Nanocolloids : a meeting point for scientists and technologists /

Nanocolloids : a meeting point for scientists and technologists /

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Bibliographic Details
Imprint:Amsterdam : Elsevier, 2016.
Description:1 online resource : illustrations
Language:English
Subject:
Nanotechnology.
Nanoscience.
Colloids.
Colloids.
Nanoscience.
Nanotechnology.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11253762
Hidden Bibliographic Details
Other authors / contributors:Rodríguez Abreu, C., editor.
Sánchez Domínguez, M., editor.
ISBN:9780128017586
0128017589
0128015780
9780128015780
Notes:Includes index.
Includes bibliographical references and index.
Print version record.
Other form:Print version: 0128015780 9780128015780
Table of Contents:
  • Machine generated contents note: 1.1.What Is a Nanocolloid? / C. Rodriguez-Abreu
  • 1.2.Nanocolloids As Dynamic Systems / C. Rodriguez-Abreu
  • 1.3.There Are Different Kinds of Interactions in Nanocolloids / C. Rodriguez-Abreu
  • 1.3.1.Van der Waals Interactions / C. Rodriguez-Abreu
  • 1.3.2.Electrostatic Interaction / C. Rodriguez-Abreu
  • 1.3.3.Elastic-Steric Interaction / C. Rodriguez-Abreu
  • 1.3.4.Hydrophobic Interaction (Lewis Acid-Base) / C. Rodriguez-Abreu
  • 1.3.5.Solvation or Hydration Interaction / C. Rodriguez-Abreu
  • 1.3.6.Osmotic Repulsion / C. Rodriguez-Abreu
  • 1.3.7.Depletion Interaction / C. Rodriguez-Abreu
  • 1.3.8.Magnetic Interaction / C. Rodriguez-Abreu
  • 1.4.The Stability of Nanocolloids Can Be Forecasted / C. Rodriguez-Abreu
  • 1.5.Characterizing Nanocolloidal Stability: Common Experimental Methods / C. Rodriguez-Abreu
  • 1.6.Summary and Outlook / C. Rodriguez-Abreu
  • Nomenclature / C. Rodriguez-Abreu
  • Subscripts / C. Rodriguez-Abreu
  • Greek Letters / C. Rodriguez-Abreu
  • Others / C. Rodriguez-Abreu
  • References / C. Rodriguez-Abreu
  • Other Bibliography on Colloids / C. Rodriguez-Abreu
  • 2.1.Introduction / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.2.Optical Properties of Plasmonic Nanoparticles / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.3.Modeling Optical Properties / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.3.1.Analytical Methods / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.3.2.Numerical Methods / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.3.3.Plasmon Hybridization Model / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.4.Synthesis of Plasmonic Nanoparticles with Morphology Control / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.4.1.Aqueous Medium / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.4.2.Nonaqueous Medium / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.4.3.Biogenic Methods / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.4.4.Core[-]Shells and Alloys Between Plasmonic Noble Metals / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.Surface Modification / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.1.Ligand Exchange Through Thiols / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.2.Silica Coating / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.3.Titania Coating / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.4.Polymer Coating / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.5.5.Bioconjugation / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.6.Applications / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.6.1.Sensing / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.6.2.Imaging/Diagnostics / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.6.3.Therapy / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.6.4.Theranostics / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 2.7.Conclusions and Outlook / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • References / E. Carbó-Argibay / J. Pérez-Juste / I. Pastoriza-Santos / S. Mourdikoudis
  • 3.1.Introduction / J. Rivas / Y.V. Kolen'ko / M. Bañobre-López
  • 3.2.Properties of Magnetic Colloids / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.1.Introduction / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.2.Magnetic Colloids: Single-Domain Particles / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.3.Magnetization in Thermal Equilibrium: Superparamagnetism / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.4.Magnetization Under Thermal Nonequilibrium Conditions: Magnetic Relaxation / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.5.Magnetic Viscosity / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.6.Field-Cooled and Zero-Field-Cooled Magnetization Measurements at a Low Field / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.2.7.Hysteresis Shift in Interfacial Exchange Anisotropy Systems / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.3.Synthesis of Magnetic Nanocolloids / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.3.1.Coprecipitation / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.3.2.Thermal Decomposition / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.3.3.Hydrothermal Method / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.4.Applications of Colloidal Magnetic Nanoparticles / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.4.1.Introduction / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.4.2.Technological Applications: Ferrofluids / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.4.3.Biomedical Applications / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 3.5.Conclusions and Outlook / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • Acknowledgments / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • References / J. Rivas / M. Bañobre-López / Y.V. Kolen'ko
  • 4.1.Fundamentals of Quantum Dots / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.2.Applications of Quantum Dots / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.2.1.Biomedical Applications / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.2.2.Analytical Applications of QDs: Sensing and Biosensing / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.2.3.Opto-electronic Applications / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.3.Scaling-up the Synthesis of Quantum Dots / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.4.Nanosafety Issues / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 4.5.Conclusions and Outlook / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • Acknowledgments / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • References / M.G.C. Pereira / E.S. Leite / B.S. Santos / A. Fontes / G.A.L. Pereira
  • 5.1.Introduction / J. Esquena / J. Nestor
  • 5.2.Synthesis Methods Based on Sol[-]Gel Processing in Solution / J. Esquena / J. Nestor
  • 5.2.1.Synthesis of Silica NPs by Hydrolysis of Alkoxides / J. Esquena / J. Nestor
  • 5.2.2.Synthesis of TiO2 NPs by Hydrolysis of Alkoxides / J. Esquena / J. Nestor
  • 5.3.Preparation of Silica and TiO2 NP Hydrolyzing Alkoxides in Nanostructured Liquids / J. Esquena / J. Nestor
  • 5.3.1.Synthesis in Microemulsions / J. Esquena / J. Nestor
  • 5.3.2.Synthesis in Nano-emulsions / J. Esquena / J. Nestor
  • 5.4.Preparation of Silica and Titania by Other Methods / J. Esquena / J. Nestor
  • 5.4.1.Preparation of NPs by Ion Exchange Methods / J. Esquena / J. Nestor
  • 5.4.2.Preparation of SiO2 and TiO2 NPs by Vapor Phase Methods / J. Esquena / J. Nestor
  • 5.4.3.Preparation of SiO2 and TiO2 Particles by Mechanochemical Methods / J. Esquena / J. Nestor
  • 5.4.4.Preparation of SiO2 and TiO2 by Hydrothermal/Solvothermal Methods / J. Esquena / J. Nestor
  • 5.4.5.Preparation of SiO2 and TiO2 Particles by Aerosol Methods / J. Esquena / J. Nestor
  • 5.4.6.Redispersion of NPs by Peptization / J. Esquena / J. Nestor
  • 5.5.Properties and Applications / J. Esquena / J. Nestor
  • 5.5.1.Silica NPs / J. Esquena / J. Nestor
  • 5.5.2.Titania NPs / J. Esquena / J. Nestor
  • 5.6.Current Trends and Novel Tendencies / J. Esquena / J.
  • Nestor
  • 5.6.1.Recent Tendencies on the Preparation of Silica NPs / J. Nestor / J. Esquena
  • 5.6.2.Recent Tendencies on TiO2 NPs / J. Nestor / J. Esquena
  • 5.7.Concluding Remarks / J. Nestor / J. Esquena
  • References / J. Nestor / J. Esquena
  • 6.1.Introduction / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.Preparation Methods / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.1.Microemulsion Systems / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.2.Microemulsion Technique / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.3.W/O Microemulsion Method / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.4.O/W Microemulsion Method / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.5.Bicontinuous Microemulsion Method / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.6.Deposition of Catalyst NPs Onto Supports / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.2.7.Synthesis of Ordered Mesoporous Catalysts Using Templates / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.3.Nanocatalysts for Various Applications / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.3.1.Electrocatalysis: Fuel Cells / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.3.2.Production of Fuels and Catalytic Combustion / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.3.3.Production of Chemicals / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 6.4.Concluding Remarks / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-
  • Note continued: References / M. Boutonnet / A. Marinas / V. Montes / R. Suárez-Paris / M. Sánchez-Dominguez
  • 7.1.Introduction / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.2.Solubility / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.Surface Modification and Functionalization / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.1.Mechanical Technique / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.2.Covalent Functionalization / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.3.Noncovalent Functionalization / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.4.Irradiation / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.3.5.Special Cases / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.4.XPS: A Way to Understand the Chemical Environment That Enables Dispersion / R. Rychwalski / L. Licea-Jiménez / M.A. Velasco-Soto / S.A. Pérez-Garcia
  • 7.4.1.Introduction to the XPS Technique / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.4.2.Surface Chemical Analysis by Means of XPS on Functionalized Carbon Nanomaterials / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 7.5.Conclusions / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • References / M.A. Velasco-Soto / S.A. Pérez-Garcia / R. Rychwalski / L. Licea-Jiménez
  • 8.1.Introduction / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / B. Laine / C. Mercader / S. Jestin / R. Rychwalski / L. Licea-Jiménez
  • 8.2.Carbon-Based Polymer Composite Preparation: Critical Issues / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.2.1.Nanotube De-agglomeration and Dispersion in a Polymer / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.2.2.Load Transfer Across the Nanotube[-]Polymer Interface / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.2.3.Nanotube Orientation / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.2.4.Preparation of Carbon PNCs / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.3.Carbon PNC Fibers / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / B. Laine / M.A. Velasco-Soto / S. Jestin / R. Rychwalski / L. Licea-Jiménez / C. Mercader
  • 8.3.1.Melt-Spinning of Carbon PNC Fibers / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.3.2.Case Studies of Melt-Spinning With Different Polymers / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.3.3.Wet-Spinning of Carbon PNC Fibers / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.3.4.Wet-Spinning Studies: Different Polymers / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.4.Surface and Interface Analysis of Carbon-Based Nanocomposites / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.5.An Approach for Engineering Electrical Conductance in Nanocomposites via Electron Tunneling / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.6.Carbon Polymer Nanocomposites: Industrial Applications / J. Alvarez-Quintana / S.A. Pérez-Garcia / B. Laine / C. Mercader / J.A. León-Gil / R. Rychwalski / L. Licea-Jiménez / M.A. Velasco-Soto / S. Jestin
  • 8.6.1.Most Promising Short-term Industrial Applications / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.6.2.Industrial Application Case / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 8.7.Conclusions / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • References / M.A. Velasco-Soto / J.A. León-Gil / J. Alvarez-Quintana / S.A. Pérez-Garcia / L. Licea-Jiménez / C. Mercader / S. Jestin / R. Rychwalski / B. Laine
  • 9.1.Introduction / M. Obiols-Rabasa
  • 9.2.Basics of Scattering / M. Obiols-Rabasa
  • 9.3.Light Scattering / M. Obiols-Rabasa
  • 9.3.1.Dynamic Light Scattering / M. Obiols-Rabasa
  • 9.3.2.Static Light Scattering / M. Obiols-Rabasa
  • 9.3.3.Multiple Scattering / M. Obiols-Rabasa
  • 9.4.Small-Angle X-ray Scattering / M. Obiols-Rabasa
  • 9.4.1.Model-Independent Analyses / M. Obiols-Rabasa
  • 9.4.2.Model-Dependent Analyses / M. Obiols-Rabasa
  • 9.4.3.X-ray Photon Correlation Spectroscopy / M. Obiols-Rabasa
  • 9.5.Small-Angle Neutron Scattering / M. Obiols-Rabasa
  • 9.5.1.Neutron Spin-Echo Spectroscopy / M. Obiols-Rabasa
  • 9.6.Summary and Outlook / M. Obiols-Rabasa
  • Acknowledgments / M. Obiols-Rabasa
  • References / M. Obiols-Rabasa
  • 10.1.The Concept of Microemulsion / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • 10.2.Polymerization in Oil-in-Water, Water-in-Oil, and Bicontinuous Microemulsions / S. Carro / V.M. Ovando-Medina / Tania E. Lara-Ceniceros / M. Rabelero-Velasco
  • 10.3.New Approaches for the Optimized Synthesis of Polymeric Nanoparticles in Nanocolloids / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • 10.4.Reactive Surfactants in Heterophase Polymerization / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • 10.5.Hybrid Core[-]Shell Nanoparticles: Oil-in-Water, Water-in-Oil, and Bicontinuous Microemulsions / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • 10.6.Concluding Remarks / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • References / Tania E. Lara-Ceniceros / M. Rabelero-Velasco / S. Carro / V.M. Ovando-Medina
  • 11.1.Introduction / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.2.Preparation Methods of Nano-emulsions / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.2.1.High-Energy Methods / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.2.2.Low-Energy Methods / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.3.Nano-emulsion Properties and Characterization / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.3.1.Basic Properties of Nano-emulsion / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.3.2.Functional Properties of Nano-emulsions / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.4.Recent Applications of Nano-emulsions in Drug Delivery / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.4.1.Oral Delivery / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.4.2.Parenteral Delivery / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.4.3.Ocular Delivery / D. Morales / M. Horns / M.J. Gartht-Celma / C.
  • Solans
  • 11.4.4.Dermal and Transdermal Delivery / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 11.4.5.Nano-emulsions as Templates for Nanoparticle Preparation / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • References / M.J. Gartht-Celma / C. Solans / D. Morales / M. Horns
  • 12.1.Introduction / H.B. Eral / P. Brown
  • 12.2.Conventional Responses: Temperature, pH, and Electrolyte / H.B. Eral / P. Brown
  • 12.3.CO2 Response / H.B. Eral / P. Brown
  • 12.4.Light Response / H.B. Eral / P. Brown
  • 12.5.Magnetic Response / H.B. Eral / P. Brown
  • 12.6.Electric Response / H.B. Eral / P. Brown
  • 12.7.Enzyme Response / H.B. Eral / P. Brown
  • 12.8.Redox Response / P. Brown / H.B. Eral
  • 12.9.Ultrasound Response / H.B. Eral / P. Brown
  • 12.10.Shear Response / P. Brown / H.B. Eral
  • 12.11.Confinement / H.B. Eral / P. Brown
  • 12.12.Conclusions / P. Brown / H.B. Eral
  • References / H.B. Eral / P. Brown
  • 13.1.Introduction / V.S. Marangoni / J.P. Souza / I.M.M. Paino / P.F.M. Nogueira / V. Zucolotto / J. Cancino-Bernardi
  • 13.2.Safety Testing: From the Bench to Commercialized Nanoproducts / P.F.M. Nogueira / V.S. Marangoni / J.P. Souza / I.M.M. Paino / J. Cancino-Bernardi / V. Zucolotto
  • 13.3.Toxicity of Nanomaterials / P.F.M. Nogueira / V.S. Marangoni / J.P. Souza / I.M.M. Paino / J. Cancino-Bernardi / V. Zucolotto
  • 13.3.1.Toxicology in Human Health / P.F.M. Nogueira / V.S. Marangoni / J.P. Souza / I.M.M. Paino / J. Cancino-Bernardi / V. Zucolotto
  • 13.4.Environmental Issues Concerning the Toxicological Effects of Nanomaterials / J. Cancino-Bernardi / I.M.M. Paino / J.P. Souza / V.S. Marangoni / P.F.M. Nogueira / V. Zucolotto
  • 13.4.1.Toxicology Aspects of Carbon-Based Nanomaterials in the Environment / J. Cancino-Bernardi / I.M.M. Paino / J.P. Souza / V.S. Marangoni / P.F.M. Nogueira / V. Zucolotto
  • Note continued: 13.4.2.Metallic-Based Nanomaterials in the Ecosystem / P.F.M. Nogueira / V. Zucolotto / J. Cancino-Bernardi / I.M.M. Paino / J.P. Souza / V.S. Marangoni
  • 13.4.3.The Ecotoxicity of Quantum Dots / P.F.M. Nogueira / V.S. Marangoni / J.P. Souza / I.M.M. Paino / J. Cancino-Bernardi / V. Zucolotto
  • 13.4.4.Ecotoxicological Concerns of Polymeric Nanoparticles / J. Cancino-Bernardi / I.M.M. Paino / J.P. Souza / V.S. Marangoni / P.F.M. Nogueira / V. Zucolotto
  • 13.5.Overview / P.F.M. Nogueira / V.S. Marangoni / J.P. Souza / I.M.M. Paino / J. Cancino-Bernardi / V. Zucolotto
  • References / J. Cancino-Bernardi / I.M.M. Paino / J.P. Souza / V.S. Marangoni / P.F.M. Nogueira / V. Zucolotto.

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