SURFACTANTS IN SOLUTION. Amphiphilic Surfactants Amphiphilic surfactants contain a non-polar portion and a polar portion. Aerosol OT.

Slides:

Advertisements

Similar presentations

Membranes membranes are composed of a lipid bilayer and associated proteins ~1/3 of a cell's proteins are directly associated with membranes many soluble.

Advertisements

Tuesday, March 15 th : “A” Day Agenda  Homework questions/problems/collect  Quiz over section 13.3: “Solubility/Dissolving Process”  Section 13.4:

Surface and Interfacial Phenomena

Properties of Solutions

SURFACTANTS IN SOLUTION

PHARMACEUTICAL SUSPENSIONS AND EMULSIONS

“ Surfactants ”. ^^Surfactants^^ Surfactants: are wetting agents that lower the surface tension of a liquid, allowing easier spreading, and lower the.

EMULSIONS Kh Sadique Faisal Asst

PRINCIPLES OF COMPOUNDING

A TIME SAVING GUIDE TO SURFACTANT SELECTION

Solutions Solution: Homogeneous mixture, a mixture in which the components are uniformly intermingled. Solvent: Substance present in the largest amount.

Emulsions and Microemulsions

Surface and Interface Chemistry  Thermodynamics of Surfaces (LG and LL Interfaces) Valentim M. B. Nunes Engineering Unit of IPT 2014.

Emulsions Emulsion suitable for intravenous injection.

EMULSIONS Heterogeneous systems consisting of at least one immiscible liquid phase intimately dispersed throughout a second phase in the form of droplets.

Surfactants – Surface Active Agents (Chapter 4, pp in Shaw) Short chain fatty acids and alcohols are soluble in both water and organic media: These.

Liquid pharmaceutical Preparations

What are the factors that affect the solubility of SDS

Colligative Properties Properties versus Concentration.

Chapter 7: Solutions and Colloids Spencer L. Seager Michael R. Slabaugh Jennifer P. Harris.

Fundamentals of Biochemistry

Chapter 14: Solutions Many of the forces we’ve talked about occur between ions/molecules in solutions Definition: A homogeneous mixture (only one phase)

1 Mixtures Day 1: Chapter 14 Lake Nyos, Cameroon Courtesy of George Kling, page

Properties of Matter Chapter 2 & 8. “Properties of Matter” Matter is anything that has mass and occupies space. –Matter is made of atoms which are the.

Instructor: Rong Cui, phd, 231 Pharmacy Bldg., Topics to be covered: Interfacial phenomena Surfactants Micelles Emulsions Introductions to polymers,

Surfactant Micelles Dr. Aws Alshamsan Department of Pharmaceutics Office: AA87 Tel:

Chapter 15. Interfacial Phenomena

Surface and Interface Chemistry  Emulsions Valentim M. B. Nunes Engineering Unit of IPT 2014.

1 Chapter 7: Solutions and Colloids. 2 SOLUTIONS Solutions are homogeneous mixtures of two or more substances in which the components are present as atoms,

MICELLES Thermodynamically Stable Colloids (Chapter 4, pp in Shaw) In dilute solutions surfactants act as normal solutes. At well defined concentrations,

Micelle A micelle (rarely micella, plural micellae) is an aggregate of surfactant molecules dispersed in a liquid colloid. A typical micelle in aqueous.

Solutions Dr. Muon Hazlett Mandeville High School.

Solutions and Their Properties Chapter 14. Solutions and Their Properties A solution is a homogenous mixture of two or more substances in a single phase.

§8.5 Surfactants and their properties and Applications.

Solutions Aqueous Solutions. Review How do ionic and molecular compounds differ? The molecules in molecular compounds are electrically neutral, covalently.

 Triatomic molecule  Contains covalent bonds  Includes partial positive and partial negative charges  Where do these charges come from?

Solutions. Heterogeneous Mixtures A suspension is a mixture that separates upon standing (oil & vinegar). A colloid is a type of suspension where the.

Adsorption of geses on liquids. Surface-active and surface-inactive substances. Gibbs’s equation, Shyshkovsky’s equations and Langmuir’s equations Plan.

Surfactants Kausar Ahmad

Solutions & Solubility Vocabulary. agitation ___ is the act of stirring, shaking, or mixing.

When will solute and solvent create a solution? Think about the Chromatography Lab! ” Like dissolves like”  H solution =  H 1 +  H 2 +  H 3 What happens.

Solutions Mixtures (Varied Ratio) Homogeneous True Solutions (Soluble) Solubility – Ability to dissolve in solution (aq) See only 1 part Separated by.

What is a Mixture?

Chapter 4 Solubilization by solutions of surfactants

學生 : 陳雅貞日期 : Introduction Polycyclic aromatic hydrocarbons (PAHs) are pollutants of major concern in soils and sediments. Surfactant-enhanced.

MULTIPLE AND MICROEMULSIONS. Emulsion  An emulsion is a thermodynamically unstable system consisting of at least two immiscible liquid phases one of.

Surface and Interfacial Phenomena Presented by the Pharmacist

Solubility and cleaning. Vocabulary Solute- something that gets dissolved Solvent- what the solute dissolves in A solution is a mixture of solute and.

Solution Notes Solution HW OBJECTIVES. HETEROGENEOUS MIXTURES Contain substances that exist in distinct phases. Two types are heterogeneous mixtures are.

§8.5 Properties and Application of surfactants

MULTIPLE EMULSION & SUBMICRON EMULSION

Surfactants Nahed HEGAZY, PhD.

Soap and Detergents.

Chemistry in action…. Or…. Ask your friendly chemist…

8.2 Solutions and Their Characteristics 8.3 The Dissolving Process

Unit 9 -- Solutions.

The Chemistry of Consumer Products Topic 2

Dr. Md Ismail Mouzam, Associate Prof, YBCCPA

Solubility -the ability of one substance to dissolve in another

Experiment (10):Determination of Critical Micelle Concentration (CMC) Theory Surfactants, sometimes called Surface active substances (SAS) are amphiphilic.

§8.5 Surfactants and their properties and Applications

Dissolving Process Polarity

Concentration and Solubility

Physical pharmacy Experiment NO. 3 Surface Active Agents

Hemin J Majeed MSc. Pharmaceutical sciences

NaCl  Na+ + Cl- 1 M 1 M 1 M [Na+] = 1 M [Cl-] = 1 M O O -

Efficient surfactants

Presentation transcript:

SURFACTANTS IN SOLUTION

Amphiphilic Surfactants Amphiphilic surfactants contain a non-polar portion and a polar portion. Aerosol OT

Classification of Surfactants  Anionic  Cationic  Zwitterionic  Nonionic Sodium dodecylsulfate (SDS) Cetylpyridinium bromide Dipalmitoylphosphatidylcholine (lecithin) Polyoxyethylene(4) lauryl ether (Brij 30)

4 nm Unimers Normal micelles spherical cylindrical Bilayer lamella Reverse micelles Inverted hexagonal phase Surfactant Aggregates

Molecular Architecture Aerosol OTSodium dodecylsulfate (SDS)

Surfactant concentration CMC  Critical Micelle Concentration CMC Below CMC only unimers are present Above CMC there are micelles in equilibrium with unimers

Solution Properties Surfactant concentration CMC Concentration unimers micelles Surfactant concentration CMC Osmotic pressure  (Surfactant concentration) 1/2 CMC Molar conductivity 1/R Surfactant concentration CMC I sc Light scattering

Solubilization Spontaneous transfer of a compound insoluble in the bulk solvent into solution due to incorporation into the surfactant micelles polar compound Reverse micelles non-polar compound Normal micelles amphiphilic compound

Solubility Effects Solubility of a poorly soluble compound increases as a result of solubilization in the micelles Surfactant concentration CMC Solubility

HLB and Use of Surfactants HLB ca. 1 to 3.5: Antifoams HLB ca. 3.5 to 8: Water-in-Oil Emulsifiers HLB ca. 7 to 9: Wetting and spreading agents HLB ca. 8 to 16: Oil-in-Water Emulsifiers HLB ca. 13 to 16: Detergents HLB ca. 15 to 40: Solubilizers Amphiphilic surfactants are characterized by the hydrophilic-lipophilic balance (HLB): a relative ratio of polar and non-polar groups in the surfactant

Required HLB Calculate the required HLB for the oil phase of the following o/w emulsion: cetyl alcohol 15 g., white wax 1g. Lanolin 2 g, emulsifier (q.s.), glycerin 5 g. water 100 g. Required HLB Fraction (from reference) Cetyl alcohol15x15/ White wax12x1/180.7 Lanolin10x2/181.1 Total required HLB14.3 HLB needed for emulsification of the oil phase. If there are several oil ingredients the required HLB is calculated as a sum of their respective required HLB multiplied by the fraction of each.

HLB of Surfactant Blend What is the HLB of the mixture of 40 % Span 60 (HLB = 4.7) and 60 % Tween 60 (HLB = 14.9)? HLB of mixture: 4.7 x x 0.6 = 10.8 In what proportion should Span 80 (HLB = 4.3) and Tween 80 (HLB = 15.0) be mixed to obtain “required” HLB of 12.0? 4.3. (1-x) x = 12x = % Tween 80 and 28 % Span 80 Surfactant blends are commonly used to obtain desired emulsifying properties.