Dimethyl Sulfate Market - Global Industry Analysis,Trends And Forecast 2015 - 2023

Dimethyl sulfate is also known as sulphuric acid dimethyl ester and commonly abbreviated as DMS. Dimethyl sulfate is a colorless oily liquid and it is soluble in aromatic solvents, water, and alcohol. It is a diester of sulfuric acid and methanol, and a strong methylating agent. It is a useful chemical for the manufacturing of a variety of household and industrial chemicals. For instance, dimethyl sulfate is used to produce surfactants, water treatment chemicals, pesticides, dyes, fabric softeners, and photographic chemicals. Dimethyl sulfate acts as a reagent for methylation of amines, thiols, and phenols. Dimethyl sulfate is the preferred methylating agent across industries due to the chemical’s low cost and high reactivity. It is also used to manufacture perfumes and for the separation of mineral oils. Dimethyl sulfate is used in the manufacturing of pharmaceutical drugs. Furthermore, dimethyl sulfate under certain conditions is used as a catalyst, sulfonation agent, solvent, and stabilizer.

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Dimethyl sulfate is used as chemical intermediate, hence the global dimethyl sulfate market is anticipated to experience strong growth over the foreseeable future, owing to its numerous applications in different chemicals. Furthermore, the fabric softeners market is expected to experience strong growth during the forecast period, which would boost the demand for dimethyl sulfate, as the latter is used to manufacture fabric softeners. Dye manufacturers use dimethyl sulfate to manufacture various dyes and this is expected to boost the global demand for the chemical. Despite the low cost and high effectiveness of dimethyl sulfate, its high level of toxicity is expected to act as a hurdle for the global market in the forecast period.

Asia Pacific is projected to be the fastest-growing market for dimethyl sulfate over the forecast period. The main reason for this is the industrial growth of developing countries of Asia Pacific, particularly China and India. In Asia Pacific, the agriculture sector is experiencing strong growth, which would complement the pesticide and agrochemicals market. Therefore, with rising demand from pesticide and agrochemical markets the consumption of dimethyl sulfate is likely to grow. Dimethyl sulfate is used to manufacture intermediate chemicals which are further used in the manufacture of pharmaceutical products. The growth in demand for pharmaceutical products is likely to reflect positively on the global demand for dimethyl sulfate. Numerous water treatment plants are operational in North America and Europe region due to government mandates to reuse and recycle waste water disposed from chemical manufacturing companies. This application is expected to propel the demand for dimethyl sulfate in these regions. Numerous countries in Asia Pacific and Latin America have undertaken initiatives to build water treatment plants in order to reuse the waste disposed from manufacturing plants. The market dynamics in Latin America, Asia Pacific, and the Middle East are favorable for the growth of the dimethyl sulfate market. The gradually improving economies of North America and Europe are also likely to provide impetus to the global market for dimethyl sulfate. The aforementioned factors is expected to positively impact the global dimethyl sulfate market. The dimethyl sulfate market would experience strong growth due to the projected growth of numerous applications in various end-user industries in the forecast period.

Major companies operating in the global dimethyl sulfate market include DuPont (EI) de Nemours, BASF SE, Caledon Laboratories Ltd., Chevron Phillips Chemical Company, and CABB.

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The evolution of Effluent Treatment Plant Construction Market - 2015 - 2022

Usage of large quantities of water in various industries results in a huge amount of wastewater. As per government regulation, wastewater should be treated before discharging it into water streams. Stringent environmental regulations coupled with increased quantity of wastewater is driving the global effluent treatment plants market during the forecast period.

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The United States Environmental Protection Agency (EPA) defines effluent as waste water that flows out of an industrial outlet, treatment plant and sewer that is discharged into surface water source. Effluent can either be treated or untreated. Every type of industry uses water as a main component. Water is used for various purposes in an industry such as for dilution, washing, steam condensing and injection. The water used for different processes is not totally consumed by them. The remaining water that is not consumed may contain harmful chemical and particles. This water needs to be treated before reusing it or discharging it into the surface water. Significantly high amount of water is used by various industries across the globe. If the processed water or unused water is not treated before discharged then it will pollute the environment. The local water resources will get polluted and there will be scarcity of water for drinking or any other use. To treat such huge amount of water, every industry requires an effluent treatment plant.

There are three main category of wastewater treatment plant; sewage water treatment for domestic wastewater, effluent treatment plant and common effluent treatment plans for industrial wastewater. The effluent treatment plant are set up by industries such as pharmaceuticaland chemicalcompanies to remove toxin material from the waste water. In developing countries, government help small scale industries to set up common effluent treatment plants (CETP). These CETPs serve to cluster of industries treating their waste together to remove toxins. This forms an inexpensive option by reducing the investment on individual treatment plant and the space needed. Common effluent treatment plant are usually aided by the state ministries and formed in the special economic zones having similar types of industries. Effluent treatment plant employ wastewater treatment techniques such as flocculation, disinfection, adsorption, evaporation, centrifuging, filtration and incineration.

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The global effluents treatment plants market can be segmented on the basis of end user industry into oil and gas, power, chemical, paper, leather and others. In oil and gas industry, water is used for various purposes such as heat transfer medium, hydraulic fracturing, etc.Wastewater produced from every industry has distinct characteristics. Waste water produced from food operations is biodegradable and nontoxic. Whereas the wastewater produced from a chemical plant may be toxic and non-biodegradable. Hence the equipment or the technologies used for effluent treatments may vary according to the characteristics of harmful elements that are present in it. In oil and gas industry, increasing use of water in hydraulic fracturing for shale gas production provides a great opportunity for effluent treatment plants. The water produced after hydraulic fracturing contains chemical and needs to be treated before reusing or discharging. Shale gas production will increase significantly during the forecast period creating a demand for effluent treatment plants market.Stringent government regulations do not allow the discharge of wastewater before treatment. This has increased the demand of effluent water treatment plants across the globe. North America is expected to dominate the global effluent treatment plant market with huge amount of shale gas production projects and various other chemical, food industries that require water.

Some of the key players in the effluent treatment plants market include Nalco, ETP Services Limited, WOG Group, Tirubala Tri Environment Pvt. Ltd., Jet Inc., Toro Equipment, WPL Limited, Gulf Industrial Services Company LLC, AECOM Gee & Co Limited, ADI Systems Inc. and Biwater among others.

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Fatty Acid Marke t- a Global Scenario

Fatty acid, in biochemistry is a saturated or unsaturated carboxylic acid that consists of long aliphatic chain. Fatty acids that are derived naturally have even number of carbon atoms i.e. from 4 to 28 in the chain. Fatty acids are derived from phospholipids and triglycerides. When these are detached to another molecule, they are free fatty acids. As fatty acids yield a large amount of ATP after metabolism, they are said to be an important source of fuel. Various cell types use fatty acids or glucose as source of fuel. Particularly, skeletal muscle, brain and heart use fatty acids as a fuel source. Types of fatty acids vary based on length of free fatty acids and carbon bonds. The fatty acids with carbon-carbon double bonds are unsaturated fatty acids and those fatty acids fatty acids make upto 46% of human fat. Many animals cannot synthesize more than one fatty acids and hence they have to ingest it through food. Fatty acids undergo reactions similar to carboxylic acids such as acid base reactions and esterification. The reactions include hydrogenation and hardening, auto-oxidation and rancidity, acidity, ozonolysis and analysis.

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Fatty acids are used in the human nutrition as deficiency of fatty acids may lead to biological effects. Other areas of applications include pharmaceuticals where fatty acids are used as an inactive ingredient in preparation of drugs and as carriers for lipid formulation. They act as a part of complex lipids and therefore are used in the manufacture of cosmetics, soaps, fat liposomes and emulsions. Hence fatty acids also find its place in the personal hygiene products. The primary end uses of fatty acids include Synthetic organic detergents, paints, varnishes, rubber compounding, textile chemicals, insecticides, plastic and plastic fabrication, synthetic rubber formulations and paper and paper products among others.

The major driving factors of fatty acid market are growing demand from personal and home care products and emerging economies in the Central and South America. In addition, the increasing demand from the detergent and soap industry is expected to fuel market growth of fatty acids in near future. Biological effects due to deficiency of fatty acids are expected to hamper the growth of fatty acids. Potential effects include blood pressure, stroke, coronary artery disease, inflammation among others.

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The key regional segments for fatty acid market include North America, Asia Pacific, Europe and Rest of the World (RoW). Asia Pacific is expected to be the largest consumer of fatty acid. China is the major consumer in Asia Pacific as they consume large amount of fatty acid in production of soap and detergents. Rest of the World is expected to show significant growth in near future. Europe is also anticipated to grow due to huge imports mainly in Turkey.

Some of the major companies in the market include Aker Biomarine, BASF, Aurora Algae, Acasti Pharma, Croda International, Golden Omega, GC Rieber Oils, Jiangsu Auqi Marine Biotechnology, Maruha Nichiro Foods, Omega Protein, Nippon Suisan Kaisha(Nissui), Solutex GC, Stepan, Sinomega Biotech Engineering and TASA Omega among others.

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The evolution of Latex Powder Market - 2014 - 2020

Latex powder is a free flowing powder produced by spray drying of aqueous vinyl acetate-ethylene copolymer dispersion. Latex powder offers various advantages related to powdered form of polymer such as ease of storage, transportation and handling. The powder finds application in construction industry where it is used to improve key properties of gypsum and cement based formulations. Latex offers various advantages that include improved workability, superior adhesive strength, enhanced flexural strength, excellent abrasion resistance and high impact resistance. The types of latex powder include styrene butadiene latex powder, vinyl acetate copolymer and vinyl acetate terpolymer among others. Latex powder is used for self-leveling flooring compounds, cement based tile adhesives and flexible tile adhesives among others.

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Construction is one of the key end-user industries of latex powder where it is used in diverse applications such as concrete repair mortars, ceramic tile adhesives, thermal insulating adhesives, joint fillers, self leveling mortars, decorative plasters or renders, wall paper adhesives and sealing slurries among others. Construction being the major application of latex rubber powder, there is a direct correlation between the growth in construction industry and latex rubber industry. Asia Pacific has witnessed robust economic growth in the past decade and this trend is expected to continue in the next few years. This rise in economic activity has led to growth in construction industry in this region, as well as in overall living standards. With the recovery of the global economic scenario, construction activities are expected to increase rapidly at a global scale. This growth in construction activities is anticipated to trigger the demand for latex rubber used for construction activities. Latex rubber is used to enhance the visual appeal, provide protection from harsh climatic conditions and rust and in some cases for special purpose applications. U.S has recently witness an increase in construction activities on the back drop of recent revival from the economic recession.

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Owing to the growing construction industry in Asia-Pacific region, it accounted for the majority share of the global latex powder market. China and India were one of the largest consumers of latex powder in Asia Pacific. The need for more houses and infrastructure is expected to stem from growing urbanization in these regions. The demand is also anticipated to come from other developing economies such as Indonesia, and other South-East Asian countries. The latex powder consumption was the second largest in North America followed by Europe. In North America, U.S was one of the largest markets for latex powder. U.S economy has been recently recovered and has been close to pre-recession levels. Looking forward, the construction industry is expected to show robust growth in the next few years, which in turn is anticipated to drive the latex powder market in this region. In Europe, Germany accounted for the largest market share followed by France, Italy and the U.K. The latex powder market in North America and Europe is characterized by similar market conditions. In the Rest of the World (RoW), the market is expected to witness robust growth on account of various infrastructure projects being undertaken in this region. Latin America is also anticipated to grow on similar lines as that of Asia Pacific.

Some of the major companies operating in the global latex powder market are The Dow Chemical Company, Momentive Specialty Chemicals, and Rogers-ceramics among others.

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Where Choline Chloride Market is Headed in the Next Five Years

Choline chloride is a quarternary ammonium salt that contains chloride anion and choline cation. In the laboratory, chloline is mainly prepared by the methylation of the dimethylethanolamine with the methyl chloride. However, in the industries Davy’s Process Technology is the most widely used process to manufacture choline chloride. This process manufactures choline chloride from the hydrochloric acid, ethylene oxide and trimethylamine or from the pre-formed salts. Choline chloride is an essential nutrient that is required for the optimum animal growth. Choline chloride induces animal growth through building and maintaining cell structure as well as its function. Choline chloride is mainly associated with the synthesis as well as metabolism of betaine, methionine, serine, cystein, glycine and many other methyl containing biological compounds.

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Rising disposable income coupled with the better standard of living has increased the consumption of poultry which in turn is expected to boost the overall demand for the choline chloride market. In addition, the increase in the favor for poultry that that compared to pork or beef has further accelerated the demand for the choline chloride. Choline chloride is a derivative of the methylamine which is primarily used as a vitamin substitute or as supplements in the animal feed additives for fish farming, swine feed and poultry. Choline chloride is mainly classified as a vitamin B-complex which is essential for a large number of vital biological functions. Choline chloride is also known for its various uses in the form of catalyst, curing agents and neutralizing agent. Choline deficiency in the growing chicks is known to cause poor growth, inefficient use of feed and perosis. Major factors driving the overall growth of the choline chloride market are the growing consumption of poultry egg and meat coupled with the growing demand for meats especially in Asia Pacific. In addition, the increasing awareness for the feed supplements among the various end users has boosted the overall growth of the choline chloride market. The increasing population coupled with the growing demand for luxury food has boosted the overall growth of the poultry industry. Thus, with the growing poultry industry there is an increase in the demand for choline chloride.

Asia Pacific is the largest market for Choline chloride. Asia Pacific is mainly driven by the rapid growth in China as a major consumer for the choline chloride market. Asia Pacific is expected to garner the largest share of the global choline chloride market. The central and the South American market and the far eastern countries are primarily expected to be the fastest growing markets for choline chloride. Europe is expected to be the next largest market for the choline chloride market.

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Asia Pacific is the largest market for Choline chloride. Asia Pacific is mainly driven by the rapid growth in China as a major consumer for the choline chloride market. Asia Pacific is expected to garner the largest share of the global choline chloride market. The central and the South American market and the far eastern countries are primarily expected to be the fastest growing markets for choline chloride. Europe is expected to be the next largest market for the choline chloride market.

Kemin Industries Inc., Nb Group Co. Ltd., Be–Long Corpration, A&C Co. Inc., Pestell Mineral & Ingredients, Havay Chemicals, Basf Se, Balaji Amines Ltd., Jubilant Life Sciences Ltd., Taminco Corporation, Balchem Corporation and Algry Quimica Sl among others are the key participants of the global choline chloride market. Owing to the significant production capacity, Balchem Corporation has grown as one of the strongest player in the market in the recent years. Many companies manufacturing choline chloride are actively trying to increase the awareness regarding the importance of the product among the buyers.

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Want To Know The Future Of Metal Packaging Market ?

Metal packaging consists of metals used for packaging especially, steel and aluminum. The packaging industry finds wide spread uses in diverse applications such as food industry, health care, consumer goods and other industrial packaging applications. Packaging plays an important role in our everyday life. Metal packaging is used in applications such as cans, metal caps and closures, shipping barrels and drums, pails and fabricated boxes IBCs and metal tanks among others.

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Metal packaging offers an ideal platform that balances good economics with a premium feel, adding to the retailer value. This aspect plays an important role in beverage industry where metal packaging offers greater cubic efficiency and faster filling rates as compared to other packaging formats. The durability of metal packaging decreases the risk of product breakage along with ease of product stacking along with being lightweight and ease of handling. Economy plays a vital role and has a direct influence on the metal packaging market. Some of the key drivers of metal packaging market are, increasing requirement for convenience, rising health awareness, increasing awareness of environmental issues and recycling. Metal packaging holds an advantage over other packaging alternatives in case of environmental record. The highlight of metal packaging is the recyclability of steel and aluminum. Steel and aluminum can be recycled repeatedly without any alterations in quality or characteristics. Recycling of metal packaging also reduces the dependence on the raw material supply. The use of recycled material also reduces the energy consumption by a substantial amount. A ton of recycled steel can save up to 1.5 tons of iron and about 0.5 tons of coal, which would have been used to produce new cans. Thus with increasing environmental awareness and the recent shift towards environment friendly alternatives is expected to drive the demand for metal packaging in the next few years.

The growth of metal packaging industry might be hampered by the plastic packaging alternatives. Plastics offer high versatility for packaging applications such as food and certain beverage market. Plastics are considered to be more convenient, flexible as compared to metal packaging which may restrict the growth of the market in the near future. However, the introduction of new metal packaging products and its inherent recyclable characteristics is expected to keep the demand for metal packaging solutions on the higher side.

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Owing to the growing urbanization in Asia-Pacific region and increased disposable incomes in countries such as China, India Indonesia etc. the demand for metal packaging is anticipated to witness robust growth in these regions. North America was the dominant market for metal packaging followed by Europe and Asia Pacific. In North America, U.S was one of the largest markets for metal packaging. U.S economy has been recently recovered and has been close to pre-recession levels. Looking forward, the packaging industry in North America is expected to show robust growth in the next few years, which in turn is anticipated to drive the metal packaging market in this region. In Europe, Germany accounted for the largest market share followed by Italy, France and the U.K. The metal packaging market in North America and Europe is characterized by similar market conditions. In the Rest of the World (RoW), especially in countries such as Brazil, the market is expected to witness strong growth on account of increased urban population in this region.

Some of the major companies operating in the global metal packaging market are Crown Holdings Inc., Ball Corporation, Greif, Ardagh, Rexam, Silgan Holdings Inc. Toyo Seikan Kaisha, Bway and Henkel among others.

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Paraformaldehyde Market segment forecast up to 2022

The solidified form of liquid formaldehyde is known as paraformaldehyde. It has a strong pungent odor similar to that of formaldehyde. Paraformaldehyde is used in a variety of industries for different applications. It finds application in agricultural chemicals, medicines, paints and coatings, manufacturing of different kinds of resins, and many other applications.

Paraformaldehyde is manufactured and marketed in different concentrations and forms. The two main processes of producing paraformaldehyde are vacuum drying process and spray drying process. The water concentration and formaldehyde concentration in different grades of paraformaldehyde depends on the degree of polymerization. Higher the degree of polymerization achieved, higher is the concentration of formaldehyde.

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Some of the major drivers of the paraformaldehyde market are its applications in the manufacturing of agricultural chemicals such as fungicides, herbicides, bactericides and pesticides such as acetochlor, machete, glyphosate, butachlor, and bismerthiazol. The majority of paraformaldehyde produced is consumed by this application. Paraformaldehyde is a well known biological fixative and inhibits cellular degradation due to bacterial replication. This property promotes its use in pesticides. It is also extensively used in manufacturing fertilizers. Another important application of paraformaldehyde is in the production of oil paints and high quality automotive paints. Automotive paints market accounts for a considerable demand for paraformaldehyde. Paraformaldehyde is also used as medical and hygienic disinfector instead of formaldehyde. It is used in the manufacturing process of vitamin A as well. Paraformaldehyde in different concentrations is used to manufacture a range of resins. It is used for the synthesis of urea formaldehyde resin, melamine resin, glycol, trimethylolpropane, and ion exchange resin, pentaerythritol, phenolic resin, and N-methylolacrylamide. Urea formaldehyde resin, melamine resin and phenolic resin are the most important resins and consume the bulk of paraformaldehyde demand by the resins market. Paraformaldehyde is used as a substitute for formaldehyde in the manufacturing of synthetic resins. Apart from these applications paraformaldehyde is used in rubber, paper and paper manufacturing processes, as surfactant and as derivative of terpene.

Inspite of the wide range of applications, paraformaldehyde is a chemical which pose severe health concerns and is highly regulated. Exposure to paraformaldehyde causes ocular and nasal irritation. It also leads to irritation in the upper respiratory tract of human beings. The chemical is suspected to have carcinogenic properties and is a reproductive hazard. OSHA (Occupational Safety and Health Administration) has adopted a long term and short term exposure limit of 0.75 ppm (parts per million) and 2 ppm respectively. Long term limit is set by averaging an 8 hour work shift, while short term refers to exposure for 15 minutes. High amount of precautions are necessary to handle paraformaldehyde as it poses high health risks for the workers.

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Asia Pacific is the largest market for paraformaldehyde, where China is both the largest producer as well as consumer of the chemical. The production of paraformaldehyde in China is increasing at a fast rate, and China is estimated to account for almost 50% of the global production. Environmental regulations on production process of some of the downstream products of paraformaldehyde such as glyphosate, has decreased the demand for paraformaldehyde, resulting is overcapacity in China. North America is the second largest market for paraformaldehyde, followed by Europe.

Some of the major players in the market are Alfa Aesar, Jinan Xiangrui Chemical Co., Ltd., Shanghai Orgpharma Chemical Co., Ltd., Jinan Haohua Industry Co., Ltd., Ekta International, and GFS Chemicals among many others.

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What researcher should write about Detergent Chemicals Market

Detergent is a mixture of surfactants which has cleaning properties in adulterate solutions. Families of compounds such as alkylbenzenesulfonates are more soluble in hard water but have properties similar to that of soap. These compounds are readily soluble in hard water as the polar sulfates are less alike than the polar carboxyls that bind with calcium and other ions present in water. In household perspective, detergent itself describes especially to dish detergent or laundry detergent except hand soaps or other various cleaning substances or agents. Soaps work as detergents as they have partly hydrophobic and partly hydrophilic properties. This property of detergents leads to the mixture of hydrophobic compounds such as grease and oil along with water. Owing to non-hydrophilic nature of air, detergents, at varying degrees are foaming agents. Chemically, detergents are classified into three broad groups based on the electrical charge of the surfactants. These include cationic detergents, anionic detergents, zwitterionic detergents and non-ionic detergents. The major raw materials used in the manufacture of detergents include sodium silicate, palm stearin, sodium sulphate, Linear Alkyl Benzene Sulfonic Acid (LABSA) and Palm Fatty Acid Distillate (PFAD) among others. Detergents are manufactured using three process namely, the blender process, agglomeration process and slurry method.

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Detergents have a wide variety of applications as laundry detergents, biological reagent, Fuel additives and soapless soap among others. Largest applications of detergents are for washing clothes and hence, laundry detergents are used on a large scale. Fuel injector and carburetor component of Otto engines are benefited by detergents, which prevent fouling in fuels. Isolation and purification of integral membrane proteins found in biological cells is done with the help of reagent grade detergents. Soapless soap is a liquid cleanser which is soapfree with a little acidic pH. The end-use applications for detergents chemicals include industrial and institutional cleaners, household detergents, metalworking fluids, personal care products among others.

Some of the major drivers of the detergent chemical industry include increasing demand for industrial detergents due to growing industrialization. In addition, technological advancements and growing demands of customer due to hygiene practices are also anticipated to boost demand for detergents in the market. However, the volatile prices of raw material due to rise in the oil and natural gas prices are expected to hamper the market growth in coming years. Price is the major factor for demand and growth of detergent chemicals in the market. Green cleaning uses products and methods that have environment friendly ingredients intended to protect environment and human health. This technology uses products that are free from volatile organic compounds leading to dermatological and respiratory disorders and do not contain toxic chemicals.

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China and India is expected to be the largest consumer of detergent chemicals followed by Middle East and Africa. The U.S. is expected to lose market share owing to the buying behavior of customers in U.S., whereas Europe is anticipated to gain market share. Brazil and Russia are expected to show sluggish growth as that of U.S. Growth opportunities remains high for suppliers that provide differentiated value, which allows them to sustain competitive pricing.

Some of the major companies profiled include: Huntsman Corporation, BASF SE, Dow Chemicals, Tata Chemicals, Solvay, Procter & Gamble, AkzoNobel, Dial Corp, Clariant AG, Church & Dwight, Henkel, Unilever, Shell Chemicals, Sasol, Airedale Chemicals, Colgate, International Detergent Chemicals Ltd., Condea and Petresa among others.

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Global Market for Sol Gel Nanocoating

Covering of a material in scale of nanometers to form structured material or nanocomposites using the sol gel process is known as sol gel nanocoating. In the sol gel process, coating is done by forming templates of spherical nanoparticles of complex shapes of some nanometer or micrometer in size. Sol gel process is among the most complex coating processes and is typically used for applications such as information storage and catalysis among others.

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Sol gel process typically involves development of inorganic nanoscale network over a continuous liquid phase by formation of colloidal suspension followed gelation of sol. Condensation reactions and controlled hydrolysis are among the essential factors in the sol gel technique. Sol gel technique is among the foremost techniques used for high quality transparent thin films. Furthermore, powders, monoliths, membranes and porous gels are fabricated using the sol gel technique. Polymer materials compounded or mixed with nanosize organic or inorganic filler materials are among materials used for coatings. The type of material to be used is decided based on the end user industry and interaction of materials with each other is studied and calibrated for higher efficiency. Interaction of materials on nano level determines the efficiency of the coating.

Sol gel can applied to the surface using several techniques including spraying, coating, brushing, spraying and dip among others. Depending on the employed technique, thickness of the coating in sol gel coating typically varies between 0.1 to 10 micro meters. Several material can be coated with sol gel technique including ceramic, metallic, polymers and organic materials such as paper, fibers and wood among others. Sol gel technique is employed to enhance several properties of a material including high abrasion and scratch resistance, photocatalytics, moisture control and surface energy modification among others.

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End user industries for sol gel include aerospace, automotive, electronics, energy and marine among several others. Aerospace is the most dominant end user segment for sol gel coating and the trend is anticipated to continue during the forecast period. High efficiency and high level of accuracy required in the aviation industry is among the foremost drivers for sol gel coatings in the aviation industry. Several end user industries for sol gel nanocoating include consumer industries such as electronics and automotives. Therefore, demand for sol gel nanocoating is profoundly dependent on the overall macroeconomic factors prevalent in a region. High cost and complexity in applying are among major factors restraining growth for so gel nanocoatings. Research and development activities to develop low cost processes and material are expected to offer huge growth opportunity in the market.

North America followed by Europe dominates the global demand for sol gel nanocoating market. Moreover, the demand for sol gel nanocoatings in Europe and North America is anticipated to grow at a sluggish rate during the forecast period. Asia Pacific is anticipated to be the fastest growing region in the global nanocoatings market during the forecast period. Increasing demand for sol gel nanocoating for health care applications is anticipated to be among foremost factors fuelling demand for sol gel nanocoatings.

Sol gel nanocoating market is driven by innovation and major players compete by increasing their research and development activities to meet the dynamic demand of end consumers. Major players in the sol gel nanocoating market include Bio-Gate AG, Buhler PARTEC GmbH, Cima NanoTech Inc., Eikos Inc and Inframat Corporation among others.

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An Expert suggetions on Amyl Cinnamic Aldehyde (ACA) Market till 2022

Amyl Cinnamic Aldehyde (ACA) is a yellow colored aroma chemical having a floral fragrance and is widely used in perfumes. The chemical name of Amyl Cinnamic Aldehyde is α- amyl cinnamic aldehyde and has a peculiar jasmine fragrance. Amyl cinnamic aldehyde is extensively used in the production of perfumes where it generates a jasmine-like floralness when more volatile chemicals of floral character are added to it. Amyl cinnamic aldehyde blends easily with these volatile chemicals and helps in fixing the fragrance of perfumes. Amyl cinnamic aldehyde finds use in end-user industries such as household care, personal care and food and beverages industries. In household care industry, amyl cinnamic aldehyde is mainly used in laundry care for fragrance application, in personal care industry, it is used as a fragrance in deodorants, shampoos and soaps while in food and beverages industry amyl cinnamic aldehyde is used as a flavoring agent. The growing household care, personal care and food and beverages industry across the globe is expected to drive the demand for amyl cinnamic aldehyde in the next few years.

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There are two types of amyl cinnamic aldehyde, natural and synthetic. Food grade natural amyl cinnamic aldehyde has a floral, tropical, rosy and honey-like flavor and a fruity nuance. It is prominently used as a flavoring agent in various types of food items and beverages. Natural amyl cinnamic aldehyde is manufactured from natural oils and is mainly used in the food and beverages industry. Non-food grade natural and synthetic amyl cinnamic aldehydes are used in the household care and personal care industry. Household care applications typically include laundry care while the personal care applications comprise hair care and beauty care. Due to rising prices of natural oils, many of the manufacturers of amyl cinnamic aldehyde have started using synthetic sources instead of natural oils to provide economical and high quality application products to consumers. The acetal derivatives of amyl cinnamic aldehyde have shown remarkable fragrance characteristics. The lower aliphatic alcohols produce acetals derivatives with jasmine-like aroma while the higher aliphatic alcohols produce acetal derivatives with a cocoa-like fragrance. The synthetically produced amyl cinnamic aldehyde is widely used as an aroma chemical in commercial end-use products including deodorants, detergents, fabric softeners, shampoos, cleaners and soaps. Owing to the intense nature of the price-based competition in the global FMCG market, the manufacturers of amyl cinnamic aldehyde are expected to focus on developing more ways of producing the aroma chemical synthetically and economically.

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As amyl cinnamic aldehyde is prominently used in FMCG industry, the rising population of consumers plays a vital role in the growth of the overall market. Moreover, as amyl cinnamic aldehyde is predominantly used in the personal care items, the rising disposable income of the population creates a significant impact on the dynamics of the global market. The increase in the number of consumers in Asian countries such as India, China, Indonesia, Thailand and Vietnam and Latin American and African nations is anticipated to drive the demand for personal care and household care items in the next few years. Furthermore, the U.S. and European markets are recovering from the slowdown and are predicted to generate a significant demand for personal care items in the future. The rising demand for personal care products across the globe, especially in Asia Pacific region, is expected to drive the global amyl cinnamic aldehyde market in the near future.

Some of the major companies operating in the amyl cinnamic aldehyde (ACA) market are Emerald Performance Materials and Kao Global Chemicals.

Download PDF: Amyl Cinnamic Aldehyde (ACA) Market - Global Industry Analysis, Size, Share, Trends And Forecast 2014 - 2022