nach oben

Journal of Coatings Technology and Research

Erschienen in:

17.11.2016 | Review Paper

Effect pigments for textile coating: a review of the broad range of advantageous functionalization

verfasst von: Boris Mahltig, Jieyang Zhang, Linfei Wu, Daniel Darko, Miriam Wendt, Evelyn Lempa, Maike Rabe, Hajo Haase

Erschienen in: Journal of Coatings Technology and Research | Ausgabe 1/2017

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

The presented review will introduce the use of effect pigments as a powerful tool for the functionalization of textiles. This review starts with a short introduction on the basics of effect pigments and their properties. Subsequently, some principles of effect pigment application onto textiles and the interaction of pigment to binder systems are reported. Different possible functionalizations realized on textiles are presented. Four main types of application are discussed: optical properties, electrical properties, barrier coatings, and antimicrobial applications. Also a view of some prospective anisotropic materials is given. Altogether it is shown that the application of effect pigments can be a powerful tool to realize functional textiles for a broad range of applications in different fields.

Vorheriger Artikel Recent progress of functional coating materials and technologies for polycarbonate

Nächster Artikel Syneresis and rheology mechanisms of a latex-HEUR associative thickener system

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Wißling, P, et al., Metallic Effect Pigments: Fundamentals and Applications. Vincentz Network, Hannover (2006)

Weitzel, J, Maile, FJ, Kieser, M, Gabel, P, Pfaff, G, Special Effect Pigments. Vincentz Network, Hannover (2008)

Maisch, R, Weigand, M, Perlglanzpigmente. Verlag Moderne Industrie, Landsberg/Lech (1991)

Chorro, E, Perales, E, Martinez-Verdu, FM, Campos, J, Pons, A, “Colorimetric and Spectral Evaluation of the Optical Anisotropy of Metallic and Pearlescent Samples.” J. Mod. Opt., 56 1457–1465 (2009)CrossRef

Faulkner, EB, Schwartz, RJ, High Performance Pigments. Wiley, Weinheim (2009)CrossRef

Germer, TA, Nadal, ME, “Modelling the Appearance of Special Effect Pigment Coatings.” Proc. SPIE, 4447 77–86 (2001)CrossRef

Maile, FJ, Pfaff, G, Reynders, P, “Effect Pigments—Past, Present and Future.” Prog. Org. Coat., 54 150–163 (2005)CrossRef

Kerr, S, “Creating Special Effects in Plastics.” Plast. Addit. Compd., 8 40–43 (2006)CrossRef

Debeljak, M, Hladnik, A, Cerne, L, Gregor-Svetec, D, “Use of Effect Pigments for Quality Enhancement of Offset Printed Specialty Papers.” Color Res. Appl., 38 168–176 (2013)CrossRef

10.

Topp, K, Haase, H, Degen, C, Illing, G, Mahltig, B, “Coatings with Metallic Effect Pigments for Antimicrobial and Conductive Coating of Textiles with Electromagnetic Shielding Properties.” J. Coat. Technol. Res., 11 943–957 (2014)CrossRef

11.

Mahltig, B, Darko, D, Günther, K, Haase, H, “Copper Containing Coatings for Metallized Textile Fabrics.” J. Fash. Technol. Text. Eng., 3 (1) 1–10 (2015)

12.

Wißling, P, et al., Metalleffekt-Pigmente. Vincentz Network, Hannover, 2 edition, 2013

13.

Sunchemical (Cincinnati, USA) www.sunpigments.com

14.

BASF (Ludwigshafen, Germany) www.dispersions-pigments.basf.com

15.

Merck (Darmstadt, Germany) www.merck-performance-materials.com

16.

Eckart (Hartenstein, Germany) http://www.eckart.de/

17.

Ostertag, W, “Preparation of Effect Pigments Coated with Metal Oxides.” US patent, 4,552,593, 1985.

18.

Ostertag, W, Schmidt, H, Interference Pigments for Preparing Forgeryproof Documents. US patent, US5573584A, 1992

19.

Schmidt, C, Pfaff, G, Schank C, Schoen, S, Interference Pigments. US patent, US6596070B1, 1997

20.

Cavalcante, PMT, Dondi, M, Guarini, G, Barros, FM, da Luz Benvindo, A, “Ceramic Application of Mica Titania Pearlescent Pigments.” Dyes Pigments, 74 1–8 (2007)CrossRef

21.

Schwarz, S, Endriss, H, “Inorganic Colour Pigments and Effect Pigments—Technical and Environmental Aspects.” Color. Technol., 25 6–17 (1995)CrossRef

22.

Maisch, R, Stahlecker, O, Kieser, M, “Mica Pigments in Solvent Free Coatings Systems.” Prog. Org. Coat., 27 145–152 (1996)CrossRef

23.

Kirchner, E, van den Kleboom, G-J, Njo, L, Super, R, Gottenbos, R, “Observation of Visual Texture of Metallic and Pearlescent Materials.” Color. Res. Appl., 32 256–266 (2007)CrossRef

24.

Bertaux, S, Reynders, P, Schweda, E, “The Reaction of Ceria Coatings on Mica with H₂S: an In Situ X-ray Diffraction Study.” Mater. Res. Bull., 39 793–801 (2004)CrossRef

25.

Pfaff, G, “Perlglanzpigmente.” Chem. unserer Zeit, 31 6–16 (1997)CrossRef

26.

Moini, A, Fuller, DS, Kober, AE, Zimmermann, CJ, Noble Metal Coated Substrate Pigment. US patent, US6517939B1, 1999

27.

Schmid, R, Mronga, N, Multiply Coated Metallic Luster Pigments. US patent, US5624486A, 1994

28.

Anselmann, R, Ambrosius, K, Mathias, M, Effect Pigments Based on Coated Glass Flakes. US patent, US7226503B2, 2001

29.

Müller, B, Schubert, M, “Corrosion Inhibition of Copper and Brass Pigments in Aqueous Alkaline Media by Copolymers.” Prog. Org. Coat., 37 193–197 (1999)CrossRef

30.

Wissling, P, “State-of-the-Art Technology in Aluminium Pigments for Aqueous Paints.” Surf. Coat. Int., 82 335–336 (1999)CrossRef

31.

Kiehl, A, Greiwe, K, “Encapsulated Aluminium Pigments.” Prog. Org. Coat., 37 179–183 (1999)CrossRef

32.

Kirchner, E, “Film Shrinkage and Flake Orientation.” Prog. Org. Coat., 65 333–336 (2009)CrossRef

33.

Wißling, P., Funktionale Effektpigmente für Technische Textilien. Company information of Eckart/Altana (2015)

34.

Diffey, BL, “Sources and Measurement of Ultraviolet Radiation.” Methods, 28 4–13 (2002)CrossRef

35.

Maslowsky, E, “Comparison of the Electromagnetic Spectra of Common Light Sources.” J. Chem. Educ., 90 1488–1492 (2013)CrossRef

36.

MacIssac, D, Kanner, G, Anderson, G, “Basic Physics of the Incandescent Lamp (lightbulb).” Phys. Teach., 37 520–525 (1999)CrossRef

37.

Laxer, H, Safety Inks and Documents. US patent, US3886083A, 1974

38.

Mahltig, B, Haufe, H, Kim, CW, Kang, YS, Gutmann, E, Leisegang, T, Meyer, DC, “Manganese/TiO₂ Composites Prepared and Used for Photocatalytic Active Textiles.” Croat. Chem. Acta, 86 143–149 (2013)CrossRef

39.

Horneck, G, “Quantification of the Biological Effectiveness of Environmental UV Radiation.” J. Photochem. Photobiol. B, 31 43–49 (1995)CrossRef

40.

Brasch, DE, Rudolph, JA, Simon, JA, Lin, A, McKenna, GJ, Baden, HP, Halpern, AJ, Ponten, J, “A Role for Sunlight in Skin Cancer.” Proc. Natl. Acad. Sci. USA, 88 10124–10128 (1991)CrossRef

41.

Cerkova, J, Stipek, S, Crkovska, J, Ardan, T, Platenik, J, Cejka, C, Midelfart, A, “UV Rays, the Prooxidant/Antioxidant Imbalance in the Cornea and Oxidative Eye Damage.” Physiol. Rev., 53 1–10 (2004)

42.

Saravanan, D, “UV Protection Textile Materials.” AUTEX Res. J., 7 53–62 (2007)

43.

Tarbuk, A, Grancaric, AM, Situm, M, Martinis, M, “UV Clothing and Skin Cancer.” Coll. Antropol., 34 179–183 (2010)

44.

Mahltig, B, Böttcher, H, Rauch, K, Dieckmann, U, Nitsche, R, Fritz, T, “Optimized UV Protecting Coatings by Combination of Organic and Inorganic UV Absorbers.” Thin Solid Films, 485 108–114 (2005)CrossRef

45.

Gallas, JM, Medium Incorporating Melanin as an Absorbing Pigment Against Electromagnetic Radiation. US patent, US5112883, 1992

46.

Schieke, SM, Schroeder, P, Krutmann, J, “Cutaneous Effect of Infrared Radiation: From Clinical Observations to Molecular Response Mechanisms.” Photodermatol. Photoimmunol. Photomed., 19 228–234 (2003)CrossRef

47.

Karu, T, “Primary and Secondary Mechanisms of Action of Visible to Near-IR Radiation on Cells.” J. Photochem. Photobiol. B, 49 1–17 (1999)CrossRef

48.

Berdahl, PH, Pigments Which Reflect Infrared Radiation from Fire. US patent, US5811180A, 1994

49.

Gunde, MK, Kunaver, M, “Infrared Reflection–Absorption Spectra of Metal-Effect Coatings.” Appl. Spectrosc., 57 1266–1272 (2003)CrossRef

50.

Levinson, R, Berdahl, P, Akbari, H, “Solar Spectral Optical Properties of Pigments—Part II: Survey of Common Colorants.” Sol. Energy Mater. Sol. Cells, 89 351–389 (2005)CrossRef

51.

Gupta, KK, Nishkam, A, Kasturiya, N, “Camouflage in the Non-Visible Region.” J. Ind. Text., 31 27–42 (2001)CrossRef

52.

Sutter, CR, Petelinkar, RA, Reeves, RE, Infrared Reflective Colored Metallic Compositions. US patent, US6468647B1, 1998

53.

Bendiganavale, AK, Malshe, VC, “Infrared Reflective Inorganic Pigments.” Recent Patents Chem. Eng., 1 67–79 (2008)CrossRef

54.

George, G, Vishnu, VS, Reddy, MIP, “The Synthesis, Characterization and Optical Properties of Silicon Praseodymium Y₆MoO₁₂ Compounds: Environmentally Benign Inorganic Pigments with High NIR Reflectance.” Dyes Pigments, 88 109–115 (2011)CrossRef

55.

Hunter, RS, The Measurement of Appearance. Wiley-IEEE, New York (1987)

56.

Gunde, MK, Kunaver, M, “Infrared Reflection–Absorption Spectra of Metal-Effect Coatings.” Appl. Spectrosc., 57 1266–1272 (2003)CrossRef

57.

Wong, YWV, Yuen, CWM, Leung, MYS, Ku, SKA, Lam, HLI, “Selected Applications of Nanotechnology in Textiles.” AUTEX Res. J., 6 1–8 (2006)

58.

Textor, T, Mahltig, B, “A Sol–Gel Based Surface Treatment for Preparation of Water Repellent Antistatic Textiles.” Appl. Surf. Sci., 256 1668–1674 (2010)CrossRef

59.

Talawar, MB, Agrawal, AP, Wani, DS, Bansode, MK, Gore, GM, “Primary Explosives: Electrostatic Discharge Initiation, Additive Effect and Its Relation to Thermal and Explosive Characteristics.” J. Hazardous Mater., 137 1074–1078 (2006)CrossRef

60.

Wilson, N, “The Risk of Fire or Explosion Due to Static Charges on Textile Clothing.” J. Electrost., 4 67–84 (1977)CrossRef

61.

Warburton, CE, Benischeck, JJ, Antisoiling Treatment for Carpets and Carpet Yarns. US patent, US4081383A

62.

Meoli, D, May-Plumlee, T, “Interactive Electronic Textile Development.” J. Text. Appar. Technol. Manag., 2 1–12 (2002)

63.

Li, T-T, Wang, R, Lou, C-W, Lin, M-C, Lin, J-H, “Manufacture and Effectiveness Evaluations of High-Modulus Electromagnetic Interference Shielding/Puncture Resisting Composites.” Text. Res. J., 83 1796–1807 (2013)CrossRef

64.

Ceken, F, Kayacan, Ö, Özkurt, A, Ugurlu, SS, “The Electromagnetic Shielding Properties of Some Conductive Knitted Fabrics Produced on Single or Double Needle Bed of a Flat Knitting Machine.” J. Text. Inst., 103 968–979 (2012)CrossRef

65.

Wieckowski, TW, Janukiewicz, JM, “Methods for Evaluating the Shielding Effectiveness of Textiles.” Fibers Text. East. Eur., 14 18–22 (2006)

66.

Rattfalt, L, Linden, M, Hult, P, Berglin, L, Ask, P, “Electrical Characteristics of Conductive Yarns and Textile Electrodes for Medical Applications.” Med. Biol. Eng. Comput., 45 1251–1257 (2007)CrossRef

67.

Ortlek, HG, Alpyildiz, T, Kilic, G, “Determination of Electromagnetic Shielding Performance of Hybrid Yarn Knitted Fabrics with Anechoic Chamber Method.” Text. Res. J., 83 90–99 (2013)CrossRef

68.

Calabro, E, Magazu, S, “Monitoring Electromagnetic Field Emitted by High Frequencies Home Utilities.” J. Electromagn. Anal. Appl., 2 1–9 (2010)

69.

Abdul-Razzaq, W, Bushey, RK, “Household Electrosmog.” Am. J. Health Sci., 4 131–135 (2013)

70.

Aniolczyk, H, Koprowska, J, Mamrot, P, Lichawska, J, “Application of Electrically Conductive Textiles as Electromagnetic Shields in Physiotherapy.” Fibres Text. East. Eur., 12 47–50 (2004)

71.

Elvers, H-D, Jandrig, B, Grummich, K, Tannert, C, “Mobile Phones and Health: Media Coverage Study of German Newspapers on Possible Adverse Health Effects of Mobile Phone Use.” Health Risk Soc., 11 165–179 (2009)CrossRef

72.

Wiedemann, PM, Schütz, H, “The Precautionary Principle and Risk Perception: Experimental Studies in the EMF Area.” Environ. Health Perspect., 113 402–405 (2005)CrossRef

73.

Hebeish, AA, Elgamel, MA, Abdelhady, RA, Abdelaziz, AA, “Factors Affecting the Performance of the Radar Absorbant Textile Materials of Different Types and Structures.” Prog. Electromagn. Res. B, 3 219–226 (2008)CrossRef

74.

Huang, C-W, Lee, K-C, “Application of ICA Technique to PCA Based Radar Target Recognition.” Prog. Electromagn. Res., 105 157–170 (2010)CrossRef

75.

Safarova, V, Mility, J, “Electromagnetic Field Shielding Fabrics with Increased Comfort Properties.” Adv. Mater. Res., 677 161–168 (2013)CrossRef

76.

Gashti, MP, Almasian, A, Gashti, MP, “Preparation of Electromagnetic Reflective Wool Using Nano-ZrO₂/citric Acid as Inorganic/Organic Hybrid Coating.” Sens. Actuators A, 187 1–9 (2012)CrossRef

77.

Gashti, MP, Eslami, S, “Structural, Optical and Electromagnetic Properties of Aluminum-Clay Nanocomposites.” Superlattices Microstruct., 51 135–148 (2012)CrossRef

78.

Parvinzadeh, M, Eslami, S, “Optical and Electromagnetic Characteristics of Clay-Iron Oxide Nanocomposites.” Res. Chem. Intermed., 37 771–784 (2011)CrossRef

79.

Gashti, MP, Almasian, A, “Synthesizing Tertiary Silver/Silica/Kaolinite Nanocomposite Using Photo-Reduction Method: Characterization of Morphology and Electromagnetic Properties.” Compos. B, 43 3374–3383 (2012)CrossRef

80.

Gashti, MP, Elahi, A, Gashti, MP, “UV Radiation Inducing Succinic Acid/Silica-Kaolinite Network on Cellulose Fiber to Improve the Functionality.” Compos. B, 48 158–166 (2013)CrossRef

81.

Eckart, Speziell beschichtete Effektpigmente. Technische Textilien 56 64 (2013)

82.

Borkow, G, Gabbay, J, “Copper, An Ancient Remedy Returning to Fight Microbial, Fungal and Viral Infections.” Curr. Chem. Biol., 3 272–278 (2009)

83.

Kim, TN, Feng, QL, Kim, JO, Wu, J, Wang, H, Chen, GC, Cui, FZ, “Antimicrobial Effects of Metal Ions (Ag⁺, Cu²⁺, Zn²⁺) in Hydroxyapatite.” J. Mater. Sci. Mater. Med., 9 129–134 (1998)CrossRef

84.

Mahltig, B, Soltmann, U, Haase, H, “Modification of Algae with Zinc, Copper and Silver Ions for Usage as Natural Composite for Antibacterial Applications.” Mater. Sci. Eng. C, 33 979–983 (2013)CrossRef

85.

Wallhäußer, KH, Praxis der Sterilisation Desinfektion-Konservierung. Georg Thieme Verlag, Stuttgart (1995)

86.

Shrestha, R, Joshi, DR, Gopali, J, Piya, S, “Oligodynamic Action of Silver, Copper and Brass on Enteric Bacteria Isolated from Water of Kathmandu Valley.” Nepal J. Sci. Technol., 10 189–193 (2009)

87.

Kumar, R, Munstedt, H, “Silver Ion Release from Antimicrobial Polyamide/Silver Composites.” Biomaterials, 26 2081–2088 (2005)CrossRef

88.

Borkow, G, Gabbay, J, “Biocidal Textiles Can Help Fight Nosocomial Infections.” Med. Hypotheses, 70 990–994 (2008)CrossRef

89.

Gao, Y, Cranston, R, “Recent Advances in Antimicrobial Treatments of Textiles.” Text. Res. J., 78 60–72 (2008)CrossRef

90.

Blaker, JJ, Nazhat, SN, Boccaccini, AR, “Development and Characterisation of Silver-Doped Bioactive Glass-Coated Sutures for Tissue Engineering and Wound Healing Applications.” Biomaterials, 25 1319–1329 (2004)CrossRef

91.

Haug, S, Roll, A, Schmid-Grendelmeier, P, Johansen, P, Wüthrich, B, Kündig, TM, Senit, G, “Coated Textiles in the Treatment of Atopic Dermatitis.” Curr. Probl. Dermatol., 33 144–151 (2006)CrossRef

92.

Ricci, G, Patrizi, A, Bellini, F, Medri, M, “Use of Textiles in Atopic Dermatitis.” Curr. Probl. Dermatol., 33 127–143 (2006)CrossRef

93.

Gauger, A, Mempel, M, Schekatz, A, Schäfer, T, Ring, J, Abeck, D, “Silver-Coated Textiles Reduce Staphylococcus Aureus Colonization in Patients with Atopic Eczema.” Dermatology, 207 15–21 (2003)CrossRef

94.

Mahltig, B, Haase, H, “Comparison of the Effectiveness of Different Silver-Containing Textile Products on Bacteria and Human Cells.” J Text. Inst., 103 1262–1266 (2012)CrossRef

95.

Haufe, H, Thron, A, Fiedler, D, Mahltig, B, Böttcher, H, “Biocidal Nanosol Coatings.” Surf. Coat. Int. Part B: Coat. Trans., 88 55–60 (2005)CrossRef

96.

Sondi, I, Salopek-Sondi, B, “Silver Nanoparticles as Antimicrobial Agent.” J. Colloid Interface Sci., 275 177–182 (2004)CrossRef

97.

Simoncic, B, Tomsic, B, “Structures of Novel Antimicrobial Agents for Textiles: A Review.” Text. Res. J., 80 1721–1737 (2010)CrossRef

98.

Christensen, FM, Johnston, HJ, Stone, V, Aitken, RJ, Hankin, S, Peters, S, Aschberger, K, “Nano-Silver—Feasibility and Challenges for Human Health Risk Assessment based on Open Literature.” Nanotoxicology, 4 284–295 (2010)CrossRef

99.

Ahamed, M, AlSalhi, MS, Siddiqui, MKJ, “Silver Nanoparticle Applications and Human Health.” Clin. Chim. Acta, 411 1841–1848 (2010)CrossRef

100.

Mahltig, B, Reibold, M, Gutmann, E, Textor, T, Gutmann, J, Haufe, H, Haase, H, “Preparation of Silver Nanoparticles Suitable for Textile Finishing Processes to Produce Textiles with Strong Antibacterial Properties Against Different Bacteria Types.” Z. Naturforsch. B Chem. Sci., 66B 905–916 (2011)CrossRef

101.

Mahltig, B, Natarajan, HS, ElBrini, Q, Wissling, P, Haase, H, “Metallhaltige Beschichtungen auf Textil—Konzepte und Eigenschaften.” TextilPlus, 1 (1/2) 30–33 (2013)

102.

Horrocks, AR, Kandola, BK, Davies, PJ, Zhang, S, Padbury, SA, “Developments in Flame Retardant Texties: A Review.” Polym. Degrad. Stab., 88 3–12 (2005)CrossRef

103.

Mahltig, B, Textor, T, Nanosols and Textiles. World Scientific, Singapore (2008)CrossRef

104.

Gallavardin, S, Lohmann, U, Cziczo, D, “Analysis and Differentiation of Mineral Dust by Single Particle Laser Mass Spectrometry.” Int. J. Mass Spectrosc., 274 56–63 (2008)CrossRef

105.

Grethe, T, Bidu, J, Mahltig, B, Haase, H, “Antimicrobial Finishing of Textiles by Modified Clay Minerals.” Melliand Int., 20 173–174 (2014)

106.

Pribosic, I, Makovec, D, Drofenik, M, “Formation of Nanoneedles and Nanoplatelets of KNbO₃ Perovskite During Templated Crystallization of the Precursor Gel.” Chem. Mater., 17 2953–2958 (2005)CrossRef

107.

Saito, Y, Takao, H, “Synthesis of Polycrystalline Platelike NaNbO₃ Particles.” J. Electroceram., 24 39–45 (2010)CrossRef

108.

Franoombe, MH, Lewis, B, “Structural, Dielectric and Optical Properties of Ferroelectric Lead Metaniobte.” Acta Cryst., 11 696–703 (1958)CrossRef

109.

Miseki, Y, Kato, H, Kudo, A, “Water Splitting into H₂ and O₂ Over Niobate and Titanate Photocatalysts with (111) Plane-Type Layered Perovskite Structure.” Energy Environ. Sci., 2 306–314 (2009)CrossRef

110.

Moon, J, Carasso, ML, Krarup, HG, Kerchner, JA, Adair, JH, “Particle-Shape Control and Formation Mechanisms of Hydrothermally Derived Lead Titanate.” J. Mater. Res., 14 866–875 (1999)CrossRef

111.

Lu, R, Yuan, J, Shi, H, Li, B, Wang, W, Wang, D, Cao, M, “Morphology-Controlled Synthesis and Growth Mechanism of Lead-Free Bismuth Sodium Titanate Nanostructures Via the Hydrothermal Route.” CrystEngComm, 15 3984–3991 (2013)CrossRef

112.

Suyal, G, Colla, E, Gysel, R, Cantoni, M, Setter, N, “Piezoelectric Response and Polarization Switching in Small Anisotropic Perovskite Particles.” Nano Lett., 4 1339–1342 (2004)CrossRef

113.

Ida, S, Ogata, C, Eguchi, M, Youngblood, WJ, Mallouk, TE, Matsumoto, Y, “Photoluminescence of Perovskite Nanosheets Prepared by Exfoliation of Layered Oxides.” J. Am. Chem. Soc., 130 7052–7059 (2008)CrossRef

114.

Kwiecinska, B, Petersen, HI, “Graphite, Semi-Graphite, Natural Coke, and Natural Char Classification-ICCP System.” Int. J. Coal Geol., 57 99–116 (2004)CrossRef

115.

Drzal, LT, Do, I, Conductive Coatings Produced by Monolayer Deposition on Surfaces. US patent, US200802280031A1, 2006

116.

Zheng, W, Wong, S-C, “Electrical Conductivity and Dielectric Properties of PMMA/Expanded Graphite Composites.” Compos. Sci. Technol., 63 225–235 (2003)CrossRef

Titel: Effect pigments for textile coating: a review of the broad range of advantageous functionalization
verfasst von: Boris Mahltig
Jieyang Zhang
Linfei Wu
Daniel Darko
Miriam Wendt
Evelyn Lempa
Maike Rabe
Hajo Haase
Publikationsdatum: 17.11.2016
Verlag: Springer US
Erschienen in: Journal of Coatings Technology and Research / Ausgabe 1/2017
Print ISSN: 1547-0091
Elektronische ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-016-9854-9

Premium Partner

Marktübersichten

Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.

Zur Marktübersicht

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 1/2017

Fabrication, and characterization of polydimethylsiloxane/glycidol-grafted gelatin film

Effects of adding TiO2 nanoparticles to a water-based varnish for wood applied to nine tropical woods of Costa Rica exposed to natural and accelerated weathering

Preparation and stability of aqueous acrylic polyol dispersions for two-component waterborne polyurethane

Effect of heterogeneity on hydro/ice-phobic properties of alkylsilane/fluoro-alkylsilane-based coatings on Al substrates

A smart anticorrosion coating based on hollow silica nanocapsules with inorganic salt in shells

Combined ‘spear and shield’: superhydrophilic antimicrobial and antifouling mesh membrane for efficient oil–water separation through facile and environmentally friendly strategy

Premium Partner

Marktübersichten