Buy Acetic anhydride Cas 108-24-7

Buy Acetic anhydride Cas 108-24-7

Acetic Anhydride

Cat. No.:B6355015
CAS No.:108-24-7
M. Wt:102.09 g/mol
InChI Key:WFDIJRYMOXRFFG-UHFFFAOYSA-N
Attention:For research use only. Not for human or veterinary use.
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Buy Acetic anhydride Cas 108-24-7

Buy Acetic anhydride Cas 108-24-7

Acetic anhydride, or ethanoic anhydride, is the chemical compound with the formula (CH3CO)2O. Commonly abbreviated Ac2O, it is one the simplest anhydrides of a carboxylic acid and is widely used in the production of cellulose acetate and heroin, as well as a reagent in organic synthesis. It is a colorless liquid that smells strongly of acetic acid, which is formed by its reaction with moisture in the air. Buy Acetic anhydride Cas 108-24-7

 

Acetic Anhydride is a useful research compound. Its molecular formula is C4H6O3 and its molecular weight is 102.09 g/mol. The purity is usually 95%.
The exact mass of the compound this compound, ACS, 97% is 102.031694049 g/mol and the complexity rating of the compound is 83.1. The solubility of this chemical has been described as soluble in cold (greater than or equal to 10mg/ml); decomposes in hot (ntp, 1992)1.18 min water, 120 g/l at 20 °cslowly soluble in water, forming acetic acidwith alcohol forms ethyl acetate; soluble in chloroform, ethersoluble in ethanol, benzene; miscible with ethyl ether; slightly soluble in carbon tetrachloridemiscible with ethanol, ether, acetic acid, and ethyl acetate120 mg/ml at 20 °csolubility in water: reaction12%. Its Medical Subject Headings (MeSH) category is 1. It belongs to the ontological category of 2 in the ChEBI Ontology tree. The storage condition is unknown. Please store according to label instructions upon receipt of goods.Use and application categories indicated by third-party sources: Hazard Classes and Categories -> Corrosives, Flammable – 2nd degree, Reactive – 1st degree. However, this does not mean our product can be used or applied in the same or a similar way.
BenchChem offers high-quality this compound suitable for many research applications. Different packaging options are available to accommodate customers’ requirements

Structure and properties

Acetic anhydride in a glass bottle

Acetic anhydride, like most organic acid anhydrides, is a flexible molecule with a nonplanar structure. The C=O and C-O distances are 1.19 and 1.39 Å.[4] The pi system linkage through the central oxygen offers very weak resonance stabilization compared to the dipole-dipole repulsion between the two carbonyl oxygens. The energy barriers to bond rotation between each of the optimal aplanar conformations are quite low.[5]

Production

Acetic anhydride was first synthesized in 1852 by the French chemist Charles Frédéric Gerhardt (1816-1856) by heating potassium acetate with benzoyl chloride.[6]

Acetic anhydride is produced by carbonylation of methyl acetate:[7]

CH3CO2CH3 + CO → (CH3CO)2O

The Tennessee Eastman acetic anhydride process involves the conversion of methyl acetate to methyl iodide. Carbonylation of the methyl iodide produces acetyl iodide, which reacts with acetate source to give the desired anhydride. Rhodium chloride in the presence of lithium iodide is employed as the catalyst. Because acetic anhydride is not stable in water, the conversion is conducted under anhydrous conditions. Buy Acetic anhydride Cas 108-24-7

To a decreasing extent, acetic anhydride is also prepared by the reaction of ketene (ethenone) with acetic acid at 45–55 °C and low pressure (0.05–0.2 bar).[8]

H2C=C=O + CH3COOH → (CH3CO)2O
H = −63 kJ/mol)

The route from acetic acid to acetic anhydride via ketene was developed by Wacker Chemie in 1922,[9] when the demand for acetic anhydride increased due to the production of cellulose acetate.

Due to its low cost, acetic anhydride is usually purchased, not prepared, for use in research laboratories.

Reactions

Acetic anhydride is a versatile reagent for acetylations, the introduction of acetyl groups to organic substrates.[10] In these conversions, acetic anhydride is viewed as a source of CH3CO+.

Acetylation of alcohols, amines, aromatics

Alcohols and amines are readily acetylated.[11] For example, the reaction of acetic anhydride with ethanol yields ethyl acetate:

(CH3CO)2O + CH3CH2OH → CH3CO2CH2CH3 + CH3COOH

Often a base such as pyridine is added to function as catalyst. In specialized applications, Lewis acidic scandium salts have also proven effective catalysts.[12]

Aromatic rings are acetylated by acetic anhydride. Usually acid catalysts are used to accelerate the reaction. Illustrative are the conversions of benzene to acetophenone[13] and ferrocene to acetylferrocene:[14]

(C5H5)2Fe + (CH3CO)2O → (C5H5)Fe(C5H4COCH3) + CH3CO2H

Preparation of other acid anhydrides

Dicarboxylic acids are converted to the anhydrides upon treatment with acetic anhydride.[15] It is also used for the preparation of mixed anhydrides such as that with nitric acid, acetyl nitrate.

Precursor to geminal diacetates

Aldehydes react with acetic anhydride in the presence of an acidic catalyst to give geminal diacetates.[16] A former industrial route to vinyl acetate involved the intermediate ethylidene diacetate, the geminal diacetate obtained from acetaldehyde and acetic anhydride:[17]

CH3CHO + (CH3CO)2O → (CH3CO2)2CHCH3

Hydrolysis

Acetic anhydride dissolves in water to approximately 2.6% by weight.[18] Aqueous solutions have limited stability because, like most acid anhydrides, acetic anhydride hydrolyses to give carboxylic acids. In this case, acetic acid is formed, this reaction product being fully water miscible:[19]

(CH3CO)2O + H2O → 2 CH3COOH

Enolate formation

Acetic anhydride forms the enolate in the presence of acetate as base. The enolate can be trapped by condensation with benzaldehyde. In the 19th century, this chemistry, the Perkin reaction, was used for the production of cinnamic acid:[20]

(CH3CO)2O + C6H5CHO → C6H5CH=CHCO2H + CH3CO2H

Lewis base properties

The carbonyl groups in acetic anhydride are weakly basic. A number of adducts are known, such as the derivative of titanium tetrachloride, TiCl4((CH3CO)2O).[21]

Applications

As indicated by its organic chemistry, acetic anhydride is mainly used for acetylations leading to commercially significant materials. Its largest application is for the conversion of cellulose to cellulose acetate, which is a component of photographic film and other coated materials, and is used in the manufacture of cigarette filters. Similarly it is used in the production of aspirin (acetylsalicylic acid), which is prepared by the acetylation of salicylic acid.[22] It is also used as an active modification agent via autoclave impregnation and subsequent acetylation to make a durable and long-lasting timber.[23]

Acetic anhydride is commonly used for the production of modified starches (E1414, E1420, E1422).

Because of its use for the synthesis of heroin by the diacetylation of morphine, acetic anhydride is listed as a U.S. DEA List II precursor and is restricted in many other countries.[24][25]

Safety

Acetic anhydride is an irritant and combustible liquid; it is highly corrosive to skin and any direct contact will result in burns. Because of its reactivity toward water and alcohol, foam or carbon dioxide are preferred for fire suppression.[26] The vapour of acetic anhydride is harmful. Buy Acetic anhydride Cas 108-24-7

 

IUPAC Name

 acetyl acetate

InChI

 InChI=1S/C4H6O3/c1-3(5)7-4(2)6/h1-2H3

InChI Key

 WFDIJRYMOXRFFG-UHFFFAOYSA-N

Canonical SMILES

 CC(=O)OC(=O)C

Molecular Formula

 C4H6O3, (CH3CO)2O

DSSTOX Substance ID

 DTXSID0024395

Molecular Weight

 102.09 g/mol

Physical Description

 Acetic anhydride appears as a clear colorless liquid with a strong odor of vinegar. Flash point 129 °F. Corrosive to metals and tissue. Density 9.0 lb /gal. Used to make fibers, plastics, pharmaceuticals, dyes, and explosives., Liquid, Colorless liquid with a strong, pungent, vinegar-like odor;, COLOURLESS LIQUID WITH PUNGENT ODOUR., Colorless liquid with a strong, pungent, vinegar-like odor.

Boiling Point

 283.19 °F at 760 mmHg (NTP, 1992), 139.5 °C, 137.00 to 140.00 °C. @ 760.00 mm Hg, 139 °C, 282 °F

Flash Point

 121 °F (NTP, 1992), 120 °F (49 °C) Closed cup, 49 °C c.c., 120 °F

Solubility

 Soluble in cold (greater than or equal to 10mg/ml); Decomposes in hot (NTP, 1992), In water, 120 g/L at 20 °C, Slowly soluble in water, forming acetic acid, With alcohol forms ethyl acetate; soluble in chloroform, ether, Soluble in ethanol, benzene; miscible with ethyl ether; slightly soluble in carbon tetrachloride, Miscible with ethanol, ether, acetic acid, and ethyl acetate, 120 mg/mL at 20 °C, Solubility in water: reaction, 12%

Density

 1.08 (USCG, 1999) – Denser than water; will sink, 1.082 g/cu cm at 20 °C, Relative density (water = 1): 1.08, 1.08

Vapor Density

 3.52 (NTP, 1992) – Heavier than air; will sink (Relative to Air), 3.5 (Air = 1), Relative vapor density (air = 1): 3.5, 3.52

Vapor Pressure

 10 mmHg at 96.8 °F (NTP, 1992), 5.1 [mmHg], VP: 1 Pa at -44 °C (ext); 10 Pa at -25 °C (ext): 100 Pa at -1 °C (ext); 1 kPa at 31 °C; 10 kPa at 75.1 °C; 100 kPa at 203 °C (ext), 0.680 kPa (5.1 mm Hg) at 25 °C, Vapor pressure, kPa at 20 °C: 0.5, 4 mmHg

Impurities

 A technical quality anhydride, assay ~97% maximum, often contains color bodies, heavy metals, phosphorus, and sulfur compounds. Anhydride manufactured by acetic acid pyrolysis sometimes contains ketene polymers, eg, acetylacetone, diketene, dehydroacetic acid, and particulate carbon, or soot, is occasionally encountered. Polymers of allene, or its equilibrium mixture, methylacetylene-allene, are reactive and refractory impurities, which if exposed to air, slowly autoxidize to dangerous peroxidic compounds., Less than 1 ppm of Al, Cl, PO4, SO4, Fe

Color/Form

 Colorless liquid, Very refractive liquid

CAS No.

 108-24-7

Melting Point

 -99.6 °F (NTP, 1992), -73.4 °C, -73 °C, -99 °F

Foundational & Exploratory

acetic anhydride chemical properties and synthesis

 

 

Acetic Anhydride: A Comprehensive Technical Guide to its Mechanism of Action in Organic Synthesis

 

 

Acetic Anhydride: A Technical Guide to its Reactivity with Water and Alcohols

 

 

An In-depth Technical Guide to the Synthesis of Acetic Anhydride from Acetic Acid

 

 

Core Physical Properties of Acetic Anhydride: A Technical Guide Buy Acetic anhydride Cas 108-24-7

 

 

The Dawn of Anhydrides: A Technical Chronicle of Acetic Anhydride’s Discovery and Early Synthesis Buy Acetic anhydride Cas 108-24-7

 

 

literature review of acetic anhydride in acetylation Buy Acetic anhydride Cas 108-24-7

 

 

acetic anhydride structural formula and molecular weight

 

 

The Thermodynamics of Acetic Anhydride Hydrolysis: A Technical Guide Buy Acetic anhydride Cas 108-24-7

 

 

Methodological & Application

Application Notes and Protocols for the Acetylation of Primary Amines with Acetic Anhydride Buy Acetic anhydride Cas 108-24-7

 

 

Application Notes and Protocols for Cellulose Acetylation using Acetic Anhydride  Buy Acetic anhydride Cas 108-24-7

 

 

Acetic Anhydride in the Pharmaceutical Synthesis of Aspirin: Application Notes and Protocols

 

 

Application Note: Synthesis of Ethyl Acetate from Acetic Anhydride and Ethanol

 

 

N-Terminus Acetylation of Peptides Using Acetic Anhydride: Application Notes and Protocols

 

 

Application Notes and Protocols: Acetic Anhydride in Polysaccharide Modification

 

 

Application Notes and Protocols for Solvent-Free Acetylation Reactions with Acetic Anhydride

 

 

Application Notes and Protocols for Acetic Anhydride Acetylation Reactions: A Comparative Study of Pyridine and 4-Dimethylaminopyridine (DMAP) Catalysts

 

 

Acetic Anhydride in Polymer Chemistry: Detailed Application Notes and Protocols

 

 

Application Notes and Protocols for the Large-Scale Production of Cellulose Acetate

Acetyl anhydride, also known as acetic anhydride, is a versatile reagent widely used in organic synthesis for acetylation reactions, as demonstrated in multiple studies. It serves as a key component in the synthesis of various compounds, including 7-amino-3-hydroxyindan-1-one (via hydrolysis and decarboxylation), protected racemic cyanohydrins (in a Lewis acid-free three-component reaction), and C-linked glycosides (through one-pot glycosylation). Additionally, it plays a role in optimizing reductive debenzylation reactions for high-energy materials like HNIW and in the chemical conversion of folic acid to pteroic acid. Its utility extends to nucleophilic ring-opening reactions in heterocyclic chemistry, highlighting its importance as a fundamental acetylating agent in diverse synthetic pathways.

108-24-7

  • 108-24-7 Structure

  • Basic information

    1. Product Name: Acetyl anhydride
    2. Synonyms: Acetanhydride;Acetic acid, anhydride;Acetic oxide;Acetyl acetate;Acetyl anhydride;Acetyl ether;Acetyl oxide;Anhydrid kyseliny octove;Anhydride acetique;Anidride acetica;Octowy bezwodnik;UNII-2E48G1QI9Q;
    3. CAS NO:108-24-7
    4. Molecular Formula: C4H6O3
    5. Molecular Weight: 102.09
    6. EINECS: 203-564-8
    7. Product Categories: N/A
    8. Mol File: 108-24-7.mol

  • Chemical Properties

    1. Melting Point: -73.1℃
    2. Boiling Point: 141.137 °C at 760 mmHg
    3. Flash Point: 54.444 °C
    4. Appearance: Colorless liquid
    5. Density: 1.073 g/cm3
    6. Vapor Density: 3.52
    7. Vapor Pressure: 5.94mmHg at 25°C
    8. Refractive Index: 1.386
    9. Storage Temp.: N/A
    10. Solubility: N/A
    11. Water Solubility: REACTS
    12. CAS DataBase Reference: Acetyl anhydride(CAS DataBase Reference)
    13. NIST Chemistry Reference: Acetyl anhydride(108-24-7)
    14. EPA Substance Registry System: Acetyl anhydride(108-24-7)

  • Safety Data

    1. Hazard Codes:  C:Corrosive;
    2. Statements: R10:; R20/21:; R34:;
    3. Safety Statements: S26:; S36/37/39:; S45:;
    4. RIDADR: 1715
    5. WGK Germany:
    6. RTECS:
    7. HazardClass: 8
    8. PackingGroup: II
    9. Hazardous Substances Data: 108-24-7(Hazardous Substances Data)

108-24-7 Suppliers

This product is a nationally controlled contraband or patented product, and the Lookchem platform doesn’t provide relevant sales information.

108-24-7 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 108-24-7 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 1,0 and 8 respectively; the second part has 2 digits, 2 and 4 respectively.
Calculate Digit Verification of CAS Registry Number 108-24:
(5*1)+(4*0)+(3*8)+(2*2)+(1*4)=37
37 % 10 = 7
So 108-24-7 is a valid CAS Registry Number.

InChI:InChI=1/C4H6O3/c1-3(5)7-4(2)6/h1-2H3

108-24-7SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) – Sixth revised edition

Version: 1.0

Creation Date: Aug 12, 2017

Revision Date: Aug 12, 2017

1.Identification

1.1 GHS Product identifier

Product name Acetic anhydride

1.2 Other means of identification

Product number
Other names Acetic acid, anhydride

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only. Intermediates
Uses advised against no data available

1.4 Supplier’s details

 

108-24-7Synthetic route

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Acetic Anhydride Cas 108 24 7 Market Key Trends Driving Global Expansion | United Kingdom | Japan | France | Germany

 

The Acetic Anhydride Cas 108 24 7 Market was valued at 8.7 billion in 2025 and is projected to grow at a CAGR of 7.44% from 2026 to 2033, reaching an estimated 15.45 billion by 2033. This expansion is fueled by rising demand across industrial, commercial, and technology-driven applications, alongside continuous innovation, broadening use cases, and increasing investments across major end-use sectors.

Comprehensive Market Analysis of Acetic Anhydride CAS 108-24-7

The Acetic Anhydride CAS 108-24-7 market is experiencing significant shifts driven by evolving industrial demands, technological advancements, and regional economic developments. As a vital chemical intermediate used predominantly in the production of cellulose acetate, acetic acid, and other derivatives, its market dynamics are closely linked to the pharmaceutical, textile, and adhesive industries. The global landscape is characterized by increasing regulatory scrutiny, innovation in manufacturing processes, and expanding applications across emerging markets. Stakeholders are focusing on sustainable practices, cost optimization, and strategic collaborations to capitalize on growth opportunities. This analysis provides a detailed overview of market size, demand drivers, technological trends, and regional prospects for key countries including Germany, the United Kingdom, Japan, and France.

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Germany Acetic Anhydride Cas 108-24-7 Market Size & Growth Momentum

Germany’s acetic anhydride market is marked by steady growth driven by its robust chemical manufacturing sector and stringent regulatory standards emphasizing product quality and environmental compliance. The country’s focus on innovation and sustainable practices enhances its competitive edge, supporting consistent demand from pharmaceutical and textile industries. Market expansion is also fueled by Germany’s strategic investments in chemical R&D and integration with European supply chains, positioning it as a key regional hub for acetic anhydride production and distribution. Overall, the market exhibits resilient growth with ongoing opportunities for technological upgrades and regional collaborations.

Germany Acetic Anhydride Cas 108-24-7 Market Primary Demand Drivers

 

  • Pharmaceutical Industry Expansion: Growing demand for acetic anhydride in pharmaceutical synthesis drives steady consumption.
  • Textile Industry Growth: Increased use in producing cellulose derivatives supports market stability.
  • Regulatory Compliance: Stringent EU standards promote high-quality, environmentally friendly acetic anhydride products.
  • Innovation in Production Processes: Adoption of sustainable manufacturing techniques enhances efficiency and reduces costs.

 

These drivers collectively bolster the market’s resilience and foster continuous growth, aligning with Germany’s emphasis on sustainable industrial practices.

Germany Acetic Anhydride Cas 108-24-7 Market Technology & Innovation

 

  • Advanced Catalytic Processes: Implementation of novel catalysts improves yield and reduces waste during production.
  • Green Chemistry Initiatives: Adoption of environmentally friendly synthesis methods minimizes ecological impact.
  • Process Automation: Integration of digital technologies enhances operational efficiency and quality control.

 

Technological innovation is pivotal in maintaining Germany’s competitive advantage, ensuring compliance with environmental standards and optimizing production costs.

Germany Acetic Anhydride Cas 108-24-7 Market Regional & Country Level Opportunities

 

  • Expansion into Eastern Europe: Leveraging proximity and existing infrastructure to serve emerging markets.
  • Collaborations with European Chemical Clusters: Facilitating innovation and shared R&D initiatives.
  • Development of Sustainable Supply Chains: Enhancing eco-friendly logistics and sourcing practices.

 

These opportunities present strategic avenues for growth, enabling Germany to strengthen its position in the global acetic anhydride market.

United Kingdom Acetic Anhydride Cas 108-24-7 Market Size & Growth Momentum

The UK’s acetic anhydride market is characterized by moderate growth, driven by its advanced pharmaceutical sector and focus on high-quality chemical production. The industry benefits from strong research capabilities and a regulatory environment that promotes innovation and sustainability. Market demand is supported by the country’s emphasis on specialty chemicals and export-oriented manufacturing. As the UK continues to invest in chemical R&D and sustainable practices, the acetic anhydride market is poised for steady expansion, with emerging opportunities in specialty applications and regional trade collaborations. Overall, the market remains resilient amid global economic fluctuations.

United Kingdom Acetic Anhydride Cas 108-24-7 Market Primary Demand Drivers

 

  • Pharmaceutical Sector Growth: Rising demand for acetic anhydride in drug manufacturing sustains market demand.
  • High-Quality Standards: Stringent quality requirements foster innovation in production processes.
  • Export Opportunities: Strong trade relationships expand market reach beyond domestic boundaries.
  • Sustainability Initiatives: Adoption of eco-friendly manufacturing practices aligns with regulatory trends.

 

These drivers underpin the UK market’s stability and growth prospects in the coming years.

United Kingdom Acetic Anhydride Cas 108-24-7 Market Technology & Innovation

 

  • Green Synthesis Methods: Implementation of environmentally sustainable production techniques.
  • Process Optimization Software: Use of digital tools to enhance process efficiency and reduce waste.
  • Development of High-Purity Grades: Focus on producing specialty grades to meet diverse application needs.

 

Technological advancements are central to maintaining product competitiveness and regulatory compliance within the UK market.

United Kingdom Acetic Anhydride Cas 108-24-7 Market Regional & Country Level Opportunities

 

  • Expanding into Asian Markets: Leveraging trade agreements for broader market access.
  • Innovation Clusters and R&D Collaborations: Partnering with universities and research institutes for product development.
  • Supply Chain Sustainability: Investing in eco-friendly logistics to meet global sustainability standards.

 

These opportunities enable the UK to capitalize on emerging trends and reinforce its market position globally.

Japan Acetic Anhydride Cas 108-24-7 Market Size & Growth Momentum

Japan’s acetic anhydride market benefits from its advanced chemical manufacturing infrastructure and strong emphasis on technological innovation. The demand is primarily driven by the pharmaceutical and electronics sectors, with a focus on high-purity and specialty grades. The country’s proactive regulatory environment and commitment to sustainable practices support steady market growth. Additionally, Japan’s strategic investments in R&D and adoption of cutting-edge manufacturing technologies position it as a key player in the regional and global markets. Overall, the market exhibits resilience and growth potential, aligned with Japan’s reputation for quality and innovation.

Japan Acetic Anhydride Cas 108-24-7 Market Primary Demand Drivers

 

  • Pharmaceutical Industry Demand: Use in drug synthesis sustains consistent market needs.
  • High-Purity Grade Requirements: Growing need for specialized grades for electronics and medical applications.
  • Technological Leadership: Japan’s focus on innovative production methods enhances product quality and efficiency.
  • Environmental Regulations: Strict standards promote eco-friendly manufacturing practices.

 

These factors collectively support the stability and growth of Japan’s acetic anhydride market.

Japan Acetic Anhydride Cas 108-24-7 Market Technology & Innovation

 

  • Membrane and Catalytic Technologies: Adoption of advanced catalysts improves process efficiency.
  • Sustainable Manufacturing Processes: Focus on reducing emissions and waste aligns with environmental policies.
  • Automation and Digitalization: Integration of Industry 4.0 practices enhances production control and quality management.

 

Technological innovation remains a cornerstone of Japan’s competitive strategy in the acetic anhydride sector.

Japan Acetic Anhydride Cas 108-24-7 Market Regional & Country Level Opportunities

 

  • Expansion into Southeast Asia: Capitalizing on regional growth and manufacturing hubs.
  • Collaborations with Technology Providers: Partnering for process innovation and product development.
  • Sustainable Supply Chain Initiatives: Enhancing eco-efficiency in sourcing and distribution.

 

These opportunities offer pathways for Japan to expand its market footprint and innovate further.

France Acetic Anhydride Cas 108-24-7 Market Size & Growth Momentum

France’s acetic anhydride market is driven by its strong pharmaceutical and chemical sectors, supported by a well-established regulatory framework and focus on sustainable development. The country’s emphasis on R&D and innovation fosters the development of high-quality, specialty-grade acetic anhydride. Market growth is sustained by regional collaborations, export opportunities, and investments in green manufacturing technologies. France’s strategic position within Europe and its focus on environmental compliance make it a significant player in the regional landscape. The market is poised for continued growth, with opportunities centered around technological innovation and sustainable practices.

France Acetic Anhydride Cas 108-24-7 Market Primary Demand Drivers

 

  • Pharmaceutical Industry: Growing demand for acetic anhydride in drug synthesis and formulation.
  • Regulatory Environment: EU standards promote high-quality, environmentally friendly products.
  • Innovation in Chemical Processes: Focus on developing sustainable and efficient manufacturing methods.
  • Export-Oriented Growth: Strong trade networks expand market reach beyond France.

 

These drivers underpin France’s stable and expanding acetic anhydride market landscape.

France Acetic Anhydride Cas 108-24-7 Market Technology & Innovation

 

  • Eco-Friendly Synthesis Techniques: Adoption of green chemistry principles reduces environmental impact.
  • Process Digitalization: Use of advanced control systems for improved efficiency and safety.
  • High-Performance Catalysts: Development of catalysts that increase yield and reduce waste.

 

Technological progress is essential for France’s commitment to sustainable and high-quality chemical production.

France Acetic Anhydride Cas 108-24-7 Market Regional & Country Level Opportunities

 

  • European Market Integration: Leveraging trade agreements for broader access across Europe.
  • Green Chemistry Initiatives: Leading innovations in sustainable chemical manufacturing.
  • Collaborative R&D Projects: Partnering with European research institutions to develop new applications.

 

These opportunities position France as a key innovator and exporter within the regional acetic anhydride market.

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Acetic Anhydride Cas 108 24 7 Market by Application

 

  • Chemical Intermediates
  • Pharmaceuticals
  • Plastics
  • Agriculture
  • Textiles

 

Acetic Anhydride Cas 108 24 7 Market by End-Use Industry

 

  • Automotive
  • Construction
  • Food & Beverage
  • Consumer Goods
  • Electronics

 

Acetic Anhydride Cas 108 24 7 Market by Form

 

  • Liquid
  • Solid
  • Gas
  • Aqueous Solutions
  • Anhydrous Form

 

Global Geographic Outlook of the Acetic Anhydride Cas 108 24 7 Market: Regional Dynamics and Strategic Opportunities

The geographic landscape of the Acetic Anhydride Cas 108 24 7 Market reveals distinct growth trajectories across major regions, shaped by variations in industrial maturity, technology adoption, and investment intensity. North America continues to dominate the market, supported by a robust technological ecosystem, early adoption of advanced solutions, and sustained investments in innovation and automation. Europe follows closely, driven by stringent regulatory standards, strong sustainability initiatives, and ongoing modernization across industrial and commercial sectors. The Asia-Pacific region is projected to register the fastest growth, propelled by rapid industrialization, expanding manufacturing capacity, urban development, and increasing uptake of cost-effective technologies across China, India, and Southeast Asian economies. Latin America offers emerging growth potential through infrastructure expansion and rising industrial activity, while the Middle East & Africa benefits from growing investments in energy, construction, and smart infrastructure projects. Collectively, regional diversification, supportive policy frameworks, and expanding end-use applications are generating substantial growth opportunities for the global Acetic Anhydride Cas 108 24 7 Market.

Key Players in the Acetic Anhydride Cas 108 24 7 Market

 

  1. BASF SE
  2. Celanese Corporation
  3. Eastman Chemical Company
  4. Merck KGaA
  5. Huntsman Corporation
  6. Daicel Corporation
  7. Mitsubishi Chemical Corporation
  8. Nippon Shokubai Co. Ltd.
  9. Wacker Chemie AG
  10. Zhejiang Jianye Chemical Co. Ltd.
  11. SABIC

 

 

Acetic Anhydride Cas 108 24 7 Market FAQs

What is the Acetic Anhydride Cas 108 24 7 Market?

The Acetic Anhydride Cas 108 24 7 Market refers to the global industry involved in the development, production, and deployment of Acetic Anhydride Cas 108 24 7 solutions across various end-use sectors.

What factors are driving growth in the Acetic Anhydride Cas 108 24 7 Market?

Key drivers include technological advancements, rising industrial adoption, digital transformation, and increasing demand for efficient and scalable solutions.

What is the forecast period for the Acetic Anhydride Cas 108 24 7 Market?

The market outlook typically covers the forecast period from 2026 to 2033.

Which industries use Acetic Anhydride Cas 108 24 7 solutions the most?

Major end users include industrial, commercial, and technology-driven sectors.

What role does technology play in the Acetic Anhydride Cas 108 24 7 Market?

Technology improves efficiency, performance, automation, and scalability, expanding application areas.

Which region dominates the Acetic Anhydride Cas 108 24 7 Market?

Developed regions such as North America and Europe currently hold significant market shares.

Which region is expected to grow the fastest?

Asia-Pacific is projected to experience the fastest growth due to rapid industrialization and urbanization.

How does sustainability impact the Acetic Anhydride Cas 108 24 7 Market?

Sustainability drives demand for energy-efficient, environmentally compliant, and optimized solutions.

What are the key trends shaping the market?

Key trends include automation, digital integration, smart systems, and innovation-led product development.

What challenges does the Acetic Anhydride Cas 108 24 7 Market face?

Challenges include supply chain disruptions, cost volatility, and regulatory compliance pressures.

How are companies responding to market challenges?

Companies are investing in R&D, optimizing operations, and forming strategic partnerships.

What opportunities exist in emerging markets?

Infrastructure development, manufacturing expansion, and technology adoption offer strong opportunities.

How important are mergers and acquisitions in this market?

M&A activities help companies expand capabilities, market reach, and competitive positioning.

What impact do regulations have on the Acetic Anhydride Cas 108 24 7 Market?

Regulations influence product standards, sustainability compliance, and market entry strategies.

How does digital transformation affect demand?

Digital transformation increases efficiency, data-driven decision-making, and adoption of advanced solutions.

What is the role of innovation in market growth?

Innovation supports differentiation, improved performance, and expansion into new applications.

How does pricing impact market adoption?

Competitive pricing and cost optimization play a crucial role in customer adoption decisions.

What is the competitive landscape of the Acetic Anhydride Cas 108 24 7 Market?

The market is moderately competitive with global and regional players focusing on innovation. 

What is the long-term outlook for the Acetic Anhydride Cas 108 24 7 Market?

The market is expected to witness steady CAGR growth through 2033.

Why is the Acetic Anhydride Cas 108 24 7 Market attractive to investors?

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