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STUDIES OF SINGLE-PARTICLE IND

2017-01-26 Science
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Release : 2017-01-26
Genre : Science
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Book Rating : 225/5 ( reviews)

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Book Synopsis STUDIES OF SINGLE-PARTICLE IND by : Wan-Waan Lee

Download or read book STUDIES OF SINGLE-PARTICLE IND written by Wan-Waan Lee. This book was released on 2017-01-26. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation, "Studies of Single-particle Inductively Coupled Plasma Mass Spectrometry" by Wan-waan, Lee, 李雲鬟, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: The transient ICP-MS intensity of a particle depends on the rates of particle vaporization and ionization and diffusion of the analyte atoms in the ICP. In this study, a mathematical model has been developed to investigate the relative contribution of these three processes on the relative ICP-MS intensity along the ICP central channel. Gold nanoparticles were used as the model particles. The input parameters of the computer model are optimized by comparing the calculated depth profiles of ICP-MS intensity of the model particles to the experimental profiles. The computer model previously developed in this research group has been updated in this study. The rates of vaporization of the model particles in the ICP by both heat-transfer-limited and mass-transfer-limited vaporization mechanisms are compared for each time step. The slower process is used to calculate the number of gold atoms vaporized in that time step. The degree of ionization of the vaporized gold atoms is then calculated using Saha equation. The ionization temperature was determined experimentally by comparing the intensity ratio of Cd and I. The profile of ionization temperature is sigmoidal and gives more accurate estimation of the ICP-MS intensity than the hypothetical linear ionization temperature profile used in the previous study. The vaporized atoms diffused rapidly to form a plume. The number of ions in the ion plume that passes through the sampler cone is calculated as the ICP-MS intensity. The effect of gas dynamics is taken into consideration by introducing a new parameter of effective aperture of the sampler cone. The previous model suffers from underestimation of the number of ions sampled by using the physical diameter of the sampler cone in ion sampling calculation. With the improvements on the ionization and diffusion calculation, the shape and relative sensitivity of the simulated depth profiles of ICP-MS intensity of the model gold nanoparticles agree with the experimental results. Vaporization and ionization are the main processes in the computer model that determine the ion production rate. The limiting process for the smaller particles is ionization while that for the larger particles is vaporization. The ionization-limiting process gives the linear calibration curves. The depth profiles of ICP-MS intensity for the particles and standard solutions are also identical and the sensitivity ratio of solution to particles is constant along the sampling depth for the smaller particles. The particle diameter at which the limiting process changes from ionization-limiting to vaporization-limiting is the transition diameter. The calibration curves roll off for particle diameter larger than the transition diameter. The linear dynamic range of the calibration curves, or the transition diameter, is dependent on molecular weight, density, ionization potential, and boiling point of the particles. The transition diameter also depends on the ICP forward power and carrier gas flow rate. High gas flow rate and low power are preferred for larger linear dynamic range. Particles within the linear dynamic range can be calibrated using standard solution with the sensitivity ratio between solution and particle corrected. DOI: 10.5353/th_b5387953 Subjects: Inductively coupled plasma mass spectrometry

Studies of Single-particle Inductively Coupled Plasma Mass Spectrometry

2014 Inductively coupled plasma mass spectrometry
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Release : 2014
Genre : Inductively coupled plasma mass spectrometry
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Book Synopsis Studies of Single-particle Inductively Coupled Plasma Mass Spectrometry by : 李雲鬟

Download or read book Studies of Single-particle Inductively Coupled Plasma Mass Spectrometry written by 李雲鬟. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt:

Analysis and Characterisation of Metal-Based Nanomaterials

2021-06-03 Science
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Release : 2021-06-03
Genre : Science
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Book Rating : 056/5 ( reviews)

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Book Synopsis Analysis and Characterisation of Metal-Based Nanomaterials by : Radmila Milacic

Download or read book Analysis and Characterisation of Metal-Based Nanomaterials written by Radmila Milacic. This book was released on 2021-06-03. Available in PDF, EPUB and Kindle. Book excerpt: Analysis and Characterisation of Metal-Based Nanomaterials, Volume 93 in the Comprehensive Analytical Chemistry series, introduces recent developments in analytical methodologies for detection, characterization and quantification of metal-based nanomaterials and their applications to a variety of complex environmental, biological and food samples as well as different consumer products. Single-particle inductively coupled plasma mass spectrometry is highlighted as a powerful analytical tool for number-based concentration and size distribution, also from the metrological viewpoint. An emerging approach for the measurement of multi-metal nanoparticles by single-particle inductively coupled plasma time-of-flight mass spectrometry is discussed. Imaging of metal-based nanoparticles by hyphenated inductively coupled plasma-based techniques is also introduced. The potential of different liquid chromatography and field flow fractionation separation techniques hyphenated to inductively coupled plasma mass spectrometry is emphasized as a powerful tool in particular for complex matrices and small particles sizes. The use of different microscopic techniques for the characterization of metal-based nanoparticles and characterization of metal-based nanoparticles as contrast agents for magnetic resonance imaging are presented. Moreover, occurrence, behaviour and fate of inorganic nanoparticles in the environment is overviewed. Finally, the need for quality control standards and reference nano-materials is emphasized throughout. Presents recent developments in analytical methodologies based on mass spectrometry, light scattering and microscopic techniques for detection, characterization and quantification of metal-based nanomaterials Describes applications of the nanoparticle analysis in a variety of complex environmental, biological and food samples as well as different consumer products Provides the metrological aspects for the analysis of metal-based nanoparticles when using emerging techniques such as single-particle inductively coupled plasma mass spectrometry

Simulation of Single-Particle Inductively Coupled Plasma-Mass Spectrometry

2017-01-26
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Release : 2017-01-26
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Book Rating : 130/5 ( reviews)

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Book Synopsis Simulation of Single-Particle Inductively Coupled Plasma-Mass Spectrometry by : Kin-Ho Lee

Download or read book Simulation of Single-Particle Inductively Coupled Plasma-Mass Spectrometry written by Kin-Ho Lee. This book was released on 2017-01-26. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation, "Simulation of Single-particle Inductively Coupled Plasma-mass Spectrometry" by Kin-ho, Lee, 李健豪, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Time-resolved Inductively Coupled Plasma -Mass Spectrometry (ICP-MS) is a versatile tool for the analysis of single particles such as air particles, nanoparticles, and biological cells. In this study, the processes of particle vaporization and analyte atom diffusion and ionization in the ICP were investigated using computer simulation. Gold nanoparticles of particle diameter 10 to 250 nm were used as the model particle. The parameters of the model were optimized with respect to the experimental data. The relative importance of these parameters was investigated. Simulated ICP-MS intensity versus sampling depth for different particle size was calculated. Two models of particle vaporization, namely heat-transfer-limited and mass-transfer-limited, were adopted to describe the kinetics of vaporization of the gold nanoparticles. The rate of particle vaporization of the limiting model in each 5-s time step was used in the simulation. The heat-transfer-limited process dominates at lower position of the ICP. The mass-transfer-limited process takes over at sampling depth of 4mm or above where the ICP temperature is higher than 4000K. The simulation assumed that the gold atoms vaporized from the particle in each time step diffuse independently. The number density of the gold atoms was calculated using the Chapman-Enskog diffusion theory for each subsequent time step. The degree of ionization of the gold atoms was estimated using Saha equation and was assumed to be dependent on the plasma temperature only. The simulated ICP-MS intensity at any instant was the sum of the gold ions in the ion plumes from all previous time steps that pass through a 1-mm sampler cone. The effects of several simulation parameters on the calculated ICP-MS intensity were investigated. The simulation depth profile of ICP-MS intensity of 100-nm gold nanoparticle was compared to the experimental ICP-MS depth profile. The ICP-MS intensity depends strongly on the ionization temperature of the plasma and the evaporation coefficient of the analyte. The ICP temperature profile, gas velocity, ionization temperature and evaporation coefficient were optimized for the best fit of simulated results to the experimental data. Simulated calibration curves of gold nanoparticles of nominal diameter of 10 nm to 250 nm are non-linear at any sampling depth. The calibration curve rolls off at high mass due to incomplete vaporization of the larger particles in the ICP. The calibration curve at high sampling depth concaves upward in the low mass range because of significant diffusion loss of the analyte atoms for the small particles. DOI: 10.5353/th_b5177356 Subjects: Particles - Analysis Inductively coupled plasma mass spectrometry

Microbial Nanobionics

2019-06-18 Science
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Release : 2019-06-18
Genre : Science
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Book Rating : 345/5 ( reviews)

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Book Synopsis Microbial Nanobionics by : Ram Prasad

Download or read book Microbial Nanobionics written by Ram Prasad. This book was released on 2019-06-18. Available in PDF, EPUB and Kindle. Book excerpt: Microbial Nanobionics: Volume 2, Basic Research Applications continues the important discussion of microbial nanoparticle synthesis with a focus on the mechanistic approach of biosynthesis towards nanobionics. This volume also explores the toxicity of nanomaterials in microbes and their effect on human health and the environment. Special Emphasis is given to the use of polymeric nanomaterials in smart packing for the food industry and agricultural sector. The future of nanomaterials for detection of soil microbes and their interactions and tools for environmental remedies is also comprehensively covered. The rich biodiversity of microbes make them excellent candidates for potential nanoparticle synthesis biofactories. Through a better understanding of the biochemical and molecular mechanisms of the microbial biosynthesis of metal nanoparticles, the rate of synthesis can be better developed and the monodispersity of the product can be enhanced. The characteristics of nanoparticles can be controlled via optimization of important parameters, such as temperature, pH, concentration and pressure, which regulate microbe growth conditions and cellular and enzymatic activities. Large scale microbial synthesis of nanoparticles is a sustainable method due to the non-hazardous, non-toxic and economical nature of these processes. The applications of microbial synthesis of nanoparticles are wide and varied, spanning the industrial, biomedical and environmental fields. Biomedical applications include improved and more targeted antimicrobials, biosensing, imaging and drug delivery. In the environmental fields, nanoparticles are used for bioremediation of diverse contaminants, water treatment, catalysis and production of clean energy. With the expected growth of microbial nanotechnology, this volume will serve as a comprehensive and timely reference.

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