oxide catalysts

Ke, Jyh-Harng,Zena, Jyh-Myng,Wang, Fey-Long

, p. 1407 - 1410 (2004)

In this study, Pb-Cr promoted magnesium ...

Palladium-catalyzed hydroxylation of aryl and heteroaryl halides enabled by the use of a palladacycle precatalyst

Cheung, Chi Wai,Buchwald, Stephen L.

, p. 5351 - 5358 (2014)

A method for the hydroxylation of aryl a...

Catalytic Activation of Unstrained C(Aryl)-C(Alkyl) Bonds in 2,2′-Methylenediphenols

Dong, Guangbin,Ratchford, Benjamin L.,Xue, Yibin,Zhang, Rui,Zhu, Jun

supporting information, p. 3242 - 3249 (2022/02/23)

Catalytic activation of unstrained and n...

REARRANGEMENT OF DIMETHYLPHENYLACYLATES USING ZEOLITES

-

Page/Page column 9-10; 12, (2021/08/14)

The present invention relates to a Fries...

Ceria-promoted Co@NC catalyst for biofuel upgrade: synergy between ceria and cobalt species

Wang, Bowei,Gao, Ruixiao,Zhang, Dan,Zeng, Yuyao,Zhang, Fangying,Yan, Xilong,Li, Yang,Chen, Ligong

supporting information, p. 8541 - 8553 (2021/04/12)

Ceria-promoted Co@NC (NC, N doped carbon...

105-67-9 Process route

: sodium[tetrakis(2,4-dimethylphenyloxy)borate]

: 26567-10-2
2,2'-dihydroxy-3,3',5,5'-tetramethylbiphenyl

: 105-67-9
2,4-Xylenol

Conditions

Conditions	Yield
sodium[tetrakis(2,4-dimethylphenyloxy)borate]; In N,N-dimethyl-formamide; at 20 ℃; Electrolysis; With citric acid; In water; N,N-dimethyl-formamide; for 0.0833333h;	65% 2%
sodium[tetrakis(2,4-dimethylphenyloxy)borate]; In acetonitrile; at 40 ℃; Electrolysis; With citric acid; In water; acetonitrile; for 0.0833333h;	63 % Chromat. 28 % Chromat.

: sodium[tetrakis(2,4-dimethylphenyloxy)borate]

: Pummerer's ketone

: 26567-10-2
2,2'-dihydroxy-3,3',5,5'-tetramethylbiphenyl

: 105-67-9
2,4-Xylenol