A good course proposal needs to be clear, strategic, and aligned with the academic policies. OSU uses Curriculum Inventory Management (CIM) software as an online platform for curricular proposal submission and review. This course demonstrates how to navigate CIM to successfully submit a course proposal and explains the curriculum review workflow in a nutshell. Part of the Fall 2022 FYI Friday series; Friday, Nov. 4, noon to 12:30 p.m. via Zoom. Registration closes at noon on Thursday.
Author Archives: Luanne Johnson
Upcoming Post-Grad Opportunity- US-FDA Center for Food Safety Applied Nutrition
- Development of Methods for Analysis of Food/Packaging
- College Park, MD
- 40hrs/week
- Potential Start: 1/4/23, 1yr appointment, with possible 1yr renewal
- Open to recent/upcoming MS/PhD chemistry graduates (US citizen or US residency 36 of last 60 months)
The participant will receive training in and will focus on; the mass spectrometry of food contaminants, polymers, and packaging, in particular ambient ionization, non-targeted analysis, suspect screening, database development, materials categorization, and methods validation. Activities will include sample preparation, mass spectrometric method development and analysis, database creation/curation, open-source software adaption and/or workflow development, method comparison, method validation, and ion identification. Experience performing analytical chemistry research and/or mass spectrometry research is required. Experience in planning and executing statistically complex scientific studies, and/or utilizing ambient ionization, and/or high-resolution mass spectrometry is preferred. Experience with KNIME, R, and/or Xcalibur/TraceFinder is a positive. The ability to effectively communicate both verbally and in writing is essential.
Please contact Luke Ackerman, Luke.Ackerman@fda.hhs.gov, for more information.
During the EAS symposium, please contact Susie Genualdi, susan.genualdi@fda.hhs.gov, or 989-430-3730 to discuss this opportunity further.
Upcoming Post-Degree Opportunity- US-FDA Center for Food Safety Applied Nutrition
- Development of Methods for Halogen Analysis of Food/Packaging
- College Park, MD
- 40hrs/week
- Potential Start: 1/4/23, 1yr appointment, with possible 1yr renewal
- Open to recent/upcoming BS/MS chemistry graduates (US citizen or US residency 36 of last 60 months)
The project will stand-up and investigate combustion ion chromatography methods for total fluorine analyses of packaging and food. The ORISE participant will receive training in and will focus on: chemical analysis methods for halogen and per/polyfluoro substances, method development and validation. Activities will include instrument set-up, troubleshooting, sample preparation, halogen method development and analysis, method comparison, and method validation. Experience performing chemical analysis with combustion, halogenated analytes, and/or ion-chromatography analysis is required. Experience in instrumental set-up, troubleshooting, and/or method development is preferred. Experience with total fluorine or PFAS analysis is a positive. The ability to effectively communicate both verbally and in writing is essential.
Please Contact Luke Ackerman, Luke.Ackerman@fda.hhs.gov, for more information.
If attending the EAS’22 symposium, please contact Susie Genualdi, susan.genualdi@fda.hhs.gov, or 989-430-3730 to discuss this opportunity further.
Phishes, Scams, Cyber Threats, Oh My
This Information Security Town Hall is an opportunity learn about common cyber security threats that affect Beaver Nation. There will be an open question and answer opportunity — come learn about what you can do to help protect our Cyber Dam. Join us for the program Oct. 26 at noon via Zoom https://oregonstate.zoom.us/s/92831402973.
Womxn in Science – Outside the Lab
Grant Funding for Native Students of OR Tribes
Just an FYI about possible funding resources for Indigenous students from OR tribes! The Oregon Tribal Student Grant provides full funding for students who are enrolled members of any of the 9 federally recognized tribes in Oregon. Deadline for winter term funding: Nov. 1st!
Applications are Still Being Accepted for the Oregon Tribal Student Grant
The HECC Office of Student Access and Completion will continue to accept and review applications for the Oregon Tribal Student Grant for 2022-23 until funds are exhausted. Students planning to attend college in the 2022-23 academic year, including fall term, are encouraged to apply. The Oregon Tribal Student Grant is expected to pay for most or all public undergraduate college-related expenses—including tuition, housing, books, and other costs not covered by other grants—for eligible students who are enrolled members of Oregon’s nine federally recognized Tribes. Current and prospective students can learn more and apply here. The direct link to the Oregon Tribal Student Grant web page is: https://oregonstudentaid.gov/grants/oregon-tribal-student-grant/
2023 E & J Gallo Winery internship opportunities
Hello all.
We’re excited to be kicking off Gallo Winery’s 2023 intern recruiting efforts. I’m reaching out to let you know about the internship opportunities for the 2023 harvest season and to ask that you please share this information with your students. We look forward to having some OSU students/alumni for our 2023 harvest season!
Our internship job descriptions can be found via the TinyUrls below, on Handshake, or at https://www.gallocareers.com/. All current Gallo employment opportunities are available at https://www.gallocareers.com/
| 2022-2023 Program | 2022-2023 Tiny URL | 2022-2023 Handshake Job ID |
| Winemaking & Spirits Distillation Internship | https://tinyurl.com/CVWMDist2023 | 7082337 |
| Chemistry & Systems Biology Internship | https://tinyurl.com/CVChemBio2023 | 7082394 |
| Grape Production & Viticulture Internship | https://tinyurl.com/CVVit2023 | 7082477 |
| Premium Coastal Winemaking Internship | – | 7071239 |
| Coastal Laboratory Internship | – | 7074234 |
Our Talent Acquisition team has suggested that we recruit in the fall to get the best students for our internships. Offers will be extended as we meet qualified applicants. Therefore, we encourage students to apply early while the maximum number of internships are available.
We will be on-campus to present on our 2023 internship opportunities at the Food and Fermentation Science Club meeting on November 9th. That event will be held in the Wiegand Hall Auditorium (115) from 5-6pm. I’ve attached a flyer for that event. Please share this with your students. We will follow-up with Meet & Greets on November 10th in Wiegand Hall. Folks interested in learning more about our internships and/or Gallo opportunities in general can sign up to meet with our on-campus recruiting team. Sign-ups can be made through Calendly or please contact Deborah Gould (Deborah.Gould@oregonstate.edu). The Food Science and Technology Department has graciously provided rooms for these events, yet we hope to see students from various majors.
Please let me know if you or the students have questions.
Thank you!
Cyd Yonker
Director – Enology Research
Winegrowing Research
E & J Gallo Winery
707-431-5532 (Office)
209-605-0453 (Mobile)
Katherine A Mirica (Dartmouth) – CBEE Seminar
CBEE Fall Seminar Series
Monday, Oct. 24, 2022
4:00 PM – 5:00 PM
Owen 106
Katherine A. Mirica
Katherine was born and raised in Ukraine and emigrated with her family to the United States as she was starting high school. She obtained her B.S. in Chemistry at Boston College, where she developed a passion for Materials Chemistry, working in the laboratory of Lawrence T. Scott. She earned her Ph.D. in Chemistry from Harvard University under the guidance of George M. Whitesides and completed her postdoctoral training with Timothy M. Swager at the Massachusetts Institute of Technology. Katherine began her independent scientific career as an Assistant Professor in the Department of
Chemistry at Dartmouth College in July 2015 and was promoted to Associate Professor with tenure in 2021. Her research interests span the topics of self-assembly, design and synthesis of multifunctional
framework materials, electroanalysis, energy, catalysis, and adhesion science.
“Molecular Engineering of Conductive Framework Materials for Chemical Sensing”
Molecular engineering of new materials holds promise for improving human health, safety,
efficiency, and quality of life. This presentation will describe strategies for molecular
engineering of conductive, stimuli-responsive, and molecularly precise materials. The
presentation will describe several approaches for design, synthesis, and device integration of
two-dimensional (2D) conductive metal–organic frameworks (MOFs) and covalent organic
frameworks (COFs) to create devices with promising utility in electroanalysis. An emphasis will
be placed on the fundamental understanding and molecular design of modular
structure–property relationships within this class of 2D materials. In summary, this
presentation will demonstrate how molecular-level features within solid state materials can be
used to tune their stimuli-responsive function.
Jim Clarke (Intel Labs) – EECS Seminar
Jim Clarke
Director of Quantum Hardware, Intel Labs
Presenting on:
From a Grain of Sand to a (Quantum) Bit of Information
Monday, Nov 21st, 2022 ● 4:00 – 4:50pm ● DEAR 118
Abstract
A large scale quantum computer could change the world. Performing certain calculations in minutes that would take the largest supercomputer millions of years. The impact to applications such as cryptography, chemistry, finance, etc would be huge. Today’s quantum processors are limited to 10’s of entangled quantum bits. If you believe the hype, a commercially relevant system is just around the corner that can outperform our largest supercomputers for useful calculations. The reality, however, is that we are still early in the race. There are many unanswered fundamental questions. At Intel, our approach is to rely on the continued evolution of Moore’s Law to build qubit arrays with a high degree of process control. Here, we present progress toward the realization of a 300mm Si/SiGe based spin qubit device in a production environment. A spin qubit relies on the spin of a single electron in an external magnetic field to encode the two states of the qubit, where spin up vs down represent 0 vs 1. Spin Qubits are compelling as their appearance and fabrication is similar to conventional CMOS transistors that drive the microelectronics industry. At the same time, they are roughly one million time smaller than the superconducting qubits that are being pursued by other companies. In addition, this talk will focus on a key bottleneck to moving beyond today’s few-qubit devices: the interconnect scheme and control of a large quantum circuit. Today’s qubits have personalities. Individual control of each qubit is required. A small quantum processor today has multiple RF and DC wires per qubit. This is a brute force approach to wiring and will not scale to the millions of qubits needed for large applications. At Intel, we have developed customized control chips, optimized for performance at low temperature, with a goal of simplifying wiring and replacing the racks and racks of discrete electrical components.
Bio
Jim Clarke is the director of the Quantum Hardware research group within Intel’s Components Research Organization. Jim launched Intel’s Quantum Computing effort in 2015, as well as a research partnership with QuTech (TU Delft and TNO). His group’s primary focus is to use Intel’s process expertise to develop scalable qubit arrays. In 2018, Jim worked with industry leaders and the Intel policy group to influence the U.S. National Quantum Initiative Act. Prior to his current role, Jim managed a group focused on interconnect research at advanced technology nodes as well as evaluating new materials and paradigms for interconnect performance. He has co-authored more than 100 papers and has over 50 patents. Prior to joining Intel in 2001, Jim completed a B.S. in chemistry at Indiana University, a Ph.D. in physical chemistry at Harvard University and a post-doctoral fellowship in physical organic chemistry at ETH, Zürich. He is a member of IEEE.
Seeking possible collaboration
Dr. Nir Modiano (modiano@ohsu.edu) from OHSU, is looking to collaborate with a chemist or toxicologist on an effort to understand whether the therapeutic PPS may contribute to inflammatory bowel disease.
“Briefly, PPS is a sulfated polysaccharide that is used as a therapy for interstitial cystitis. We have found that a few of our IBD patients on PPS improved after stopping the PPS. In the 1990’s studies of high-dose PPS use for bladder cancer were dose-limited by proctitis, supporting the notion that it could be a causative agent in colitis. We then noticed a number of patients on it developed multifocal dysplasia, requiring colectomy to prevent progression to malignancy. Since the number of patients taking PPS is fairly small, we collaborated with Stanford and identified 30 patients with IBD who had been on PPS for >2 years (arbitrarily chosen because we did not want to include patients who had minimal exposure). Of these, 1 in 3 developed multifocal dysplasia as of time of our study, which is a very high number. We think this case series supports the hypothesis that PPS may increase the risk of both IBD and colonic dysplasia, though obviously, a small case series is not a definitive study.
Of note, PPS may share similiarities in chemical structure with DSS, and both are sulfated polysaccharides, though we have not yet had a chemist or toxicologist weigh in on whether the similarities are likely to be relevant. We’d be interested in gaining perspective from someone with relevant experience in toxicology to help us understand our observations and, perhaps, collaborate on research related to these findings. One reason I find this so interesting is that it may offer insight into other environmental exposures that may be contributing to the rapid increase in IBD cases we are seeing in the western world, and perhaps, the increased rates of colorectal cancer at younger ages.”