Program: The Ole Miss Chemistry Department seeks applicants for an NSF-funded summer Research Experience for Undergraduates (REU) program in 2022. Students who have completed their freshman year of college and who will not have graduated as of Fall 2022 can participate fully in “Ole Miss Physical Chemistry Summer Research Program” activities and work on a research project under the direction of a faculty mentor. Student participants will receive a $5,000 stipend, a housing and meal plan for ten weeks, and travel assistance. 

Eligibility:
 Undergraduate student participants must have completed their freshmen year of college but not yet graduated, and must be citizens or permanent residents of the United States or its possessions. Underrepresented groups in science are strongly encouraged to apply, including minorities, women, and first-generation college students. 

Key Dates and Deadlines: 
03/07/2022: Applications Due

03/28/2022: Notice of Invitation to Participate

05/17/2022: Experience Begins (Move-In)

07/22/2022: Experience Ends (Move-Out


For more information, including a printable flyer, research projects and how to apply, see http://reu.chem.olemiss.edu or contact program director Dr. Nathan I. Hammer at nhammer@olemiss.edu

The Ole Miss PCHEM Summer Research Program REU is supported by The National Science Foundation (CHE-1156713, CHE-1460568, CHE-1757888).

The Fred Hutchinson Cancer Research Center (Fred Hutch) hosts a 9-week summer internship that is designed to provide research experience and mentorship for undergraduate students of rising senior status.  We would appreciate your help promoting the Summer Undergraduate Research Program (SURP) among students at Oregon State University.  I have attached an informational brochure that offers an overview of the program, including eligibility criteria, compensation, travel and housing, and how to apply.

Please encourage your students to visit the SURP website for more comprehensive information.

An online application for the 2017 SURP will be available via the SURP website in mid-November 2016.

The application deadline is midnight Pacific Standard Time (PST) on Friday, January 13, 2017.  Letters of recommendation for up to two references are due by midnight Pacific Standard Time (PST) on Friday, January 20, 2017.
The 2017 SURP will run from Monday, June 12 ??? Friday, August 11.
Other Biomedical Research Internships
I also wanted to share with you a resource that my colleagues and I developed, which is a catalog of biomedical research internships offered nationwide for high school, undergraduate, post-baccalaureate, graduate, and first-year medical students.   Feel free to share this resource with faculty and students.

Thanks for your help promoting the SURP at the Fred Hutch and other internship opportunities nationwide!

Best,

Marilyn Drennan
Program Assistant,
Thompson Studies & Summer Undergraduate Research Program
Fred Hutch Cancer Research Center
1100 Fairview Ave. N
Seattle, WA 98109-1024
Phone: 206-667-4226

2017_surp_recruitmentbrochure_lowres

 

Greetings OSU Undergraduate Researchers,

The Office of Undergraduate Studies is organizing an Undergraduate Summer Research Symposium (USRS) to be held at OSU on August 30 in LINC 314.

The symposium is open to all OSU undergraduates – those conducting research this summer, and those that have conducted research earlier. The symposium is an excellent opportunity for undergraduates to share their research with others. All participants will be eligible for the Research Fellow Transcript Notation. http://undergraduate.oregonstate.edu/research/transcript-notation.

Two presentation options will be available:
a.      10 minute presentations
b.      3 minute presentations

Questions can be sent to ugr@oregonsatte.edu

All participants will need to attend at least one (more, if interested) of the following Practice Sessions to be held 2.00 to 4.00 PM in ALS 4000 on:

August 18
August 19
August 25
August 26

Undergraduates should discuss their interest in participating in the symposium with their research mentor and then send an email by July 29 to UGR@oregonstate.edu with ‘USRS’ indicated in the ‘Subject’, and the following in the body of the email:

Name of Undergraduate Researcher:
OSU ID:
Primary Major:
Name of Research Mentor:
Presentation Category: 10 minute or 3 minute presentation
Research Topic (Broadly describe area of research in one sentence):

This information is requested for planning the symposium.

Thanks,

Sujaya

Sujaya Rao, PhD.
Director of Undergraduate Research
Division of Undergraduate Studies
Oregon State University
Sujaya-ugr@oregonstate.edu

The Office of Undergraduate Research is seeking research project proposals from OSU faculty for the 2015 URSA-ENGAGE Program, which will provide freshman, sophomore and transfer student researchers (in their first year at OSU) under faculty guidance with stipends of up $1,500 for the winter, spring and fall terms of 2015. The Faculty Research Project Proposal Application Deadline is Oct. 29, available here: http://oregonstate.edu/students/research/ For more information, contact Kevin Ahern at ahernk@onid.orst.edu.

Who is your PI? – Sean Burrows

Do you have a Graduate Student/Post-Doc Mentor? – Kyle Almlie

How did you learn about the position? – I got into the research with Dr.Burrows by volunteering, which I got to know about from my adviser, to help set up his lab when he first became a faculty in OSU. I was interested in the research he was going to conduct (currently conducting) and I asked whether he needed any undergraduate researchers in his lab.

Why did you get into Undergraduate Research? – To gain knowledge and have first hand experience in the analytical and spectroscopy field of chemistry. Moreover, I had a some spare time left and did not wanted to waste it.

What advice might you have for other Undergraduate students thinking of pursuing research or just getting started? – Being an undergraduate researcher is very fun and rewarding. I get to do cool experiments on my own and also shadow the graduate students in conducting much higher level experiments.  What I think they should expect is depending on the field of research, always remember the basics of general chemistry such as finding the moles and concentration of a substance . Also, don’t be too picky about what the research is about but just dive into it and gain the experience and knowledge regarding the research.

Who is your PI? – Mas Subramanian

Do you have a Graduate Student/Post-Doc Mentor? – Sean Muir

How did you learn about the position? – My best friend, who had been working in the research group for two terms prior, introduced me to the P.I.

Why did you get into Undergraduate Research? – I wanted to obtain practical, hands-on experience to supplement my didactic learning in the classroom.

What advice might you have for other Undergraduate students thinking of pursuing research or just getting started? – Build good relationships with your research team.  Science is inherently collaborative and as an undergraduate you will be receiving plenty of guidance from the graduate students and P.I.

The Research Office is accepting applications for the Undergraduate Research, Innovation, Scholarship and Creativity (URISC) program for Fall, Winter and/or Spring term(s) 2014-15. This program supports undergraduate research activities from all academic disciplines within the university. Program description and application: http://oregonstate.edu/research/incentive/urisc. Information: Debbie Delmore at debbie.delmore@oregonstate.edu. Deadline: May 5.

Who is your PI? – Mas Subramanian

Do you have a Graduate Student/Post-Doc Mentor? – Sean Muir

How did you learn about the position? – After class my chemistry instructor introduced me to a graduate student within the Chemistry department who was researching different kinds of synthesis methods for making superconductors. Since then I have been working with the same person I was introduced to three years ago in Dr. Subramanian’s lab.

Why did you get into Undergraduate Research? – The first time I ever saw magnetic levitation was freshmen year in my general chemistry class – I had to understand how this was possible.  After my chemistry instructor explained to me how this relied on superconductor materials, and that stable levitation was possible due to ‘quantum locking’, I knew I wanted to research these further.

What advice might you have for other Undergraduate students thinking of pursuing research or just getting started? – Expect to be overwhelmed in the beginning of any research experience. I learned more about chemistry in one month of research then I did in one year of taking a class.

Who is your PI? – David Ji

How did you get into Undergraduate Research? – I got into UG research because I heard of it from a T.A. at the Mole Hole.  He, like me, had a scholarship requiring a certain amount of credits, and he told me that it was a nice way to help fulfill that requirement while gaining real work experience and helping others.

What advice might you have for other Undergraduate students thinking of pursuing research or just getting started? – I am very happy with my UG research position. I enjoy going in for UG research, and learn a lot from it.  I also really like the UG research system, as it is a symbiosis, with both parties benefiting. It is difficult to tell others what to expect in the position, because that will vary greatly depending on what T.A. he/she works for, and what department of chemistry he/she works under.  In general, you should expect to aid the graduate student with their experiments in any way he/she asks, be it preparation work, clean up, experiment assistance, individual conduction of experiments, etc.
The best advice I have regarding UG research is to meet with the T.A. that you will be working for during the first week of the term and set up a timetable detailing what days and how many hours you will be coming in to work, fitting this timetable around both you and your T.A.’s schedule.  This assures that there will be no time conflicts for either of you, and will allow the research to run smoothly.

Guest Blogger: Stefan Lucchini

Undergraduate research began as something I heard really helped someone get into grad school.  I was by no means a 4.0 student, which made me worry about my chances of getting into top schools after graduating.  I knew that one of my best options for gaining a competitive advantage was going to be hands on experience working in research.  Being only a freshman taking general chemistry, I did not have the greatest qualifications nor much of an idea as to what specific areas of research interested me.  Knowing I had to act quickly to get as much experience as possible, I emailed every professor whose research sounded interesting.

The professor I ended up working for was Dr. Darrah Thomas, an emeritus professor.  His research focus is in electron spectroscopy of small molecules.  Working in research completely changed my perspective on education.  It allowed me to fast-forward to the part where I am making a lasting, substantial contribution to scientific understanding.  Prior to my work with Dr. Thomas, I was coasting along my undergrad without much drive at all to end up anywhere.  I had no goal and no clear understanding of what I hoped to become.  By working in research, I was immersed in the wonders of scientific pursuit.  It was inspiring and it resulted in a sharp increase in my academic performance.

While I thoroughly enjoyed the work I did for Dr. Thomas, I felt compelled to explore other areas of chemistry.  When considering just how long a career is, I wanted to make sure I have found exactly the right field for me to call home.  After working in physical chemistry, material science, and biochemistry, I decided to material science was a place I could call home.  It was the perfect combination of chemistry and physics, all while being a booming, growing field with an exciting future.  I have been working for Dr. Douglas Keszler for 2 years so far and intend to continue until I graduate.

My work with Dr. Keszler has been focused on the thickness changes and ion exchange of HfO₂₋x(SO₄)x (HafSOx).  HafSOx is an inorganic photoresist material discovered in the Keszler laboratory.  The key, distinguishing feature of HafSOx is that it is currently the world leader in lithography resolution.  Through use of electron beam simulation, it has been found that HafSOx will be capable of lithographic techniques using extreme ultraviolet light, which are currently in development.  It will be capable of creating 13.5nm devices.  The extreme resolution capabilities of HafSOx will enable to be used to create ultra-small transistors and other electrical devices.  I feel privileged to be a part of such an exciting research project!