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Articles 1 - 9 of 9
Full-Text Articles in Physical Sciences and Mathematics
Fabrication And Characterization Of Graphite Oxide Based Field Effect Transistors For Non Enzymatic Glucose-Sensor Application, Khadija Said Rahman
Fabrication And Characterization Of Graphite Oxide Based Field Effect Transistors For Non Enzymatic Glucose-Sensor Application, Khadija Said Rahman
Theses
Graphite-oxide based metal–oxide–semiconductor field-effect transistors (MOSFETs) were fabricated and used as glucose sensor. Herein, graphite-oxide was assembled between two planer electrical electrodes. The sensitivity of the sensor has been enhanced by adding copper (Cu) or silver (Ag) nanoparticles. The nanoparticles were produced by sputtering and inert gas condensation inside an ultra-high vacuum compatible system, and they were self-assembled on the graphite-oxide. The sensitivity of the sensor was increased by an order of magnitude when the silver nanoparticles were added. The sensitivity of each MOSFET was studied at different concentrations of non-enzymatic glucose for potential use in medical and industrial applications.
Radiative Properties Of Silicon Related Materials, Scott Sanowitz
Radiative Properties Of Silicon Related Materials, Scott Sanowitz
Theses
The objective of this thesis is to study the optical properties of silicon, as a function of temperature, in the infrared range of wavelengths. The wavelength range, considered in this study, is between 1 micron and 20 microns. The temperature range observed is from 50 degrees Celsius to 1000 degrees Celsius. Varying wafer thickness and doping are taken into account. The thickness of the native oxide, silicon dioxide, must be taken into account as well as its orientation (front side versus back side). The effect of layering wafers one onto another is investigated. It is shown that all these parameters …
Achievable Accuracy Of Radiation Dose Measurement For Linear Accelerators Using Different Protocols, Mariam Hamad Al Darmaki
Achievable Accuracy Of Radiation Dose Measurement For Linear Accelerators Using Different Protocols, Mariam Hamad Al Darmaki
Theses
The aim of radiotherapy treatment is to deliver a specified radiation dose throughout a definite target volume within predetermined levels of accuracy and homogeneity; at the same time ensuring adequate dose sparing of surrounding normal tissue. Radiotherapy is a complex process involving a number of steps and the accuracy of each stage has a direct impact on the treatment outcome. At each stage, comprehensive quality assurance procedures are required to ensure safe and accurate delivery of the prescribed dose.
This project will aim to determine the currently achievable accuracy and reproducibility of radiotherapy dosimetry and assess the current recommendations for …
Opto-Mechanical Design Of Synchrotron Radiation-Based Far-Infrared Spectroscopic Ellipsometer With Strong Magnetic-Field, Ahmad Abbas Chaudhry
Opto-Mechanical Design Of Synchrotron Radiation-Based Far-Infrared Spectroscopic Ellipsometer With Strong Magnetic-Field, Ahmad Abbas Chaudhry
Theses
The objective of this dissertation is to present opto-mechanical design of a synchrotron radiation based far-infrared spectroscopic ellipsometer with a strong external magnetic-field capability. Since high magnetic field has enabled major breakthrough in science such instrument will be highly important to the field of condensed matter physics and characterization of advanced electronic materials. This instrument will be installed at the multi-User facility with the most advanced synchrotron light source: Natonal Synchrotron Source (NSLS-II) at Brookhaven National Laboratory (BNL).The proposed here instrument is capable to measure full Mueller matrix spectroscopic ellipsometry spectra in high magnetic fields of up to 9 Tesla. …
Development Of Nanoelectrodes For Electrochemical Applications, Séan Barry
Development Of Nanoelectrodes For Electrochemical Applications, Séan Barry
Theses
The demand for direct, selective and rapid determination of chemical and biological analytes has led to a growing interest in electrochemical sensor devices. Particularly the use of nanomaterials and nanoelectrodes has received increased interest due to their enhanced electrochemical properties. In this thesis these enhanced properties are exploited in order to develop multiple sensing applications.
Firstly a sensitive microband based sensor is described for the detection of trinitrotoluene and for its discrimination from other nitroaromatic compounds. Square wave voltammetry was used to identify characteristic reduction peaks for these compounds and a calibration plot for the quantification of TNT was also …
Ultrashort Pulse Generation In Inas Quantum Dot Semiconductors, Patrick Finch
Ultrashort Pulse Generation In Inas Quantum Dot Semiconductors, Patrick Finch
Theses
In this thesis, the effect of operating two-section InAs quantum dot passively mode- locked semiconductor lasers in the random population regime is examined in detail in an attempt to achieve wide optical bandwidths and ultrashort optical pulses. It is demonstrated in this work that large increases in optical bandwidths can be observed in the random population regime. Random population was achieved with an undoped device by lowering the operating temperature to 20 K. An emission bandwidth of 27 nm was measured using an undoped device at 20 K, with corresponding pulses of 290 fs, shorter than any previously reported with …
Emission Properties And Carrier Dynamics Of Iii-V Nanostructures For Next Generation Photonic Devices, Katarzyna Komolibus
Emission Properties And Carrier Dynamics Of Iii-V Nanostructures For Next Generation Photonic Devices, Katarzyna Komolibus
Theses
A majority of modern day applications, ranging from telecommunications, charge storage memories and solar cells to more recently silicon photonics, have at their core compound semiconductor based optoelectronic devices. Particular attention has focused on the use of Group-III and Group-V elements in these devices and thus drives a desire for improved understanding. This thesis therefore studies a variety of novel III-V nanostructures, which have shown immense promise for inclusion in next-generation photonic devices, examining in detail these structures in terms of their optical properties and inherent carrier dynamics.
Real-Time Characterisation Of Dynamic Laser Fields, Thomas Butler
Real-Time Characterisation Of Dynamic Laser Fields, Thomas Butler
Theses
Many modern technologies rely on laser devices, in areas such as communications, sensing, and imaging. Examination and research into the fundamental operational dynamics of lasers, and characterisation of laser performance, are a crucial tool in ensuring the quality and effectiveness of laser-based applications. The development of characterisation tools is an important part of improving upon existing technologies and advancing the next generation of devices.
In this work, a real-time multiheterodyne detection technique is developed which allows for the study of dynamically varying pulse trains formed by optical frequency combs.
Low-Cost Fabrication Of Nanoelectrodes For Electrochemical Applications, Colm Barrett
Low-Cost Fabrication Of Nanoelectrodes For Electrochemical Applications, Colm Barrett
Theses
Compared to traditional macroelectrodes, nanoscale electrodes have tremendous potential when employed in electrochemistry due to enhanced sensitivity arising from increased mass transport to the electrode and low background charging currents. Electrochemically- based diagnostic products such as sensors require sensing elements with greatly enhanced performance and nanoelectrodes offer a viable route to attaining this performance improvement.
Firstly, the fabrication of a polymer microneedle array-based sensor is described and employed to demonstrate a mediated approach for the detection of glucose in solution. This was to demonstrate the feasibility of the system for in-vivo sensing. Cyclic voltammetry was used to achieve detection of …