Call 0804861101967% Response Rate
SEND EMAIL
Protective coatings are the largest application area for the P-Series glycol ethers. Resin manufacturers, coatings formulators, and coatings applicators use these products in protective coatings for industrial, automotive, and architectural applications. The P-Series glycol ethers are widely used with cleaners because they offer an extensive combination of basic physical and performance properties for cleaning formulations. As a result, they are useful in a wide range of applications.
Product Details:
| Minimum Order Quantity | 50 Kilogram |
| State of Matter | Liquid |
| Packaging Size | 50 & 190 Kgs. in M.S./HDPE Drum. |
| Features | Acid Resistant, Oil Resistant, Cold Resistant, Heat Resistant |
| Form of Chemicals | Liquid |
| Packaging Type | 50 & 190 Kgs. in M.S./HDPE Drum. |
| CAS Number | 110-80-5 |
| Solubility | Insoluble in water |
| Flash Point (Degree Celsius) | 43C Min |
| Viscosity (Degree Celsius) | 2.1 cps.at 20c |
| Molecular Weight (g per mol) | 90 |
| Boiling Point (deg. Celsius) | 133.0 C Min. 136.5C Max |
| Specific Gravity (g per cube cm) | 0.929 - 0.932 |
| Grade Standard | Technical Grade |
| Appearance | Clear, bright and free from solid matter |
| Physical State | Liquid |
| Usage | Industrial |
| Chemical Name | Ethylene Glycol Monoethyl Ether |
| Colour | 10.0 Max. |
| Water Kef | 0.15 Max. |
| Acidity | 0.01 Max. |
| Ph Range | 6.0 to 7.0 |
Ethylene Glycol Monoethyl Ether, is a reaction product of ethylene oxide and Ethanol. Ethylene Glycol Monoethyl Ether is chemically known as a Ethyl Glycol, 1-Ethoxy-2-hydroxyethene, Ethyl (2-hydroxyethyl) ether. Commercially it is known as a Ethyl Cellosolve, which is a trademark of Union Carbide. Ethylene Glycol Mono Ethyl Ether is an excellent solvent for the various resins & paste etc
Applications:
Ethylene Glycol Monoethyl Ether is a medium boiling, colorless stable liquid having a mild odor. Ethyl Glycol is a completely miscible with water & organic liquid. Ethyl Glycol is used as a solvent in nitrocellulose and cellulose Ether lacquers due to its pleasent odor. Ethyl Cellosolve is also not slow down the drying time dispite its low volatility. The addition of small quantity of Ethylene Glycol Monoethyl Ether to alkyd resin and cellulose ether lacquers considerably reduce their viscosity & thus improves their brushability. Ethyl Glycol is also used as an ingredient in cleaning agent and paints stippers. The Some vegetable Oils can be dispersed in water with the help of Ethylne Glycol Monoethyl Ether. This product is also used in Latex Paint industries as a Solvent & Covering Agent Ethylene Glycol Monoethyl Ether tends to absorb water rapidly and therefore always mixed with Carbitol, methoxybutanol or Butanol, in order to prevent “blushing” of the lacquer film on drying. Cellulose lacquers containing Ethyl Glycol are applied to stained wood, the solvent dissolves part of the stain out of the wood, giving slightly colored lacquer films. Ethyl Glycol may also be used in the dying of leather. Ethyl Cellosolve does not attack rubber.
Specification:
Chemical CompositionEthylene Glycol Monoethyl EtherCas No.110-80-5AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC0.929 - 0.932Distillation
Initial Boiling Point
Dry Point
133.0ºC Min.
136.5ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.0Flash Point (ºC)43ºC MinWater Content %0.15 Max.Molecular Weight90Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc2.1 cps.Solubility In waterSoluble
Packing: 50 & 190 Kgs. in M.S./HDPE Drum. also supply Ethylene Glycol Monoethyl Ether (EGMEE) as per customer specification & other Glycol Ethers like Diethylene Glycol Monoethyl Ether , Ethylene Glycol MonoButyl Ether , Diethylene Glycol MonoButyl Ether , Ethylene Glycol Monomethyl Ether & Diethylene Glycol monomethyl Ether .
Additional Information:
Product Details:
| Minimum Order Quantity | 50 Kg |
| Usage | Industrial |
| Physical State | Liquid |
| Grade Standard | Analytical Grade |
| Packaging Type | 50 & 190 Kgs. in M.S./HDPE Drum. |
| Packaging Size | 50 & 190 Kgs. in M.S./HDPE Drum. |
| Form | Liquid |
| Boiling Point (deg. Celsius) | 123.5 C Min. 125.5C Max. |
| Temperature (deg. Celsius) | 43C Min |
| CAS Number | 109-86-4 |
| Viscosity | Yes |
Ethylene Glycol Monomethyl Ether, is a reaction product of ethylene oxide and Methanol. Ethylene Glycol Monomethyl Ether is chemically known as a Methyl Glycol, 2-Methoxy Ethanol,1-Methoxy-2-hydroxyethene, Methyl (2-hydroxyethyl) ether. Commercially it is known as a Methyl Cellosolve, which is a trademark of Union Carbide. Ethylene Glycol Mono Methyl Ether is an excellent solvent for the various resins & paste etc.
Applications:
Ethylene Glycol Monomethyl Ether has a high solvent power so it is used together with low- boiling solvents. Methyl Cellosolve (Methyl Glycol) is employed with particular advantage in cellulose acetate and cellulose ether lacquers. Although it has a rather high boiling point, film formation is rapid owing to its relatively high evaporation rate. Methyl Glycol is such a good solvent for nitrocellulose that it may be used in the production of very highly concentrated lacquer solution which dry and set within a comparatively short time. It can be used with advantage for regulating the evaporation time and the flow of cellulose ether lacquers, for this purpose it may be diluted to a large extent with toluene or ethanol. This product is also used in aviation industry as FSII – Dicing – Anti Icing agent. Ethylene Glycol Monomethyl Ether tends to absorb water readily and is therefore always mixed with Apitol, methoxybutanol or Butanol, in order to prevent “blushing” of the lacquer film on drying. Cellulose lacquers containing Methyl Cellosolve (2-Metoxy Ethanol) are applied to stained wood, the solvent dissolves part of the stain out of the wood, giving slightly colored lacquer films. Ethylene Glycol Monomethyl Ether may also be used in the dying of leather. Methyl Glycol does not attack rubber. also supply Ethylene Glycol Monomethyl Ether (EGMME) as per customer specification & other Glycol Ethers like Diethylene Glycol Monomethyl Ether , Ethylene Glycol MonoButyl Ether , Diethylene Glycol MonoButyl Ether, Ethylene Glycol Monoethyl Ether & Diethylene Glycol Monoethyl Ether . Chemical Composition Ethylene Glycol Monomethyl EtherCas No.109-86-4AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC0.963 - 0.967Distillation
Initial Boiling Point
Dry Point
123.5ºC Min.
125.5ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.0Flash Point (ºC)43ºC MinWater Content %0.15 Max.Molecular Weight76.1Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc1.7 cps.Solubility In waterSoluble
Additional Information:
Product Details:
| Minimum Order Quantity | 50 Kg |
| Boiling Point (deg. Celsius) | 192.0 C Min. 202.0 C Max. |
| Viscosity | Yes |
| CAS Number | 111-90-0 |
| Color | Clear, bright and free from solid matter |
| Grade Standard | Technical Grade |
| Physical State | Liquid |
| Usage | Industrial |
| Formula | C6H14O3 |
Diethylene Glycol Monoethyl Ether, is a product of Ethylene Oxide and Ethanol. Diethylene Glycol Monoethyl Ether is chemically known as a Ethyl Diglycol, 2-hydroxy-2-ethoxy-diethyl ether. Commercially it is known as a Ethyl Carbitol, which is a trademark of Union Carbide. Diethylene Glycol Monoethyl Ether is an excellent solvent for the various resins & paste etc.
Application:
Diethylene Glycol Monoethyl Ether has low setting point and low viscocity at low temperature so it is used in manufacturing Brake Fluid. Ethyl Diglycol is used as a flow and gloss promoter in paint industries. The extendability of solution has also increased. Ethyl Carbitol is used in production of printing ink and as a cleaner in offset printing. Diethylene Glycol Monoethyl Ether is used in textile as a solvent for dyestuff in the printing and dying of fiber & fabrics. Ethyl Diglycol prevents the gel formation in liquid detergent and cleaner formulation. Diethylene Glycol Monoethyl Ether is also used a solubilizer in drilling and cutting coolants. Ethyl Diglycol is used in the production & formulation of pesticides & wood preservaties. Due to its low volatility property it is used in Indian & ink ball point pastes. It is also used in cosmetic & perfumary industry as a solvent. Ethyl diglycol (Ethyl Carbitol) does not attack rubber.
Specification:
Chemical CompositionDiethylene Glycol Monoethyl Ether (DGMEE)Chemical NameEthyl CarbitolChemical FormulaC6H14O3Cas No.111-90-0AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC0.989 - 0.994Distillation
Initial Boiling Point
Dry Point
192.0 ºC Min.
202.0 ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.5Flash Point (ºC)91ºC MinWater Content %0.15 Max.Molecular Weight134.17Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc4.5 cps.Solubility In waterSoluble
Packing: 50 & 200 Kgs. in M.S. / H.D.P.E. Drum.also supply Dithylene Glycol Monoethyl Ether (DGMEE) as per customer specification & other Glycol Ethers like Ethylene Glycol monoethyl Ether , Ethylene Glycol MonoButyl Ether , Diethylene Glycol MonoButyl Ether , Ethylene Glycol Monomethyl Ether & Diethylene Glycol monomethyl Ether .
Additional Information:
Product Details:
| Minimum Order Quantity | 50 Kilogram |
| Categories | Adhesives, Construction Chemicals, Oil Field Chemicals, Agrichemicals, Food Additives |
| Functions | Antioxidants, Catalysts, Lubricants, Biocides, Surfactants |
| Solubility | Insoluble in water |
| Boiling Point (Degree Celsius) | 167.0 C Min. 173.0 C Max. |
| Flash Point (Degree Celsius) | 61 C Min |
| PH Value (%) | 6.0 to 7.5 |
| Viscosity (Degree Celsius) | 6.4 cps. at 20C |
| Grade Standard | Technical Grade |
| Physical State | Liquid |
| Usage | Industrial |
| Chemical Name | Ethylene Glycol Monobutyl Ether |
| Molded Density Kg M3 | 118.11 |
| Cas-No | 111-76-2 |
| Packing | 50 & 190 Kgs. in M.S./HDPE Drum. |
| Colour | Clear, bright and free from solid matter |
| Form of Chemicals | Liquid |
Ethylene Glycol Monobutyl Ether. is versatile solvent of product obtains by reaction betweeen ethylene oxide and n-Butanol. Ethylene Glycol Monobutyl Ether is chemically known as a Butyl Glycol, 1-n-Butoxy-2-hydroxyethane, n-butyl (2-hydroxyethyl) ether. Commercially it is known as a Butyl Cellosolve.
Applications:
Butyl Glycol (2-Butoxy Ethanol) is employed primarily in the production of lacquers based on nitrocellulose, cellulose ethers and chlorinated rubber. Small quantities are also used combination lacquers. Solutions of nitrocellulose in Butyl Glycol may be diluted with large quantity of white spirit, aromatic hydrocarbons or ethanol without adversely affecting the film property. Small quantities of Ethylene Glycol Monobutyl Ether improves both the flow and dilution capacity of the lacquers and also enhance the gloss of the resultant lacquer films. Since Butyl Glycol (2-Butoxy Ethanol) dries lacquer coatings very slowly, it is ideal for the preparation of brushing lacquers based on cellulose esters, cellulose ethers and chlorinated rubber. Even quite small additions of Butyl Glycol (2-Butoxy Ethanol) to alkyd, the viscosity of the lacquer solution considerably reduce, thereby improving the brush-out property of such lacquers. 2-Butoxy Ethanol is a good intermediate solvent for use in mineral oil emulsion. Even small quantities of Butyl Glycol (2-Butoxy Ethanol) can disperse and stabilize such emulsion quite effectively.
Specification:
Chemical CompositionEthylene Glycol Monobutyl Ether (EGMBE)Chemical FormulaC6H14O2Cas No.111-76-2AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC0.900 - 0.904Distillation
Initial Boiling Point
Dry Point
167.0 ºC Min.
173.0ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.5Flash Point (ºC)61ºC MinWater Content %0.2 Max.Molecular Weight118.11Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc6.4 cps.Solubility In waterSoluble
Packing: 50 & 190 Kgs. in M.S./HDPE Drum.
Additional Information:
Product Details:
| Minimum Order Quantity | 50 Kilogram |
| Features | Oil Resistant, Heat Resistant, Acid Resistant, Cold Resistant, Tear Resistant |
| State of Matter | Liquid |
| CAS Number | 111-77-3 |
| Molecular Formula | C5H12O3 |
| Solubility | Insoluble in water |
| Flash Point | 85 C Min |
| Viscosity | 3.9 cps. at 20C |
| Molecular Weight (g per mol) | 120.15 |
| Boiling Point (deg. Celsius) | 191.0 C Min. 198.0 C Max. |
| pH Value | 6.0 to 7.5 |
| Specific Gravity (g per cube cm) | 1.021 - 1.025 |
| Appearance | Clear, bright and free from solid matter |
| Usage | Industrial |
| Chemical Name | Methyl Carbitol |
| Colour | 10.0 Max. |
| Water Kef | 0.15 Max. |
| Grade Standard | Technical Grade |
| Acidity | 0.01 Max. |
| Physical State | Liquid |
| Form of Chemicals | Liquid |
| Packaging Size | 50 & 200 Kgs. in M.S. / H.D.P.E. Drum. |
| Composition | Diethylene Glycol Monomethyl Ether |
Diethylene Glycol Monomethyl Ether, is a product of Ethylene Oxide and Methanol. Diethylene Glycol Monomethyl Ether is chemically known as a Methyl Diglycol, 2-hydroxy-2-methoxy-diethyl ether. Commercially it is known as a Methyl Carbitol, which is a trademark of Union Carbide. Diethylene Glycol Monomethyl Ether is an excellent solvent for the various resins & paste etc. ADVANCE PETROCHEMICALS LTD. is selling this product in the brand name APITOL 120.
Application:
Methyl Diglycol - 2(-2 Methoxyethoxy) Ethanol is a relatively non-volatile solvent and therefore it is included only in special lacquer formulations, principally nitrocellulose lacquers, to improve the properties of the lacquers. It can be stabilized with 2, 6-ditert-butyl-4-methylphenol (0.005%). Owning to its low volatility small quantity can be added to lacquer solutions. The dilution capacity of Methyl Diglycol - 2(-2 Methoxyethoxy) Ethanol is very good. This product is also used in aviation industry as FSII– Dicing – Anti Icing agent. Methyl Diglycol - 2(-2 Methoxyethoxy) Ethanol does not attack rubber. APITOL 120 is also used in the printing ink, industry and in the production of ballpoint pen ink.
Specification:
Chemical CompositionDiethylene Glycol Monomethyl Ether (DGMME)Chemical NameMethyl CarbitolChemical FormulaC5H12O3Cas No.111-77-3AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC1.021 - 1.025Distillation
Initial Boiling Point
Dry Point
191.0 ºC Min.
198.0 ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.5Flash Point (ºC)85ºC MinWater Content %0.15 Max.Molecular Weight120.15Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc3.9 cps.Solubility In waterSoluble
Packing: 50 & 200 Kgs. in M.S. / H.D.P.E. Drum. also supply Diethylene Glycol Monomethyl Ether as per customer specification & other Glycol Ethers like Ethylene Glycol Monomethyl Ether , Ethylene Glycol MonoButyl Ether, Diethylene Glycol MonoButyl Ether , Ethylene Glycol Monoethyl Ether& Diethylene Glycol Monoethyl Ether.
Additional Information:
Product Details:
| Minimum Order Quantity | 50 Kg |
| Packaging Size | 50 & 200 Kgs. in M.S. / H.D.P.E. Drum. |
| Grade Standard | Industrial Grade |
| Types | Hydrocarbon Solvents, Halogenated Solvents, Oxygenated Solvents |
| Boiling Point | 224.0 C Min. 234.0 C Max. |
| Polarity | Polar |
| Molar Mass | 162.23 |
| Color | Clear,bright and free from solid matter |
| Acidity | 0.01 Max. |
| Chemical Formula | C4H9O (C2H4O)2H |
| Solubility In Water | Soluble |
Diethylene Glycol Monobutyl Ether is a versatile solvent of reaction product between ethylene oxide and n-butanol. Diethylene Glycol Monobutyl Ether is chemically known as a Butyl Diglycol, Diethylene Glycol Mono-n-butyl ether, 2-hydroxy-2butoxy-diethyl ether. Commercially it is known as a Butyl Carbitol.
Applications:
Diethylene Glycol Monobutyl Ether is used primarily in the manufacturing of lacquers based on nitrocellulose, cellulose ethers and chlorinated rubber. Small quantity is also used in combination lacquers. Solutions of nitrocellulose in Butyl Glycol may be diluted with large quantity of white spirit, aromatic hydrocarbons or ethanol without adversely affecting the film properties. Small quantity of Butyl Diglycol improves both the flow and dilution capacity of the lacquers and also enhances the gloss of the resultant lacquer films. Since Butyl Carbitol (Butyl Diglycol) dissolves only dried lacquer coatings very slowly, it is ideal for the preparation of brushing lacquers based on cellulose esters, cellulose ethers and chlorinated rubber. Even small addition of Butyl Diglycol to alkyd and the viscosity of the lacquer solution considerably reduce, thereby improving the brush-out properties of such lacquers. a good intermediate solvent for use in mineral oil emulsion. Even small quantity of Diethylene Glycol Monobutyl Ether can disperse and stabilize such emulsion quite effectively. Butyl Diglycol does not attack rubber.
Specification:
Chemical CompositionDiethylene Glycol Monobutyl EtherChemical FormulaC4H9O (C2H4O)2HCas No.112-34-5AppearanceClear, bright and free from solid matterColour, Platinum-Cobalt10.0 Max.Specific Gravity 20/20 ºC0.952-0.955Distillation Initial Boiling Point Dry Point 224.0 ºC Min. 234.0 ºC Max.PH of 25% solution in water 25 ± 2 ºC6.0 to 7.5Flash Point (ºC)77.7ºC MinWater Content %0.2 Max.Molecular Weight162.23Acidity % w/w (as Acetic Acid)0.01 Max.Viscosity at 20 ºc6.5 cps.Solubility In waterSoluble
Packing: 50 & 200 Kgs. in M.S. / H.D.P.E. Drum. also supply Diethylene Glycol Monobutyl Ether as per customer specification & other Glycol Ethers like Ethylene Glycol Monomethyl Ether , Ethylene Glycol MonoButyl Ether , Diethylene Glycol Monomethyl Ether , Ethylene Glycol Monoethyl Ether & Diethylene Glycol Monoethyl Ether.
Additional Information:
Product Details:
| Minimum Order Quantity | 100 Kilogram |
| Grade Standard | Technical Grade |
| Usage | Industrial |
| PubChem CID: | 10878836 |
|---|---|
| Chemical Names: | Benzyltrimethylammonium methyl carbonate; 112354-41-3; BTMC; AGN-PC-0NC49B; SCHEMBL984176; DTXSID90446872 More... |
| Molecular Formula: | C12H19NO3 |
| Molecular Weight: | 225.288 g/mol |
| InChI Key: | FHKVBKRABWGIMY-UHFFFAOYSA-M |
Additional Information:
Product Details:
| Physical State | Liquid |
| Grade Standard | Technical Grade |
| Usage | Industrial |
| CAS Number | 109-83-1 |
| Packaging Type | Drum |
| Packaging Size | 50,210kg Drum |
| Color | 50 APHA (Maximum) |
| Flash Point | 74 C (Approx.) |
MONO METHYL ETHANOLAMINE - MMEA is a clear, Colourless with Peculiar smell. Mono Methyl Ethanolamine is soluble in water, alcohol and benzene. Mono Methyl Ethanolamine is also known as a MMEA or N-Methyl Ethanolamine, 2-Methylaminoethanol, Methyl ethanolamine, (2-Hydroxyethyl) methylamine or Mono Methyl Amino Ethanol. Mono Methyl Ethanolamine is widely used as an intermediates in many applications within various industries like Dye stuff, Lubricant, Lacquer, Coating, Paint, pesticide, bactericide, personal care, Whiting agent & gas treatment, etc., however MMEA is largest utilized in the textile, pharmaceutical, household & specialist industries. It is also used in manufacturing of surface Active agent & wetting agent. Mono Methyl Ethanolamine is versatile bifunctional molecules compound that combines the characteristic of Amine and Hydroxyl group. So during the reaction it behaves like alcohol and Amine but Amine Group usually exhibits the greater activity.
Specification: MONO METHYL ETHANOLAMINEMONO METHYL ETHANOLAMINE - MMEA Content (% Wt.)99 (Minimum)Chemical FormulaCH3NH (C2H4OHSpecific Gravity at 20/20`C.0.939 – 0.943Distillation Range (760 mm/Hg.) : I.B.P.155ºC. (Minimum): D.P.165ºC. (Maximum)Moisture0.2- 0.5%Colour50 APHA (Maximum)Refractive Index at 20`C1.438Viscosity at 20`C13 CPS (Approx.)Flash Point (pmcc)74ºC (Approx.)Equivalent Mass74 -76Cas No.109-83-1
Packing : In 50 Kg. & 210 Kg. M.S./HDPE Drum. also supply Mono Methyl Ethanolamine - MMEA as per customer specification & other Ethanolamines like Triethanolamine & Methyl .
Additional Information:
Product Details:
| Functions | Biocides |
Chronic wounds are often complex, difficult to heal, and may persist for months or years due to underlying disease processes or complications within the healing process.
Treating chronic wounds requires a multifaceted approach in order to address the underlying pathophysiology while promoting healing of the wound.1–4 Before a wound can close, the wound bed status needs to be addressed to assist in creating an environment conducive to tissue repair. This may require 1) removal of nonviable tissue, 2) maintenance of a moisture balance, 3) resolution of any bacterial imbalance, and 4) removal of impediments to healing at the epidermal margins.4 While each of these require attention, concern with bacterial imbalance in the wound bed has lead to the development and commercialization of a variety of antimicrobial products and therapies.
Bacterial imbalance. When wounds fail to heal or are classified as recalcitrant, one of the factors delaying healing that merits consideration is bacterial load in the wound bed and its effect on the tissue repair process.5,6 All chronic wounds are believed to have some level of bacterial bioburden. Depending on the number of organisms, the level of bacteria in the wound bed may be classified as contaminated, colonized, critically colonized, or infected.4,7 Contamination (the presence of organisms in a wound) and colonization (the proliferation of those organisms) are not routinely treated with oral or systemic antibiotics. Once a wound becomes critically colonized (a level of colonization affecting skin cell proliferation and tissue repair), it may progress to a “classic” infection, which may include erythema, cellulitis, edema, and increases in odor, pain, exudate, white blood cell count, and increased body temperature.8
Delayed closure may suggest the formation of an extracellular polysaccharide matrix film or layer (sometimes called a glycocalyx)9 that shields the bacteria from attack while maintaining the moist environment in which they thrive.10 These colonies of bacteria are called biofilms and are produced by Pseudomonas aeruginosa, Klebsiella pneumoniae, Staphylococcus aureus, and E coli, among others. The biofilm makes it difficult to eliminate pathogens by requiring as much as 50–1000 times the minimal inhibitory concentration (MIC) of an antibiotic or antiseptic.10
Clinicians may attempt to address the bacterial imbalance by combining treatment modalities. To address infection in the wound bed systemic or oral antibiotics should be considered the first line of therapy, especially in complicated skin infections with clinical signs of cellulitis, leukocytosis, or fever.11 In conjunction with systemic therapy, there are a number of antimicrobial dressings currently on the market indicated for use on infected wounds. Antimicrobial dressings are comprised of a variety of different base materials to which antimicrobial agents are added. The major purported benefits of these dressings are that they may reduce the presence of pathogens and decrease the risk of infection while creating a wound bed that will readily support the normal sequence of wound repair