Preface xxi Part 1: General Topics 1 1 Lip Biophysical Properties and Characterization Methods for Long-Wear Lipsticks 3 Rebecca Barresi and I-Chien Liao 1.1 Introduction 4 1.2 Overview of Lip Anatomy & Lip Surface Properties 8 1.3 In Vitro Evaluation Methods for Lipsticks 17 1.4 Relation of In Vitro Analysis with Consumer Sensory Testing 25 1.5 Summary 28 2 Effect of Cosmetic Oils on Lipstick Structure and Its Deposit 35 Momoko Suzumeji Shimizu, Yuta Nomura and Hy Si Bui 2.1 Introduction 35 2.2 Types of Natural Waxes, Their Physical Properties and Potential Applications 38 2.

3 Factors Affecting Oil-Wax Structures 41 2.4 Study on Model Oil-Wax System Containing Polyethylene Wax 47 2.5 Results and Discussion 50 2.6 Summary 67 3 UV Curing of Nail Gels by Light Emitting Diode (LED) and Fluorescent (FL) Light Sources 73 Michael J. Dvorchak and Melanie L. Clouser 3.1 Introduction 73 3.2 UV Cure Chemistry 74 3.

3 UV Cure Light Sources: Gallium-Doped Low-Wattage Long Wavelength Fluorescent (FL) Bulbs and Light Emitting Diodes (LEDs) 76 3.4 UV Cure Oxygen Inhibition Issues 80 3.5 Special Considerations for the Use of UV Nail Gel Technology Due to Oxygen Inhibition 81 3.6 How to Formulate a UV-A Cure Nail Gel 85 3.7 Formulation of UV Nail Gels with 100% Solids UV Cure Oligomers and Monomers 89 3.8 Human Nail Mechanical and Surface Free Energy Properties 92 3.9 Adhesion of UV Nail Gel to the Human Nail Plate 97 3.10 Removal of the UV Nail Gel From the Human Nail Plate 99 3.

11 Alternative Uses of UV Cured Nail Gels as a Solution to Remedy Onychomycosis (Toenail Fungus) 99 3.12 UV Cured Nail Gel Safety 103 3.13 Prospects on UV Nail Gels 104 3.14 Summary 105 4 Rheological Properties Influence Tackiness, Application and Performance of Nail Polish/Lacquer Formulations 109 Leidy Nallely Jimenez, Carina D. V. Martínez Narváez, Chenxian Xu, Samantha Bacchi and Vivek Sharma 4.1 Introduction 110 4.2 Typical Ingredients of a Nail Polish Formulation 113 4.

3 Rheological Response of Nail Polishes: Background 116 4.4 Methods for Characterizing Flow Behavior and Applicationto Nail Polishes 120 4.5 Materials: Ingredients of the Twelve Nail Polishes 122 4.6 Results and Discussion 123 4.7 Summary and Conclusions 141 5 Use of Advanced Silicone Materials in Long-Lasting Cosmetics 151 Amar B. Pawar and Benjamin Falk 5.1 Introduction 151 5.2 Adhesion to Skin 152 5.

3 Formulation Strategies for Long-Lasting Cosmetics 157 5.4 Advanced Silicone Materials for Long-Wear Cosmetics 160 5.5 Summary and Prospective Film-Formers for Long-Wear Part 2: Surface Science Aspects 183 6 Advances in the Chemical Structure of the Hair Surface, Surface Forces and Interactions 185 Gustavo S. Luengo and Andrew J. Greaves 6.1 Introduction 185 6.2 Structure of Hair and the Outermost Surface 187 6.3 Chemical and Physical Modifications of the Hair Surface 187 6.

4 Local Physico-Chemical Understanding of the Hair Surface 197 6.5 Macroscopic Understanding of the Chemical Nature of the Hair Surface 203 6.6 Impact of the Hair Chemical Nature on Sensorial and Consumer Benefits 207 6.7 Prospects 208 6.8 Summary 208 7 AFM for Hair Surface Characterisation 215 Steven Breakspear, Bernd Noecker and Crisan Popescu 7.1 Hair Structure 215 7.2 Elements of AFM 217 7.3 The Use of AFM to Characterize the Hair Surface/Cuticle 227 7.

4 Cosmetic Treatment (e.g. Bleaching) as Shown by AFM 237 7.5 Summary 240 8 Atomic Force Microscopy (AFM) as a Surface Characterization Tool for Hair, Skin, and Cosmetic Deposition 245 Norbert Biderman and Hy Si Bui 8.1 Introduction 245 8.2 Atomic Force Microscopy Compared to Other Microscopy Techniques 246 8.3 The Principles of Atomic Force Microscopy 247 8.4 A Brief History of Hair Surface Investigation via Atomic Force Microscopy 249 8.

5 Lateral Force Microscopy (LFM) of the Hair Surface 249 8.6 Adhesion at the Nanoscale via AFM 251 8.7 Elastic Modulus Measurement via AFM 254 8.8 Hair Studies via AFM 256 8.8.1 Nanomechanical Properties of the Hair Surface 256 8.9 Skin Studies via AFM 265 8.10 Summary and Prospects 274 9 Secondary Ion Mass Spectrometry as a Surface Analysis Method for Hair, Skin, and Cosmetics 279 Norbert Biderman 9.

1 Introduction 279 9.2 Secondary Ion Mass Spectrometry (SIMS) 280 9.3 Studying the Skin via TOF-SIMS 290 9.4 Studying the Hair Via TOF-SIMS 295 9.5 Future Prospects 305 Part 3: Wetting and Adhesion Aspects 309 10 Surface Tensiometry Approach to Characterize Cosmetic Products in the Beauty Sector 311 Davide Rossi and Nicola Realdon 10.1 Introduction 312 10.2 Peels 313 10.3 Face Masks 316 10.

4 Serums 325 10.5 Eye Contour Creams 327 10.6 Mascara 329 10.7 Eyeshadows 334 10.8 Lipsticks 336 10.9 Foundation 339 10.10 Anti-Aging Formulations 340 10.11 Summary 348 11 Spreading of Hairsprays on Hair 353 Yashavanth Kamath and Xuemin Chen 11.

1 Introduction 353 11.2 Background on Interaction of Liquid Droplets with Fibers 354 11.3 Materials and Experimental Methods 359 11.4 Results and Discussion 361 11.5 General Observations on the Behavior of Holding Spray on Hair 370 11.6 Shine Spray on One Bleached Hair Fiber 373 11.7 Summary 375 12 Quantification of the Color Transfer from Long-Wear Face Foundation Products: The Relevance of Wettability 379 Joseph V. Badami and Hy Si Bui 12.

1 Introduction 380 12.2 Experiments 381 12.3 Results and Discussion 384 12.4 Summary and Perspectives 396 13 Interaction of Polyelectrolytes and Surfactants on Hair Surfaces. Deposits and their Characterization 401 Gustavo S. Luengo, Eduardo Guzman, Laura Fernández-Peña, Fabien Leonforte, Francisco Ortega and Ramon G. Rubio 13.1 Introduction 402 13.

2 Hair Structure and Its External Surface 403 13.3 Experimental Approaches for the Evaluation of the Deposition of Polyelectrolyte-Surfactant Systems onto Model Surfaces 413 13.4 Theoretical Modelling of Polyelectrolyte-Surfactant Mixtures 430 13.5 Prospects 441 13.6 Summary 441 14 Adhesion Aspect and Film-Forming Properties of Hydrocarbon Polymers-Based Lipsticks 451 Julien Portal, Xavier Schultze, Simon Taupin, Mireille Arnaud-Roux, Jerome Bonnard, Gregoire Naudin, Marc Hely, Hy Bui and Norbert Biderman 14.1 Introduction 452 14.2 Synthesis and Characterization of the Model Oil Compatible Polymers Dispersions 456 14.3 NADs as Film-Formers for Long-Wear, Non-Transfer Lipstick 476 14.

4 Summary and Prospects 480 15 Factors Enhancing Adhesion of Color Cosmetic Products to Skin: The Role of Pigments and Fillers 487 Hubert Lam 15.1 Introduction 488 15.2 Overview of Pigments: Basic Physicochemical Considerations in Long-Wear Color Cosmetics 488 15.3 Factors Affecting Adhesion of Long-Wear Color Cosmetics 510 15.4 Summary and Prospects 534 16 Factors Affecting Cosmetics Adhesion to Facial Skin 543 Zhi Li and Hy Si Bui 16.1 Introduction 543 16.2 Factors Affecting Adhesion to Skin: Skin Substrate Properties 544 16.3 Factors Affecting Adhesion to Skin: Formulation Components 549 16.

4 Factors Affecting Adhesion to Skin: Combination of Film-Formers and Emulsifiers 573 16.5 Summary and Prospects 580 17 Adhesion Aspect in Semi-Permanent Mascara 585 Christopher Pang and Hy Si Bui 17.1 Introduction 585 17.2 Structure of Eyelash and Eye Lid: An Overview 587 17.3 Types of Mascaras 589 17.4 Components in Mascara Formulations 593 17.5 Long-Wear Mascaras 596 17.6 Evaluation Methods for Long-Wear Mascara 598 17.

7 Factors Affecting Adhesion of Mascara on an Eyelash 604 17.8 Removability of Mascara 624 17.9 Summary and Prospects 628 18 Lipstick Adhesion Measurement 635 Caroline Richard 18.1 Introduction 635 18.2 Definition of Adhesion 641 18.3 Sensory Metrology: Subjective Methods 643 18.4 Mechanical Tests: Objective Methods 649 18.5 Correlation Between Sensory and Instrumental Tests 656 18.

6 Summary 659 Acknowledgments 659 References 659 Index 663.