Marie Corinne Jones has a Bachelor of Science degree in Professional Chemistry from the University of Nevada, Reno. She has experience in air emissions modeling, compliance with safety regulations, and analytical chemistry techniques including gravimetric analysis, IC analysis, and spectroscopic analysis. Her skills include competence in using various instruments and software, and expertise in regulatory standards including ISO 14001, RCRA, TSCA, and GHS.
Several analytical techniques focus on particle size analysis on the nm scale. Transmission Electron Microscopy (TEM) is ideal because it combines size and shape measurement accuracy with the ability to determine size distribution while dealing with aggregates of smaller particles.
A common drawback is that a TEM image typically contains dozens of particles which makes it difficult to acquire the >100 images needed to have a statistically relevant dataset. The automatic particle workflow (APW) from Thermo Fisher Scientific remedies that problem.
In this webinar, Thermo Fisher Scientific will discuss a strategy to employ APW on your TEM to perform element-specific particle size analysis in a more efficient and productive way.
Key learning objectives:
- How to run your TEM 24/7 – unattended
- How to significantly improve repeatability of your particle analysis on the nm scale
- How to remove repetitive manual analysis and operator bias
- How to quickly acquire statistics
Resume as of April 2015: Daniel Truong
If you represent a company and you see that I am a good fit, please don't hesitate to send me a message or email. Thank you.
The spread of invasive species continues to provide significant challenges to those government biosecurity agencies charged with protecting a country’s borders. In an increasingly connected world, these invasive species are potentially able to spread further and more rapidly. Human mediated pathways such as ships and airlines are the most obvious ways in which invasive species can be spread. Direct routes from one port to another are currently monitored, but indirect pathways,
in which a ship picks up an invasive species and then travels to a number of different locations before arriving at the final destination, present more challenging scenarios. For the Australian Government Department of Agriculture, one particular concern is for ships arriving into Australia carrying viable eggs of the Asian gypsy moth (Lymantria dispar). We are developing a real time tool that will analyse the pathways for incoming ships and determine the likelihood the ship could be carrying viable eggs.
Several analytical techniques focus on particle size analysis on the nm scale. Transmission Electron Microscopy (TEM) is ideal because it combines size and shape measurement accuracy with the ability to determine size distribution while dealing with aggregates of smaller particles.
A common drawback is that a TEM image typically contains dozens of particles which makes it difficult to acquire the >100 images needed to have a statistically relevant dataset. The automatic particle workflow (APW) from Thermo Fisher Scientific remedies that problem.
In this webinar, Thermo Fisher Scientific will discuss a strategy to employ APW on your TEM to perform element-specific particle size analysis in a more efficient and productive way.
Key learning objectives:
- How to run your TEM 24/7 – unattended
- How to significantly improve repeatability of your particle analysis on the nm scale
- How to remove repetitive manual analysis and operator bias
- How to quickly acquire statistics
Resume as of April 2015: Daniel Truong
If you represent a company and you see that I am a good fit, please don't hesitate to send me a message or email. Thank you.
The spread of invasive species continues to provide significant challenges to those government biosecurity agencies charged with protecting a country’s borders. In an increasingly connected world, these invasive species are potentially able to spread further and more rapidly. Human mediated pathways such as ships and airlines are the most obvious ways in which invasive species can be spread. Direct routes from one port to another are currently monitored, but indirect pathways,
in which a ship picks up an invasive species and then travels to a number of different locations before arriving at the final destination, present more challenging scenarios. For the Australian Government Department of Agriculture, one particular concern is for ships arriving into Australia carrying viable eggs of the Asian gypsy moth (Lymantria dispar). We are developing a real time tool that will analyse the pathways for incoming ships and determine the likelihood the ship could be carrying viable eggs.
Versatile and experienced chemist with seven years of expertise in research and development. Proficient in gas chromatography, mass spectrometry, HPLC, UVFNIL, ICPFAES, and wastewater analysis. Collaborative leader with demonstrated history of providing solutions to challenging problems facing industry managers and organizational teams. Bilingual in French and English.
Versatile and experienced chemist with seven years of expertise in research and development. Proficient in gas chromatography, mass spectrometry, HPLC, UVFNIL, ICPFAES, and wastewater analysis. Collaborative leader with demonstrated history of providing solutions to challenging problems facing industry managers and organizational teams. Bilingual in French and English.
1. Marie Corinne Jones
mariecjns@gmail.com (530) 448-9629
St. Paul, MN
Education
University of Nevada, Reno Reno, NV Aug. 2009-May 2014
Degree: Bachelor of Science with a major in Professional Chemistry.
Coursework included Biochemistry, Analytical Chemistry,
Instrumental Analysis, Chemical Synthesis, Inorganic Chemistry,
Organic Chemistry 1 & 2, Physical Chemistry 1,2, & 3, Differential
Equations, and Physics 1 & 2, and exposure to/ experience with
several laboratory techniques.
Contributed to an extra credit assignment to write a teaching
experiment on the HPLC technique with classmates in a functioning
team.
Skills
Competence using an ICS Dionex 3000 with Chromelion software
Competence using an OLIS CARY-14 SPECTROPHOTOMETER
CONVERSION CD spectrophotometer
Competence using a Varian 400-MHz spectrometer for NMR analysis
Competence using a UV-2550 SHIMADZU UV-VIS spectrophotometer
Competence using a Perkin-Elmer 2000 FT-IR spectrophotometer
Expertise on ISO 14001(2015), RCRA, TSCA, MACT ffff and GHS
Experience with WSP
Experience working with highly volatile solvents and hazardous samples
Expertise on nanomaterials and their production from a chemical
perspective
Basic knowledge of proposed models for vibrational energy flow
occurring in protein folding
Basic (advanced p-chem.) knowledge of quantum mechanics
Intermediate (2.5 yrs) Japanese
Rudimentary BASIC and C++ programming
Competence with Microsoft Office, Adobe Acrobat, In Design, Illustrator,
and Photoshop
Competence with MAPLE, GROMACS, Chemdraw, and Emissions Master
2. Marie Corinne Jones
mariecjns@gmail.com (530) 448-9629
St. Paul, MN
Work Experience
Entegee Cottage Grove, MN Mar.2016-April 2016
Air emissions modeling with Emissions Master 7.6 software
Title V, ISO 14001, RCRA, MACT ffff and TSCA compliance
RJ Roberts, Inc. Rosemount, MN Mar. 2015-Jan. 2016
Gravimetric analysis of crude and gas oil samples for PTB
IC analysis of crude, gas oil, and waste water samples
Compliance with safety standards for handling highly volatile
materials.
Entry of data into the LIMS system
Sunrise Environmental Sciences Sparks, NV Jan. 2014-May 2014
Utilized knowledge of GHS and OSHA standards to convert MSDS to
SDS format in accordance with new safety regulations
Formulated a new product utilizing nanochemical components
under the supervision of the director of research and development
Synthesized various surfactants and reagents to assist the director
of research and development
ALS Minerals Reno, NV April 2012-June 2012
Performed cyanide and acid digestions on samples to prepare them
for spectroscopic analysis
Awards
Award of Excellence from Sunrise Environmental Sciences, May 2014
Award of Academic Excellence from the Dep. of res. life, Fall 2011 &
Spring 2012
Dean’s List 2010