Quantum Dots as Fluorescent Probes for in Vitro Cellular Imaging PDF Download

Author: Milana Coorg Vasudev
Publisher:
ISBN:
Category :
Languages : en
Pages : 128

View

Book Description

Author: Ameenah Al-Ahmadi
Publisher: IntechOpen
ISBN: 9789535104834
Category : Science
Languages : en
Pages : 292

View

Book Description
The book “Quantum dots: A variety of a new applications” provides some collections of practical applications of quantum dots. This book is divided into four sections. In section 1 a review of the thermo-optical characterization of CdSe/ZnS core-shell nanocrystal solutions was performed. The Thermal Lens (TL) technique was used, and the thermal self-phase Modulation (TSPM) technique was adopted as the simplest alternative method. Section 2 includes five chapters where novel optical and lasing application are discussed. In section 3 four examples of quantum dot system for different applications in electronics are given. Section 4 provides three examples of using quantum dot system for biological applications. This is a collaborative book sharing and providing fundamental research such as the one conducted in Physics, Chemistry, Biology, Material Science, Medicine with a base text that could serve as a reference in research by presenting up-to-date research work on the field of quantum dot systems.

Author: Adriana Fontes
Publisher: Humana Press
ISBN: 9781493912810
Category : Science
Languages : en
Pages : 258

View

Book Description
In Quantum Dots: Applications in Biology, Second Edition, expert researchers in the field detail consolidated approaches as well as new trends in the field. Organized into five parts, the first part comprises an introduction on Quantum Dots (QDs) as fluorescent probes in Life Sciences. While the second section covers important features about QDs ́ preparative processes and characterizations for their successful application as fluorophores. The third part presents main aspects related to QDs methods applied to live cells and tissues. The fourth section focuses on QDs experiments in small animals and the fifth part demonstrates the versatility of QDs in a set of FRET applications. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols and key tips on troubleshooting and avoiding known pitfalls. Thorough and intuitive, In Quantum Dots: Applications in Biology, Second Edition aids scientists in continuing to study QDs by providing information about methods and protocols helping to expand their research.

Author: Juwell Wendy Wu
Publisher:
ISBN:
Category :
Languages : en
Pages : 217

View

Book Description
In vivo multimodal, multiplexed microscopy allows real-time observation of hematopoietic cells, their stem and progenitor cells and metastatic cancer cells in their native bone marrow (BM) environment. Multiplexing has made possible detailed studies of the BM's microarchitecture, which helps define the niche of these cells; it has nonetheless been limited by the paucity of suitable probes fluorescent in the near-infrared spectrum that is favored by tissue optics. This project attempts to address this problem by developing cellular and vascular fluorescent imaging probes comprised of semiconductor nanocrystals, or quantum dots (QDs), with tunable fluorescence between 65o-8oonm and exhibiting photostability, robust quantum yield and narrow fluorescence profiles that are critical for such applications. The synthesis of alloyed CdTexSe1 x QDs will be detailed in the thesis. Reproducibility and workability in subsequent steps are emphasized in the methods. Special attention is also paid to the difference between working with alloyed versus single semiconductor QDs, especially the need to achieve physical and spectral uniformity when composition and its gradient are also variable. The steps for creating biological probes from these QD fluorophores are also described. They include overcoating, water solubilization and functionalization for cellular uptake and vascular retention. Finally, the thesis returns to its motivation and reports novel methods, developed using NIR QD vascular imaging probes, for visualizing in vivo 3-D imaging data of the murine BM and characterizing the tissue's architecture. Measuring the Euclidean distance between BM osteoblasts and blood vessels is presented to exemplify a potential platform for describing the geographic relationships between cells, molecules and structural components in any tissue.

Author: Maoquan Chu
Publisher: #N/A
ISBN: 9813142901
Category : Technology & Engineering
Languages : en
Pages : 191

View

Book Description
Cancer is fast becoming one of the main causes of death worldwide. Unfortunately many cases are diagnosed at an advanced incurable stage, and these lives are usually lost. Early diagnosis and treatment are very important for increasing disease curability. In recent years, novel techniques for cancer diagnosis and therapy have been developed, and nanobiomedicine appears to show the most promising results.The application of nanotechnology to biology and medicine in cancer diagnosis is termed nanobiomedicine. Nanoparticles 1-100 nm in size usually have unique physical and/or chemical properties, and this has attracted great attention in the cancer research. Preparation and biomedical applications of the nanoparticles are key components in nanobiomedicine. Semiconductor nanocrystals, including quantum dots (QDs) and quantum rods (QRs), have been extensively investigated for drug delivery, biomedical imaging and tumor target therapy.In Semiconductor Quantum Dots and Rods for In Vivo Imaging and Cancer Phototherapy, the QD and QR optical properties, sentinel lymph node mapping, in vivo tumor target imaging, self-illuminating QDs for in vivo imaging, in vivo cancer photothermal therapy and photodynamic therapy, QD-graphene nanosheet, and QD-magnetic hybrid nanocomposites for bioimaging and cancer therapy are discussed. This book may interest under- and postgraduate students in the field of bioengineering (especially cancer phototherapy) and medical professions alike.

Author: Chen-An Tien
Publisher:
ISBN:
Category :
Languages : en
Pages : 60

View

Book Description
This thesis presents research on the synthesis, functionalization, and biological applications of silicon nanocrystals, also called silicon quantum dots (Si QDs). Over the past 20 years, semiconductor nanocrystals (also known as quantum dots or QDs) have been investigated for applications ranging from electronic materials science to biological imaging. The outstanding optical properties of QDs, which include stable luminescence, tunable luminescence color, modifiable surface characteristics, and the potential to interface with biologically relevant molecules, have made QDs a good replacement for organic dyes in many applications. Silicon nanocrystals show many of the same useful optical properties but lower toxicity than cadmium based quantum dots for biological applications.^In this thesis, I focus on the biological applications of silicon nanocrystals in fluorescent biosensing and cellular labeling applications. Conventional quantum dots have great potential in cancer-related imaging and diagnostic applications; however, these applications are limited by concerns about the inherent toxicity of their core materials (e.g. cadmium, lead). Virtually all imaging applications require conjugation of the imaging agent to a biologically active molecule to achieve selective uptake or binding. Here, we report a study of biocompatible silicon quantum dots covalently attached to biomolecules including lysine, folate, anti-mesothelin, and transferrin. The particles possess desirable physical properties, surface chemistry, and optical properties. Folate- and anti-mesothelin-conjugated silicon quantum dots show selective uptake into Panc-1 cells.^This study contributes to the preclinical evaluation of silicon quantum dots and further demonstrates their potential as an imaging agent for cancer applications. Major bionanotechnology research issues in quantum dot synthesis include the stabilization of their optical properties using various coating and encapsulation strategies, and advancing the rational design of constructs containing them to optimize overall size, surface chemistry, and composition in order to minimize potential toxicity and overcome biological barriers. Conventional cadmium- and lead-based quantum dots are normally coated, because their degradation may result in the release of toxic heavy metal ions. For in vivo use, they must be cleared from the body without degradation. Freestanding silicon quantum dots are expected to biodegrade to non-toxic products (e.g. silicic acid); however they have not been evaluated in biodegradable nanocarriers.^Previous work from our group has encapsulated them with non-toxic, but non-biodegradable phospholipid-polyethylene glycol surfactants. Here, we report the development of chitosan-coated silicon nanoparticles (CSi QDs). Evaluation of the physicochemical and optical properties of the CSi QDs shows that they remain optically active in aqueous media. The chitosan coating renders silicon quantum dots stable in aqueous biological media and useful for biological applications such as cellular imaging with single and two photon excitation. The particles are also degradable when incubated at physiological temperature. These results open the door for a new generation of silicon quantum dots that may have a wide variety of applications derived from the flexibility of chitosan.

Author: Raquel Seruca
Publisher: CRC Press
ISBN: 1351647334
Category : Medical
Languages : en
Pages : 274

View

Book Description
This comprehensive reference work details the latest developments in fluorescence imaging and related biological quantification. It explores the most recent techniques in this imaging technology through the utilization and incorporation of quantification analysis which makes this book unique. It also covers super resolution microscopy with the introduction of 3D imaging and high resolution fluorescence. Many of the chapter authors are world class experts in this medical imaging technology.

Author: John Donegan
Publisher: CRC Press
ISBN: 9814316059
Category : Science
Languages : en
Pages : 250

View

Book Description
In the last two decades, semiconductor quantum dots—small colloidal nanoparticles—have garnered a great deal of scientific interest because of their unique properties. Among nanomaterials, CdTe holds special technological importance as the only known II–VI material that can form conventional p–n junctions. This makes CdTe very important for the development of novel optoelectronic devices such as light-emitting diodes, solar cells, and lasers. Moreover, the demand for water-compatible light emitters and the most common biological buffers give CdTe quantum dots fields a veritable edge in biolabeling and bioimaging. Cadmium Telluride Quantum Dots: Advances and Applications focuses on CdTe quantum dots and addresses their synthesis, assembly, optical properties, and applications in biology and medicine. It makes for a very informative reading for anyone involved in nanotechnology and will also benefit those scientists who are looking for a comprehensive account on the current state of quantum dot–related research.

Author: Ameenah Al-Ahmadi
Publisher: BoD – Books on Demand
ISBN: 9535104837
Category : Science
Languages : en
Pages : 294

View

Book Description
The book “Quantum dots: A variety of a new applications” provides some collections of practical applications of quantum dots. This book is divided into four sections. In section 1 a review of the thermo-optical characterization of CdSe/ZnS core-shell nanocrystal solutions was performed. The Thermal Lens (TL) technique was used, and the thermal self-phase Modulation (TSPM) technique was adopted as the simplest alternative method. Section 2 includes five chapters where novel optical and lasing application are discussed. In section 3 four examples of quantum dot system for different applications in electronics are given. Section 4 provides three examples of using quantum dot system for biological applications. This is a collaborative book sharing and providing fundamental research such as the one conducted in Physics, Chemistry, Biology, Material Science, Medicine with a base text that could serve as a reference in research by presenting up-to-date research work on the field of quantum dot systems.

Author:
Publisher:
ISBN:
Category : High school students
Languages : en
Pages :

View

Book Description