Advanced search
Publication Cover
Journal of Dispersion Science and Technology Volume 39, 2018 - Issue 6
Submit an article Journal homepage
1,878
Views
29
CrossRef citations to date
0
Altmetric
Original Articles

A Review on the Mechanism of Pigment Dispersion

Christiana AgboKey Laboratory of Eco-Textile, Jiangnan University, Ministry of Education, Wuxi, Jiangsu, ChinaCorrespondence[email protected]
,
Wizi JakpaKey Laboratory of Eco-Textile, Jiangnan University, Ministry of Education, Wuxi, Jiangsu, China
,
Bismark SarkodieKey Laboratory of Eco-Textile, Jiangnan University, Ministry of Education, Wuxi, Jiangsu, China
,
Andrews BoakyeKey Laboratory of Eco-Textile, Jiangnan University, Ministry of Education, Wuxi, Jiangsu, China
&
Shaohai FuKey Laboratory of Eco-Textile, Jiangnan University, Ministry of Education, Wuxi, Jiangsu, China
Pages 874-889 | Received 07 Aug 2017, Accepted 14 Nov 2017, Published online: 08 Dec 2017

References

  • Švara Fabjan, E.; Otoničar, M.; Gaberšček, M.; Škapin, A. S. Surface Protection of an Organic Pigment based on a Modification Using a Mixed-Micelle System. Dyes and Pigm. 2016, 127, 100–109.
  • Badgujar, N. P., Bhoge, Y. E.; Deshpande, T. D.; Bhanvase, B. A.; Gogate, P. R.; Sonawane, S. H.; Kulkarni, R. D. Ultrasound Assisted Organic Pigment Dispersion: Advantages of Ultrasound Method Over Conventional Method. Pigm. Resin Technol. 2015, 44(4), 214–223.
  • Chen, L.; Bao, Z.; Fu, Z.; Li, W. Preparation of Pigment Dispersion Resin and Stable Colour Paste. Pigm. Resin Technol. 2015, 44(4), 193–197.
  • Farrokhpay, S. A Review of Polymeric Dispersant Stabilisation of Titania Pigment. Adv. Colloid Interface Sci. 2009, 151(1–2), 24–32.
  • Dong, J.; Chen, S.; Corti, D. S.; Franses, E. I.; Zhao, Y.; Ng, H. T.; Hanson, E. Effect of Triton X-100 on the Stability of Aqueous Dispersions of Copper Phthalocyanine Pigment Nanoparticles. J. Colloid Interface Sci. 2011, 362(1), 33–41.
  • Mihelčič, M.; Jerman, I.; Orel, B. Preparation of Electrochromic Ni1 − xO and TiO2 Coatings from Pigment Dispersions and Their Application in Electrochromic Foil Based Devices. Prog. Org. Coat. 2013, 76(12), 1752–1755.
  • Wu, H.-T.; Ding, C.-C.; Chen, K.-J. Preparation of Monodispersed PMMA Particles and Composite Particles Containing Pigment Green 36 by Dispersion Polymerization. J. Taiwan Inst. Chem. Eng. 2013, 44(4), 691–699.
  • Kigle-Boeckler, G. Fundamentals of the Dispersion Process and Characterization of Coating Marterials Using Different Types of Dispersion Equipment In Surface Phenomena and Additives in Water-Based Coatings and Printing Technology, Sharma, M. K., Ed.; Springer US: Boston, MA, 1991. pp. 255–268.
  • Luwei, F.; Mingxing, Y. In Situ Resonance Raman Spectra of Organic Pigments in Momo Coral. J. China Univ. Geosci. 2008, 19(2), 146–151.
  • Sis, H.; Birinci, M. Wetting and Rheological Characteristics of Hydrophobic Organic Pigments in Water in the Presence of Non-Ionic Surfactants. Colloids Surf., A. 2014, 455, 58–66.
  • Cheng, W. T.; Hsu, C. W.; Chih, Y. W. Dispersion of Organic Pigments Using Supercritical Carbon Dioxide. J. Colloid Interface Sci. 2004, 270(1), 106–112.
  • Hakeim, O. A.; Arafa, A. A.; Zahran, M. K.; Abdou, L. A. W. UV-Curable Encapsulation of Surface—Modified Organic Pigments for Inkjet Printing of Textiles. Colloids Surf., A. 2014, 447, 172–182.
  • Lewis, P. A. Colored Organic Pigments A2 - Craver, Clara D. In Applied Polymer Science: 21st Century, Carraher, C. E., ed.; Pergamon: Oxford, 2000. pp. 493–526.
  • Herbst, W.; Hunger, K. Industrial Organic Pigments: Production, Properties, Applications; John Wiley & Sons, 2006.
  • Liu, L., Han, A.; Ye, M.; Feng, W. The Evaluation of Thermal Performance of Cool Coatings Colored with High Near-Infrared Reflective Nano-Brown Inorganic Pigments: Magnesium doped ZnFe2O4 compounds. Sol. Energy. 2015, 113, 48–56.
  • Sarasamma Vishnu, V.; Lakshmipathi Reddy, M. Near-Infrared Reflecting Inorganic Pigments Based on Molybdenum and Praseodymium Doped Yttrium Cerate: Synthesis, Characterization and Optical Properties. Sol. Energy Mater. Sol. Cells. 2011, 95(9), 2685–2692.
  • Lin, L. Mechanisms of Pigment Dispersion. Pigm. Resin Technol. 2003, 32(2), 78–88.
  • Troy Corp’s Wetting and Dispersing Additive. Focus on Surfactants. 2015, 2015(4), 4.
  • Zhang, Y., Fei, X.; Yu, L.; Cao, L.; Zhang, B. Preparation and Characterisation of Silica Supported Organic Hybrid Pigments. Pigm. Resin Technol. 2014, 43(6), 325–331.
  • Greenwood, P. Modified Silica Sols: Titania Dispersants and Co‐Binders for Silicate Paints. Pigm. Resin Technol. 2010, 39(6), 315–321.
  • Yufei, X., Kezhong, W.; Chaoxia, W.; Kashif, J.; Shaohai, F.; Anli, T. Comparative Analysis of Ultra-Fine Fluorescent Disperse Dye Paste and its Stability with Naphthalene Sulphonic Derivative Dispersant. Pigm. Resin Technol. 2013, 42(6), 406–410.
  • He, M.; Addai-Mensah, J.; Beattie, D. The Influence of Polymeric Dispersants on Sericite–Chalcocite Particle Interactions in Aqueous Media. Chem. Eng. J. 2009, 152(2–3), 471–479.
  • Nsib, F.; Ayed, N.; Chevalier, Y. Selection of Dispersants for the Dispersion of C.I. Pigment Violet 23in Organic Medium. Dyes Pigm. 2007, 74(1), 133–140.
  • Peymannia, M.; Soleimani-Gorgani, A.; Ghahari, M.; Jalili, M. The Effect of Different Dispersants on the Physical Properties of Nano CoAl2O4 Ceramic Ink-Jet Ink. Ceram. Int. 2015, 41(7), 9115–9121.
  • Buhmann, S. Y.; Welsch, D.-G. Dispersion Forces in Macroscopic Quantum Electrodynamics. Prog. Quantum Electron. 2007, 31(2), 51–130.
  • Israelachvili, J. N. Chapter 13 - Van der Waals Forces between Particles and Surfaces, in Intermolecular and Surface Forces, 3rd ed.; Academic Press: San Diego, 2011, 253–289.
  • Witko, E. M.; Buchanan, W. D.; Korter, T. M. The Importance of London Dispersion Forces in Crystalline Magnesium Nitrate Hexahydrate. Inorg. Chim. Acta. 2012, 389, 176–182.
  • Schmitz, J.; Frommelius, H.; Pegelow, U.; Schulte, H. G.; Höfer, R. A New Concept for Dispersing Agents in Aqueous Coatings. Prog. Org. Coat. 1999, 35(1), 191–196.
  • Müller, F.; Peukert, W.; Polke, R.; Stenger, F. Dispersing Nanoparticles in Liquids. Int. J. Miner. Process. 2004, 74(Supplement), S31–S41.
  • Gruneman, H. Trends in Pigment Preparations. Pigm. Resin Technol. 1986, 15(2), 4–5.
  • Giúdice, C. A.; Benítez, J. C. Pigment Dispersion Degree and its Evolution in Storage. Pigm. Resin Technol. 1998, 27(5), 298–303.
  • Jadhav, S. A.; Bongiovanni, R.; Marchisio, D. L.; Fontana, D.; Egger, C. Surface Modification of Iron Oxide (Fe2O3) Pigment Particles With Amino-Functional polysiloxane for Improved Dispersion Stability and Hydrophobicity. Pigm. Resin Technol, 2014, 43(4), 219–227.
  • Daplyn, S.; Lin, L. Evaluation of Pigmented Ink Formulations for Jet Printing onto Textile Fabrics. Pigm. Resin Technol. 2003, 32(5), 307–318.
  • Korayem, A. H.; Barati, M. R.; Chen, S. J.; Simon, G. P.; Zhao, X. L.; Duan, W. H. Optimizing the Degree of Carbon Nanotube Dispersion in a Solvent for Producing Reinforced Epoxy Matrices. Powder Technol. 2015, 284, 541–550.
  • Yang, Y.-J.; Kelkar, A. V.; Zhu, X.; Bai, G.; Ng, H. T.; Corti, D. S.; Franses, E. I. Effect of Sodium Dodecylsulfate Monomers and Micelles on the Stability of Aqueous Dispersions of Titanium Dioxide Pigment Nanoparticles Against Agglomeration and Sedimentation. J. Colloid Interface Sci. 2015, 450, 434–445.
  • Hakeim, O. A., Fan, Q.; Kim, Y. K. Encapsulation of Pigment Red 122 into UV‐Curable Resins via a Mini‐Emulsion Technique. Pigm. Resin Technol. 2010, 39(1), 3–8.
  • Chakvattanatham, K.; Phattanarudee, S.; Kiatkamjornwong, S. Anionically Surface‐Modified Pigment/Binder Ink Jet Inks for Silk Fabric Printing. Pigm. Resin Technol. 2010, 39(6), 327–341.
  • Hayashi, K.; Morii, H.; Iwasaki, K.; Horie, S.; Horiishi, N.; Ichimura, K. Uniformed Nano-Downsizing of Organic Pigments through Core–Shell Structuring. J. Mater. Chem. 2007, 17(6), 527–530.
  • Montalescot, V.; Rinaldi, T.; Touchard, R.; Jubeau, S.; Frappart, M.; Jaouen, P.; Bourseau, P.; Marchal, L. Optimization of Bead Milling Parameters for the Cell Disruption of Microalgae: Process Modeling and Application to Porphyridium Cruentum and Nannochloropsis Oculata. Bioresour. Technol. 2015, 196, 339–346.
  • Farrokhpay, S. A Review of Polymeric Dispersant Stabilisation of Titania Pigment. Adv. Colloid Interface Sci. 2009, 151(1), 24–32.
  • Schwartz, S. A.; Lee, S. J.; Chan, A. The Use of Comb-Branched Copolymers as Pigment Dispersants. in NIP & Digital Fabrication Conference. Society for Imaging Science and Technology, 2003.
  • Brown, T. J.; Stewart, K.; Duraisamy, T. Curable Acrylate Based Printing Medium, Google Patents, 2014.
  • Alexandrova, L.; Grigorov, L.; Khristov, K.; Petkova, H. Effects of pH on Wetting Behavior of ‘Star-Like’ Block Copolymer Surfactant Solutions. Colloids Surf., A. 2016, 519, 78.
  • Järnström, J.; Väisänen, M.; Lehto, R.; Jäsberg, A.; Timonen, J.; Peltonen, J. Effect of Latex on Surface Structure and Wetting of Pigment Coatings. Colloids Surf., A. 2010, 353(2), 104–116.
  • Ray, D. T.; Hogg, R. Agglomerate Breakage in Polymer-Flocculated Suspensions. J. Colloid Interface Sci. 1987, 116(1), 256–268.
  • Tsutsumi, A.; Yoshida, K.; Yui, M.; Kanamori, S.; Shibata, K. Shear Viscosity Behavior of Flocculated Suspensions. Powder Technol. 1994, 78(2), 165–172.
  • Rai, S.; Lokhandwala, S. Chapter 9 - Important Aspects Involved in Pilot Scale Production of Modern Paints and Coatings A2 - Tiwari, Atul. In Intelligent Coatings for Corrosion Control, Rawlins, J., Hihara, L. H., Eds.; Butterworth-Heinemann: Boston, 2015. pp. 335–361.
  • Zhang, Q.; Wu, J.; Gao, L.; Liu, T.; Zhong, W.; Sui, G.; Zheng, G.; Fang, W.; Yang, X. Dispersion Stability of Functionalized MWCNT in the Epoxy–Amine System and its Effects on Mechanical and Interfacial Properties of Carbon Fiber Composites. Mater. Des. 2016, 94, 392–402.
  • Saindane, P.; Jagtap, R. N. RAFT Copolymerization of Amphiphilic Poly (ethyl acrylate-b-acrylic acid) as Wetting and Dispersing Agents for Water Borne Coating. Prog. Org. Coat. 2015, 79, 106–114.
  • Exerowa, D., et al. Foam and wetting films: electrostatic and steric stabilization. Advances in Colloid and Interface Science, 2003, 104, (1–3): 1–24.
  • Gochev, G.; Retzlaff, I.; Exerowa, D.; Miller, R. Electrostatic Stabilization of Foam Films from β-lactoglobulin Solutions. Colloids Surf., A. 2014, 460, 272–279.
  • Hang, J.; Shi, L.; Feng, X.; Xiao, L. Electrostatic and Electrosteric Stabilization of Aqueous Suspensions of Barite Nanoparticles. Powder Technol. 2009, 192(2), 166–170.
  • Zhang, B.; Dong, X.; Yu, D.; He, J. Stabilization Mechanisms of C.I. Disperse Red 60 Dispersions in the Presence of its Dye–Polyether Derivatives. Colloids Surf., A. 2012, 405, 65–72.
  • Wiśniewska, M.; Terpiłowski, K.; Chibowski, S.; Urban, T.; Zarko, V. I.; Gun’ko, V. M. Investigation of Stabilization and Destabilization Possibilities of Water Alumina Suspension in Polyelectrolyte Presence. Int. J. Miner. Process. 2014, 132, 34–42.
  • Ettelaie, R.; Holmes, M.; Chen, J.; Farshchi, A. Steric Stabilising Properties of Hydrophobically Modified Starch: Amylose vs. Amylopectin. Food Hydrocolloids. 2016, 58, 364–377.
  • Chiu, G. N. C.; Bally, M. B.; Mayer, L. D. Selective Protein Interactions with Phosphatidylserine Containing Liposomes Alter the Steric Stabilization Properties of Poly(ethylene glycol). Biochimica et Biophysica Acta (BBA) – Biomembranes. 2001, 1510(1–2), 56–69.
  • Wipf, P.; Skoda, E. M.; Mann, A. Chapter 11 - Conformational Restriction and Steric Hindrance in Medicinal Chemistry A2 - Wermuth, Camille Georges. In The Practice of Medicinal Chemistry, 4th ed.; Aldous, D., Raboisson, Rognan, D., eds.; Academic Press: San Diego, 2015. pp. 279–299.
  • Mendoza, C.; González, Z.; Castro, Y.; Gordo, E.; Ferrari, B. Improvement of TiN Nanoparticles EPD Inducing Steric Stabilization in Non-Aqueous Suspensions. J. Eur. Ceram. Soc. 2016, 36(2), 307–317.
  • Chong, J. Y. T.; Mulet, X.; Boyd, B. J.; Drummond, C. J. Chapter Five - Steric Stabilizers for Cubic Phase Lyotropic Liquid Crystal Nanodispersions (Cubosomes). In Advances in Planar Lipid Bilayers and Liposomes, Aleš Iglič, C. V. K., Michael, R., eds.; Academic Press, 2015. pp. 131–187.
  • Stojanović, M.; Aleksić, J.; Baranac-Stojanović, M. The Effect of Steric Repulsion on the Torsional Potential of n-butane: A Theoretical Study. Tetrahedron. 2015, 71(32), 5119–5123.
  • Richez, A. P.; Yow, H. N.; Biggs, S.; Cayre, O. J. Dispersion Polymerization in Non-Polar Solvent: Evolution Toward Emerging Applications. Prog. Polym. Sci. 2013, 38(6), 897–931.
  • Anaf, W.; Schalm, O.; Janssens, K.; Wael, K. D. Understanding the (in)stability of Semiconductor Pigments by a Thermodynamic Approach. Dyes Pigm. 2015, 113(Supplement C), 409–415.
  • Tang, Y.; Wu, C.; Song, Y.; Zheng, Y.; Zhao, K. Effects of Colouration Mechanism and Stability of CoAl2O4 Ceramic Pigments Sintered on Substrates. Ceram. Int. 2018, 44(1), 1019–1025.
  • Zubielewicz, M.; Kamińska-Tarnawska, E.; Ślusarczyk, A.; Langer, E. Prediction of Heat Build-Up of Solar Reflecting Coatings Based on Physico-Chemical Properties of Complex Inorganic Colour Pigments (CICPs). Prog. Org. Coat. 2011, 72(1), 65–72.
  • Loye, K. T. “Infrared Reflective Complex Inorganic Color Pigments”, in 65th Porcelain Enamel Institute Technical Forum: Ceramic Engineering and Science Proceedings, John Wiley & Sons, Inc. 15–22, 2008.
  • Heubach Expands Manufacturing Facilities for Complex Inorganic Colour Pigments. Addit. Polym. 2016, 2016(10), 5–6.
  • White, J. Complex Inorganic Color Pigments: An Overview, in High Performance Pigments; Wiley-VCH Verlag GmbH & Co. KGaA, 2009. 41–52.
  • Hakeim, O. A.; Diab, H. A.; Adams, J. Preparation and Characterization of UV Curable-Encapsulated Phthalocyanine Blue Pigment. Prog. Org. Coat. 2015, 84(Supplement C), 70–78.
  • Sun, Y.; Wang, Y.; Zhitomirsky, I. Dispersing Agents for Electrophoretic Deposition of TiO2 and TiO2–Carbon Nanotube Composites. Colloids Surf., A. 2013, 418, 131–138.
  • Żołek-Tryznowska, Z. 4 - Additives for Ink Manufacture A2 - Izdebska, Joanna. In Printing on Polymers, Thomas, S. Ed.; William Andrew Publishing, 2016. pp. 57–66.
  • Hao, L.; Li, J.; Xu, X.; Ren, T. Preparation and Tribological Properties of a Kind of Lubricant Containing Calcium Borate Nanoparticles as Additives. Ind. Lubr. Tribol. 2012, 64(1), 16–22.
  • Peng, D.-X.; Kang, Y. Preparation of SiO2 Nanoparticles and Investigation of its Tribological Behavior as Additive in Liquid Paraffin. Ind. Lubr. Tribol. 2014, 66(6), 662–670.
  • Silber, S.; Reuter, E.; Stüttgen, A.; Albrecht, G. New Concepts for the Synthesis of Wetting and Dispersing Additives for Water-Based Systems. Prog. Org. Coat. 2002, 45(2–3), 259–266.
  • Knott, W.; Lehmann, K.; Silber, S. Use of Organofunctionally Modified Polysiloxanes Containing Phenyl Derivatives as Dispersants and Wetting Agents for Fillers and Pigments in Aqueous Pigment Pastes and Ink or Paint Formulations, Google Patents, 2006.
  • Susana, L.; Campaci, F.; Santomaso, A. C. Wettability of Mineral and Metallic Powders: Applicability and Limitations of Sessile Drop Method and Washburn’s Technique. Powder Technol. 2012, 226, 68–77.
  • Czachor, H. Applicability of the Washburn Theory for Determining the Wetting Angle of Soils. Hydrol. Processes. 2007, 21(17), 2239–2247.
  • Albrecht, K.; Kocur, J. Defoamer for liquid wetting agents and low-foam liquid plant protection agents. Google Patents, 1994.
  • Song, E. M.; Kim, D. W.; Lim, J. C. Effect of Adsorption of Laureth Sulfonic Acid Type Anionic Surfactant on the Wetting Property of CaCO3 Substrate. J. Ind. Eng. Chem. 2015, 28, 351–358.
  • Yunita, P.; Irawan, S.; Kania, D. Optimization of Water-based Drilling Fluid Using Non-ionic and Anionic Surfactant Additives. Procedia Eng. 2016, 148, 1184–1190.
  • Dowdy, G. R.; Barton, P. I. Using Semidefinite Programming to Calculate Bounds on Particle Size Distributions. Chem. Eng. Sci. 2017, 171(Supplement C), 599–613.
  • Zhang, L.; Zhao, Y. Y. Particle Size Distribution of Tin Powder Produced by Centrifugal Atomisation Using Rotating Cups. Powder Technol. 2017, 318(Supplement C), 62–67.
  • Norori-McCormac, A.; Brito-Parada, P. R.; Hadler, K.; Cole, K.; Cilliers, J. J. The Effect of Particle Size Distribution on Froth Stability in Flotation. Sep. Purif. Technol. 2017, 184(Supplement C), 240–247.
  • Fiuza, T. E. R.; Borges, J. F. M.; Cunha, J. B. M. D.; Regina, S.; Antunes, M.; Andrade, A. V. C.; Antunes, A. C.; Souza, E. C. F. Iron-Based Inorganic Pigments from Residue: Preparation and Application in Ceramic, Polymer, and Paint. Dyes Pigm. 2018, 148(Supplement C), 319–328.
  • de Moura, S. C. S. R.; Berling, C. L.; Germer, S. P. M.; Alvim, I. D.; Hubinger, M. D.. Encapsulating Anthocyanins from Hibiscus Sabdariffa L. Calyces by Ionic Gelation: Pigment Stability During Storage of Microparticles. Food Chem. 2018, 241(Supplement C), 317–327.
  • Chadwick, S. J. F.; Blackwell, J. J.; Dutson, J. D.; O’Grady, K. Magnetic Viscosity in Advanced Metal Particle Pigments. J. Magn. Magn. Mater. 2005, 290–291(Part 1), 134–137.
  • Gómez-Arellano, A.; Jiménez-Islas, H.; Castrejón-González, E. O.; Medina-Torres, L.; Dendooven, L.; Escamilla-Silva, E. M. Rheological Behaviour of Sesame (Sesamum indicum L.) Protein Dispersions. Food Bioprod. Process. 2017, 106(Supplement C), 201–208.
  • Fu, S.; Zhang, K.; Zhhang, M.; Tian, L. Encapsulated Phthalocyanine Blue Pigment with Polymerisable Dispersant for Inkjet Printing Inks. Pigm. Resin Technol. 2012, 41(1), 3–8.
  • Li, M.; Song, K.; Xie, K.; Hou, A. Crystal Morphology, Dispersing Stability and Dyeing Property of the Disperse Dye Based on Benzisothiazole. Pigm. Resin Technol. 2014, 43(6), 365–370.
  • Prajapati, D. R. A New Approach to Monitor the Process Dispersion. Int. J. Qual. Reliab. Manage. 2011, 28(3), 280–297.
  • Gunde, M. K. e.; Orel, Z .C.; Hutchins, M. G. The Influence of Paint Dispersion Parameters on the Spectral Selectivity of Black-Pigmented Coatings. Sol. Energy Mater. Sol. Cells. 2003, 80(2), 239–245.
  • Beinert, S.; Fragnière, G.; Schilde, C.; Kwade, A. Analysis and Modelling of Bead Contacts in Wet-Operating Stirred Media and Planetary Ball Mills with CFD–DEM Simulations. Chem. Eng. Sci. 2015, 134, 648–662.
  • Schmidt, R.; Fuhrmann, S.; Wondraczek, L.; Stolle, A. Influence of Reaction Parameters on the Depolymerization of H2SO4-Impregnated Cellulose in Planetary Ball Mills. Powder Technol., 2016, 288, 123–131.
  • McKeen, L. W. 5 - Pigments, Fillers, and Extenders, in Fluorinated Coatings and Finishes Handbook (2nd Edn); William Andrew Publishing: Oxford, 2016. 83–106.
  • Francis, L. F.; Roberts, C. C. Chapter 6 - Dispersion and Solution Processes, in Materials Processing; Academic Press: Boston, 2016. 415–512.
  • Peymannia, M.; Soleimani-Gorgani, A.; Ghahari, M.; Najafi, F. Production of a Stable and Homogeneous Colloid Dispersion of Nano CoAl2O4 Pigment for Ceramic Ink-Jet Ink. J. Eur. Ceram. Soc. 2014, 34(12), 3119–3126.
  • Xiao, B.; Wu, H.; Guo, S. Regulating the Properties of C.I. Pigment Red 170 by Surface Modification via Hydrous Alumina. Dyes and Pigm. 2016, 127, 87–93.
  • Mahmoud, H. R. Highly Dispersed Cr2O3–ZrO2 Binary Oxide Nanomaterials as Novel Catalysts for Ethanol Conversion. J. Mol. Catal. A: Chem. 2014, 392, 216–222.
  • Bilgili, E.; Hamey, R.; Scarlett, B. Nano-Milling of Pigment Agglomerates Using a Wet Stirred Media Mill: Elucidation of the Kinetics and Breakage Mechanisms. Chem. Eng. Sci. 2006, 61(1), 149–157.
  • Díaz-Flores, L. L.; Pérez-Bueno, J. J.; Espinoza-Beltrán, F. J.; Pérez-Robles, J. F.; Ramírez-Bon, R.; Vorobiev, Y. V.; González-Hernández, J. Effect of Gelation and Ball Milling on the Optical Absorption and Emission of Macrilon Yellow Dye Molecules Trapped in Silica Prepared by the Sol–Gel Method. Microelectron. Eng. 2000, 51–52, 659–666.
  • Pilloni, M.; Nicolas, J.; Marsaud, V.; Bouchemal, K.; Frongia, F.; Scano, A.; Ennas, G.; Dubernet, C. PEGylation and Preliminary Biocompatibility Evaluation of Magnetite–Silica Nanocomposites obtained by High Energy Ball Milling. Int. J. Pharm. 2010, 401(1–2), 103–112.
  • Yoğurtcuoğlu, E.; Uçurum, M. Surface Modification of Calcite by Wet-Stirred Ball Milling and its Properties. Powder Technol. 2011, 214(1), 47–53.
  • Yüngevis, H.; Ozel, E. Effect of the Milling Process on the Properties of CoFe2O4 Pigment. Ceram. Int. 2013, 39(5), 5503–5511.
  • Mihelčič, M.; Jerman, I.; Orel, B. Preparation of Electrochromic Ni1–xO and TiO2 Coatings from Pigment Dispersions and their Application in Electrochromic Foil Based Devices. Prog. Org. Coat. 2013, 76(12), 1752–1755.
  • Alibakhshi, E.; Ghasemi, E.; Mahdavian, M. The Influence of Surface Modification of Lithium Zinc Phosphate Pigment on Corrosion Inhibition of Mild Steel and Adhesion Strength of Epoxy Coating. J. Sol-Gel Sci. Technol. 2014, 72(2), 359–368.
  • Ghayour, H.; Abdellahi, M.; Bahmanpour, M. Optimization of the High Energy Ball-Milling: Modeling and Parametric Study. Powder Technol. 2016, 291, 7–13.
  • Liu, Z.-j.; Wang, W.-c.; Yang, D.-z.; Wang, S.; Dai, L.-y.; Yang, Z.-y. In Situ Synthesis of AlN Nanoparticles by Solid State Reaction from Plasma Assisted Ball Milling Al and Diaminomaleonitrile Mixture. Ceram. Int. 2016, 42(2, Part B), 3411–3417.
  • Khan, M.; Shahzad, N.; Xiong, C.; Zhao, T. K.; Li, T.; Siddique, F.; Ali, N.; Shahzad, M.; Ullah, H.; Rakha, S. A. Dispersion Behavior and the Influences of Ball Milling Technique on Functionalization of Detonated Nano-Diamonds. Diamond Relat. Mater. 2016, 61, 32–40.
  • Tien, H. N.; Hur, S. H. Synthesis of Highly Durable Sulfur Doped Graphite Nanoplatelet Electrocatalyst by a Fast and Simple Wet Ball Milling Process. Mater. Lett. 2015, 161, 399–403.
  • Zhang, H.; Xu, C.; Xiao, W.; Ameyama, K.; Ma, C. Enhanced Mechanical Properties of Al5083 Alloy with Graphene Nanoplates Prepared by Ball Milling and Hot Extrusion. Mater. Sci. Eng: A. 2016, 658, 8–15.
  • Wolff, M. F. H., Antonyuk, S.; Heinrich, S.; Schneider, G. A. Attritor-Milling of Poly(amide imide) Suspensions. Particuology. 2014, 17, 92–96.
  • Hannora, A. E. Synthesis of Lead–Borate Glasses Using High Energy Ball Milling (attritor). J. Non-Cryst. Solids. 2015, 429, 1–4.
  • Union Process makes Attritors for grinding alumina. Met. Powder Rep. 2014, 69(3), 45.
  • Santhanam, P. R.; Ermoline, A.; Dreizin, E. L. Discrete Element Model for an Attritor Mill with Impeller Responding to Interactions with Milling Balls. Chem. Eng. Sci. 2013, 101, 366–373.
  • von Colbe, J. B.; Bogdanović, B.; Felderhoff, M.; Pommerin, A.; Schüth, F. Recording of Hydrogen Evolution—A Way for Controlling the Doping Process of Sodium Alanate by Ball Milling. J. Alloys Compd. 2004, 370(1), 104–109.
  • Tahara, T.; Imajyo, Y.; Nandiyanto, A. B. D.; Ogi, T.; Iwaki, T.; Okuyama, K. Low-Energy Bead-Milling Dispersions of Rod-Type Titania Nanoparticles and their Optical Properties. Adv. Powder Technol. 2014, 25(5), 1492–1499.
  • Oda, H.; Yoneda, T.; Sakai, T.; Okuyama, Y.; Matsumoto, H. Preparation of Nano-Structured Cathode for Protonic Ceramic Fuel Cell by Bead-Milling Method. Solid State Ionics, 2014, 262, 388–391.
  • Maetz, J. Y.; Douillard, T.; Cazottes, S.; Verdu, C.; Kléber, X. M23C6 Carbides and Cr2N Nitrides in Aged Duplex Stainless steel: A SEM, TEM and FIB Tomography Investigation. Micron 2016, 84, 43–53.
  • Erktan, A.; Legout, C.; De Danieli, S.; Daumergue, N.; Cécillon, L. Comparison of Infrared Spectroscopy and Laser Granulometry as Alternative Methods to Estimate Soil Aggregate Stability in Mediterranean Badlands. Geoderma 2016, 271, 225–233.
  • Sun, X.; Liu, Y.; Li, Y.; Wu, M.; Zhu, D. Simultaneous Measurement of Brown Core and Soluble Solids Content in Pear by On-Line Visible and Near Infrared Spectroscopy. Postharvest Bio. Technol. 2016, 116, 80–87.
  • Sadasivam, S.; Thomas, H. R. Colour and Toxic Characteristics of Metakaolinite–Hematite Pigment for Integrally Coloured Concrete, Prepared from Iron Oxide Recovered from a Water Treatment Plant of an Abandoned Coal Mine. J. Solid State Chem. 2016, 239, 246–250.
  • Tang, Y. H.; Han, C. M.; Bao, Z. K.; Hua, W. Analysis of Apatite Crystals and Their Fluid Inclusions by Synchrotron Radiation X-ray Flourescence Microprobe. Spectrochim. Acta, Part B 2005, 60(4):439–446.
  • Swiler, D. R.; Pigments, Inorganic, in Kirk-Othmer Encyclopedia of Chemical Technology. John Wiley & Sons, Inc, 2000.
  • Chauhan, A. P. S.; Chawla, K. Comparative Studies on Graphite and Carbon Black Powders, and their Dispersions. J. Mol. Liq. 2016, 221, 292–297.
  • Gredilla, A.; Fdez-Ortiz de Vallejuelo, S.; Elejoste, N.; DiegoJuan, A.; Madariaga, M. Non-destructive Spectroscopy Combined with Chemometrics as a Tool for Green Chemical Analysis of Environmental Samples: A Review. TrAC, Trends Anal. Chem. 2016, 76, 30–39.
  • Singh, B. K.; Mercier-Bion, F.; Lefevre, G.; Simoni, E. Effect of Short Chain Aliphatic Carboxylic Acids for Sorption of Uranyl on Rutile Zeta Potential and in Situ ATR-FTIR Studies. J. Ind. Eng. Chem. 2016, 35, 325–331.
  • Pinder, D. N.; Ueleni, T.; Lewis, J. A. Comparison of Diffusion Coefficients Obtained from Ternary Polymer Solutions Using Dynamic Light Scattering and Ultra Centrifugation. J. Mol. Struct. 1996, 383(1–3), 107–115.
  • Wang, T.; Wang, S.; Geng, L.; Fang, Y. Enhancement on Thermal Properties of Paraffin/Calcium Carbonate Phase Change Microcapsules with Carbon Network. Appl. Energy 2016, 179, 601–608.
  • Over, B.; Rathke, B.; Will, S. Investigations on Particle Diffusion in Porous Glass by Angle-Dependent Dynamic Light Scattering. J. Mol. Liq. 2016, 222, 972–980.
  • Klemeshev, S. A.; Petrov, M. P.; Rolich, V. I.; Trusov, A. A.; Voitylov, A. V.; Vojtylov, V. V. Static, Dynamic and Electric Light Scattering by Aqueous Colloids of Diamond. Diamond Relat. Mater. 2016, 69, 177–182.
  • Sim, J. H.; Umh, H. N.; HoShin, H.; Sung, H. K.; Oh, S. Y.; Lee, B.-C.; Selvaraj, R.; Kim, Y. Regeneration of Aged-AgNPs Via Density Gradient Ultracentrifugal Nanoseparation. J. Ind. Eng. Chem. 2014, 20(5), 3157–3162.
  • de Kanter, M.; Meyer-Kirschner, J.; Viell, J.; Mitsos, A.; Kather, M.; Pich, A.; Janzen, C. Enabling the Measurement of Particle Sizes in Stirred Colloidal Suspensions by Embedding Dynamic Light Scattering Into an Automated Probe Head. Measurement 2016, 80, 92–98.
  • Nuasaen, S.; Tangboriboonrat, P. Optical Properties of Hollow Latex Particles as White Pigment in Paint Film. Prog. Org. Coat. 2015, 79, 83–89.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.