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Author: Farah Nazih Radwan Publisher: ISBN: Category : Chemistry Languages : en Pages :
Book Description
Three different approaches were used to prepare dual mode nanoparticles using a previously described reverse micelle technique. Superparamagnetic Fe@FeOx core shell nanoparticles were chosen to be the magnetic component for all three dual mode systems. In the first type of particles, 2- amino-1,3- propane diol (APD) was used as a functionalization ligand to stabilize the surface of the particles and its functional amino group also provided a binding site for the attachment of a fluorescent probe. The TEM analysis showed that the APD coated particles have a size range of 8-13 nm while XPS and MALDI measurements confirmed the presence of the APD ligand on the surface of the particles. The VSM data showed that the magnetization of the unfuntionalized particles was 60 emu/g and after functionalization the magnetization became 33 emu/g. The slight reduction magnetization was a result of the organic surface coating of APD. At this point, we realized that attaching a bulky organic fluorescent probe will cause the particles' magnetization to further decrease. Therefore, our attention was directed towards inorganic semiconductors nanoparticles to be used as the optical component of the dual mode particles. The second approach included replacing the FeOx shell around the metallic iron core with a quantum dots shell (QDs). Thioglycerol was used to stabilize the surface of the synthesized CdS particles. The diffraction pattern of the produced particles was in agreement with the reference patterns of both alpha iron and CdS hexagonal crystal lattice, as illustrated by the XRD measurements. The TEM images of the coated particles revealed core shell morphology before the addition of thioglycerol and the particles were aggregated. After thioglycerol was added, the particles became more isolated with an approximate size of 14 nm. Optical measurements of the coated particles showed an emission peak at 670 nm using an absorbance peak of 335 nm. XPS scans verified the presence of CdS shell on the surface of the iron particles. The magnetization of the coated particles was 22 emu/ g, which is lower than that of the APD coated particles. Although, the optical properties of the dual mode system were enhanced, the magnetization was reduced. This leads to our third approach in preparing the dual mode system, we used organometallic Prussian blue compound as our optical probe. Similar to the XRD data of the CdS@Fe nanoparticles, the core consists of metallic iron for PB@Fe nanoparticles. The TEM images showed core shell morphology and approximate size of 11 nm. The attachment of PB ligand on the surface of the particles was verified using XPS and the magnetic data revealed that PB@Fe nanoparticles has the highest magnetization value of 80 emu/ g and it's the highest in comparison to the previous two system. In conclusion, we have taken three approaches to develop magnetic and optical dual mode nanoparticles. Each system has its advantages and limitations. For instance, CdS nanoparticles have the most enhanced optical properties but the lowest magnetization. On the other hand PB@Fe has the highest magnetization saturation but not the optimal optical properties. Future work includes the improvement of both the magnetic and optical properties of these systems.
Author: Farah Nazih Radwan Publisher: ISBN: Category : Chemistry Languages : en Pages :
Book Description
Three different approaches were used to prepare dual mode nanoparticles using a previously described reverse micelle technique. Superparamagnetic Fe@FeOx core shell nanoparticles were chosen to be the magnetic component for all three dual mode systems. In the first type of particles, 2- amino-1,3- propane diol (APD) was used as a functionalization ligand to stabilize the surface of the particles and its functional amino group also provided a binding site for the attachment of a fluorescent probe. The TEM analysis showed that the APD coated particles have a size range of 8-13 nm while XPS and MALDI measurements confirmed the presence of the APD ligand on the surface of the particles. The VSM data showed that the magnetization of the unfuntionalized particles was 60 emu/g and after functionalization the magnetization became 33 emu/g. The slight reduction magnetization was a result of the organic surface coating of APD. At this point, we realized that attaching a bulky organic fluorescent probe will cause the particles' magnetization to further decrease. Therefore, our attention was directed towards inorganic semiconductors nanoparticles to be used as the optical component of the dual mode particles. The second approach included replacing the FeOx shell around the metallic iron core with a quantum dots shell (QDs). Thioglycerol was used to stabilize the surface of the synthesized CdS particles. The diffraction pattern of the produced particles was in agreement with the reference patterns of both alpha iron and CdS hexagonal crystal lattice, as illustrated by the XRD measurements. The TEM images of the coated particles revealed core shell morphology before the addition of thioglycerol and the particles were aggregated. After thioglycerol was added, the particles became more isolated with an approximate size of 14 nm. Optical measurements of the coated particles showed an emission peak at 670 nm using an absorbance peak of 335 nm. XPS scans verified the presence of CdS shell on the surface of the iron particles. The magnetization of the coated particles was 22 emu/ g, which is lower than that of the APD coated particles. Although, the optical properties of the dual mode system were enhanced, the magnetization was reduced. This leads to our third approach in preparing the dual mode system, we used organometallic Prussian blue compound as our optical probe. Similar to the XRD data of the CdS@Fe nanoparticles, the core consists of metallic iron for PB@Fe nanoparticles. The TEM images showed core shell morphology and approximate size of 11 nm. The attachment of PB ligand on the surface of the particles was verified using XPS and the magnetic data revealed that PB@Fe nanoparticles has the highest magnetization value of 80 emu/ g and it's the highest in comparison to the previous two system. In conclusion, we have taken three approaches to develop magnetic and optical dual mode nanoparticles. Each system has its advantages and limitations. For instance, CdS nanoparticles have the most enhanced optical properties but the lowest magnetization. On the other hand PB@Fe has the highest magnetization saturation but not the optimal optical properties. Future work includes the improvement of both the magnetic and optical properties of these systems.
Author: Nikhil R Jana Publisher: CRC Press ISBN: 0429442262 Category : Medical Languages : en Pages : 134
Book Description
This book will focus on synthesis, coating and functionalization chemistry of selected nanoparticles that are most commonly used in various biomedical applications. Apart from standard selected chemical synthetic methods, it focusses on design consideration of functionalization, selected coating chemistry for transforming as synthesized nanoparticle, selected conjugation chemistries and purification approach for such nanoparticles. It also includes state-of-art/future prospect of nanodrugs suitable for clinical applications. There will material on general application potential of these nanoparticles, importance of functionalization and common problems faced by non-chemists.
Author: Costica Caizer Publisher: John Wiley & Sons ISBN: 1119754747 Category : Science Languages : en Pages : 512
Book Description
Magnetic Nanoparticles in Human Health and Medicine Explores the application of magnetic nanoparticles in drug delivery, magnetic resonance imaging, and alternative cancer therapy Magnetic Nanoparticles in Human Health and Medicine addresses recent progress in improving diagnosis by magnetic resonance imaging (MRI) and using non-invasive and non-toxic magnetic nanoparticles for targeted drug delivery and magnetic hyperthermia. Focusing on cancer diagnosis and alternative therapy, the book covers both fundamental principles and advanced theoretical and experimental research on the magnetic properties, biocompatibilization, biofunctionalization, and application of magnetic nanoparticles in nanobiotechnology and nanomedicine. Chapters written by a panel of international specialists in the field of magnetic nanoparticles and their applications in biomedicine cover magnetic hyperthermia (MHT), MRI contrast agents, biomedical imaging, modeling and simulation, nanobiotechnology, toxicity issues, and more. Readers are provided with accurate information on the use of magnetic nanoparticles in diagnosis, drug delivery, and alternative cancer therapeutics—featuring discussion of current problems, proposed solutions, and future research directions. Topics include current applications of magnetic iron oxide nanoparticles in nanomedicine and alternative cancer therapy: drug delivery, magnetic resonance imaging, superparamagnetic hyperthermia as alternative cancer therapy, magnetic hyperthermia in clinical trials, and simulating the physics of magnetic particle heating for cancer therapy. This comprehensive volume: Covers both general research on magnetic nanoparticles in medicine and specific applications in cancer therapeutics Discusses the use of magnetic nanoparticles in alternative cancer therapy by magnetic and superparamagnetic hyperthermia Explores targeted medication delivery using magnetic nanoparticles as a future replacement of conventional techniques Reviews the use of MRI with magnetic nanoparticles to increase the diagnostic accuracy of medical imaging Magnetic Nanoparticles in Human Health and Medicine is a valuable resource for researchers in the fields of nanomagnetism, magnetic nanoparticles, nanobiomaterials, nanobioengineering, biopharmaceuticals nanobiotechnologies, nanomedicine, and biopharmaceuticals, particularly those focused on alternative cancer diagnosis and therapeutics.
Author: Ganesh S. Kamble Publisher: John Wiley & Sons ISBN: 3527346775 Category : Technology & Engineering Languages : en Pages : 452
Book Description
2D Functional Nanomaterials Outlines the latest developments in 2D heterojunction nanomaterials with energy conversion applications In 2D Functional Nanomaterials: Synthesis, Characterization, and Applications, Dr. Ganesh S. Kamble presents an authoritative overview of the most recent progress in the rational design and synthesis of 2D nanomaterials and their applications in semiconducting catalysts, biosensors, electrolysis, batteries, and solar cells. This interdisciplinary volume is a valuable resource for materials scientists, electrical engineers, nanoscientists, and solid-state physicists looking for up-to-date information on 2D heterojunction nanomaterials. The text summarizes the scientific contributions of international experts in the fabrication and application of 2D nanomaterials while discussing the importance and impact of 2D nanomaterials on future economic growth, novel manufacturing processes, and innovative products. Provides thorough coverage of graphene chemical derivatives synthesis and applications, including state-of-the-art developments and perspectives Describes 2D/2D graphene oxide-layered double hydroxide nanocomposites for immobilization of different radionuclides Covers 2D nanomaterials for biomedical applications and novel 2D nanomaterials for next-generation photodetectors Discusses applications of 2D nanomaterials for cancer therapy and recent trends ingraphene-latex nanocomposites Perfect for materials scientists, inorganic chemists, and electronics engineers, 2D Functional Nanomaterials: Synthesis, Characterization, and Applications is also an essential resource for solid-state physicists seeking accurate information on recent progress in two-dimensional heterojunction materials with energy conversion applications.
Author: Weibo Cai Publisher: CRC Press ISBN: 1498720943 Category : Medical Languages : en Pages : 451
Book Description
Over the last decade, an unprecedented expansion in the field of nanomedicine has resulted in the development of new nanomaterials for diagnosis and therapy of various diseases such as cancer. This book covers the design, synthesis and applications of various functionally-hybridized nanomaterials for biomedical applications. It includes strategies for design and synthesis of hybrid nanomaterials, surface engineering of various nanoparticle-based hybrid nanosystems for cancer imaging and therapy, toxicity aspects of nanomaterials and the challenges in translation research of hybrid nanomaterials.
Author: Parteek Prasher Publisher: Bentham Science Publishers ISBN: 9815050540 Category : Technology & Engineering Languages : en Pages : 140
Book Description
Silver Nanoparticles: Synthesis, Functionalization and Applications presents detailed information about the range of methods of synthesizing silver nanoparticles (AgNPs). The book systematically delves into the subject with an introductory chapter before moving to chemical synthesis of AGnPs and fabrication methods which help in assigning functional properties for useful nanomaterials. Basic and advanced synthetic methods like surface functionalization and bioconjugation are covered. Additionally, the book informs about impactful applications of AGNPs across a range of industries. Through this book, readers will be able to understand the importance of silver nanoparticles as a futuristic material in scientific investigations and gain a comprehensive understanding of the operational strategies revolving around their surface modification and conjugation. Key Features: -Covers the basics of silver nanoparticle (AGNP) synthesis -Focuses on green methods of AGNPs - Covers information about surface modification and functionalization of AGNPs with different molecules (including biomolecules) -Covers a range of applications of AGNPs -Includes advanced applications of AGNPs in next-generation antibiotics Silver Nanoparticles: Synthesis, Functionalization and Applications a handy reference for scholars in advanced chemical engineering, materials science and pharmacology programs as well as anyone who wants to know all about silver nanoparticles.
Author: Eun Ji Chung Publisher: Elsevier ISBN: 0128166630 Category : Technology & Engineering Languages : en Pages : 442
Book Description
Nanoparticles for Biomedical Applications: Fundamental Concepts, Biological Interactions and Clinical Applications brings into one place information on the design and biomedical applications of different classes of nanoparticles. While aspects are dealt with in individual journal articles, there is not one source that covers this area comprehensively. This book fills this gap in the literature. - Outlines an in-depth review of biomedical applications of a variety of nanoparticle classes - Discusses the major techniques for designing nanoparticles for use in biomedicine - Explores safety and regulatory aspects for the use of nanoparticles in biomedicine
Author: Wai-Yeung Wong Publisher: John Wiley & Sons ISBN: 3527347976 Category : Science Languages : en Pages : 564
Book Description
Functional Nanomaterials Presents the most recent advances in the production and applications of various functional nanomaterials As new synthetic methods, characterization technologies, and nanomaterials (NMs) with novel physical and chemical properties are developed, researchers and scientists across disciplines need to keep pace with advancements in the dynamic field. Functional Nanomaterials: Synthesis, Properties, and Applications provides comprehensive coverage of fundamental concepts, synthetic methods, characterization technologies, device fabrication, performance evaluation, and both current and emerging applications. Contributions from leading scientists in academia and industry present research developments of novel functional nanomaterials including metal nanoparticles, two-dimensional nanomaterials, perovskite-based nanomaterials, and polymer-based nanomaterials and nanocomposites. Topics include metal-based nanomaterials for electrochemical water splitting, cerium-based nanostructure materials for electrocatalysis, applications of rare earth luminescent nanomaterials, metal complex nanosheets, and methods for synthesizing polymer nanocomposites. Provides readers with timely and accurate information on the development of functional nanomaterials in nanoscience and nanotechnology Presents a critical perspective of the design strategy, synthesis, and characterization of advanced functional nanomaterials Focuses on recent research developments in emerging areas with emphasis on fundamental concepts and applications Explores functional nanomaterials for applications in areas such as electrocatalysis, bioengineering, optoelectronics, and electrochemistry Covers a diverse range of nanomaterials, including carbonaceous nanomaterials, metal-based nanomaterials, transition metal dichalcogenides-based nanomaterials, semiconducting molecules, and magnetic nanoparticles Functional Nanomaterials is an invaluable resource for chemists, materials scientists, electronics engineers, bioengineers, and others in the scientific community working with nanomaterials in the fields of energy, electronics, and biomedicine.
Author: Atul Thakur Publisher: Springer Nature ISBN: 9811668191 Category : Science Languages : en Pages : 546
Book Description
This book provides thorough information on various nanomaterials, techniques for their synthesis and characterization, and examines their agricultural, environmental, biomedical, and clinical applications. The initial part of the book presents different nanomaterials; covers various physical, chemical, and biological methods for their synthesis; and reviews techniques to characterize their physicochemical and biological properties. Subsequently, the chapters of the book focus on the innovative applications of nanomaterials in disease diagnosis, tissue engineering, regenerative medicine, and cancer therapy. It also explores the green biosynthesis of nanomaterials and highlights their biological applications. Towards the end, the book examines the toxicity and biocompatibility of various nanomaterials. It aims to serve as a resource guide for researchers and biomedical clinicians working with nanomaterials.
Author: Farah Nazih Radwan
Author: Farah Nazih Radwan
Author: 
Author: Nikhil R Jana
Author: Costica Caizer
Author: Ganesh S. Kamble
Author: Weibo Cai
Author: Parteek Prasher
Author: Eun Ji Chung
Author: Wai-Yeung Wong
Author: Atul Thakur