Neutron depth profiling benchmarking and analysis of applications to lithium ion cell electrode and interfacial studies research

Whitney, Scott M., 1982-

07 September 2012

Not available / text

Lithium cells

Application and Challenges of Neutron Depth Profiling to In-Situ Battery Measurements

Lyons, Daniel J.

29 September 2021

No description available.

Chemistry

neutron depth profiling

lithium ion batteries

lithium diffusion

Electrochemical Characterization of Ultra-Thin Silicon Films

Lyons, Daniel Joseph

January 2016

No description available.

Chemistry

Silicon

Li-ion

Diffusion

Neutron Depth Profiling

Design, Construction and Characterization of an External Neutron Beam Facility at The Ohio State University Nuclear Reactor Laboratory

Turkoglu, Danyal J.

January 2011

No description available.

Nuclear Engineering

neutron beam

neutron

neutron radiography

neutron depth profiling

neutron beam facility

research reactor

MCNP

Development of a Multi-detector Digital Neutron Depth Profiling Instrument at the Ohio State University

Mulligan, Padhraic Liam

19 July 2012

No description available.

Nuclear Engineering

Neutron Depth Profiling

Digital Spectroscopy

Multi-detector

Thin film

Design, construction, and characterization of a neutron depth profiling facility at the Oregon State University TRIGA�� reactor with an advanced digital spectroscopy system

Robinson, Joshua A.

13 July 2012

In this work, Neutron Depth Profiling (NDP) analysis capability has been added to the Oregon State University TRIGA�� Reactor Prompt Gamma Neutron Activation Analysis Facility (PGNAA). This system has been implemented with an advanced digital spectroscopy system and is capable of rise time pulse shape analysis as well as coincidence measurements from multiple detectors. The digital spectroscopy system utilizes a high-speed multichannel digitizer with speeds up to 200 Megasamples/second (MS/s) with advanced hardware trigger and time stamping capabilities. These additions allow the facility to conduct simultaneous NDP and PGNAA combined measurements, which also enables cross calibration. The digital pulse processing is implemented with software programmed rise time pulse shape analysis capabilities for the analysis of the detector responses on a pulse-by-pulse basis to distinguish between different interactions in the detector. The advanced trigger capabilities of the digitizer were configured to accurately measure and correct for dead time effects from pulse pile up and preamplifier decay time. / Graduation date: 2013

Neutron Depth Profiling

Prompt Gamma Neutron Activation Analysis

Digital Spectroscopy

Pulse Shape Analysis

TRIGA reactors

Nuclear activation analysis

Characterization of Next Generation Lithium-ion Battery Materials Through Electrochemical, Spectroscopic, and Neutron-Based Methods

Liu, Danny Xin

20 October 2015

No description available.

Chemistry

Metallurgy

Materials Science

Nuclear Chemistry

Nuclear Engineering

Nuclear Physics

Energy

Engineering

Lithium-ion

lithium

battery

anode

aluminum

Al

tin

Sn

current collector

in situ

neutron depth profiling

NDP

Gibbs Phase Rule