UROP Research Mentor Project Submission Portal: Submission #1172 | Center for Undergraduate Research and Academic Engagement

Submission information

Submission Number: 1172

Submission ID: 20456

Submission UUID: 1522bf36-0447-4b4e-b679-20ac6f46db6c

Submission URI: /urop-research-mentor-project-submission-portal

Submission Update: /urop-research-mentor-project-submission-portal?token=vcsVIK2uLqwS7kVCaZORsLvw5a4kMj1ndyXRbqtQQvQ

Created: Fri, 08/15/2025 - 11:05 AM

Completed: Fri, 08/15/2025 - 12:09 PM

Changed: Mon, 09/08/2025 - 12:20 PM

Remote IP address: 146.201.201.51

Submitted by: Anonymous

Language: English

Is draft: No

Webform: UROP Project Proposal Portal

Submitted to: UROP Research Mentor Project Submission Portal

Research Mentor Information
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Primary Research Mentor Name: Johan van Tol
Research Mentor Preferred Pronouns: He/Him/His
When potential research assistants are reaching out via email, what is your preferred honorific?: Dr.
Contact Email (FSU Email if affiliated): jvantol@fsu.edu
Position Title: Faculty
FSU College (if applicable): Arts and Sciences
FSU Department or Non-FSU Organization Affiliation: National High Magnetic Field Lab
Headshot (optional): https://cre.fsu.edu/system/files/webform/urop_project_proposal_portal/20456/vanTolJohan.jpg

Additional Research Mentor(s)
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Research Assistant Supervisor (if different from above): {Empty}
Research Assistant Supervisor Preferred Pronouns: {Empty}
Research Assistant Supervisor Preferred Honorific?: {Empty}
Contact Email (FSU Email if affiliated): {Empty}
Name of Other Faculty/Collaborator(s) (if applicable): {Empty}
Other Faculty/Collaborator(s) Preferred Pronouns: {Empty}
Other Faculty/Collaborator(s) Preferred Honorific?: {Empty}
Contact Email (FSU Email if affiliated): {Empty}

Overall Project Details
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Title of the Project: Development of High Field Magnetic Resonance of Optically Excited States
Project Keywords: Magnetic Resonance, Laser, Spectroscopy
Are you currently looking for research assistants?: Yes
Number of Research Assistants Needed : 2
Relevant Research Assistant Major(s):
Physics, Chemistry, Engineering

Project Location:: Southwest Campus (Innovation Park), 1800 E Paul Dirac Dr
If the project location is off campus, does the research assistant(s) need to provide their own transportation?: The Innovation Route provides a (free) bus connection from Campus to Innovation Park
Please select the choice that most accurately describes your expectations for the research assistant(s):: In-person
Approximately how many hours a week would the research assistant(s) need to work?: ~6 hrs
Roughly what time frame do you expect research assistant(s) to work?: During business hours
Overall Research Project Description:
The goal of the project is to create a facility for Pulsed Electron Magnetic Resonance of Laser-Excited States at High Magnetic Fields.  That might not mean much for non-experts, so what we do in practice is to look at the magnetic and electronic properties of a molecule or a material immediately after it has been hit by an intense short laser pulse.  Many molecules and materials are non-magnetic in their normal ground state. However, when excited by light, they can exist for a short time in a magnetic state, or you can create a correlated pair of an electron and a 'hole', which both have a spin. This process forms the basis of many photo-chemical processes and solar energy applications. An example is photo synthesis of green plants and several types of bacteria. Without it, we would not have oxygen to breathe, and food to eat. We would not exist.  So while this is a basic research project, it has possible applications in solar energy, photo-chemistry, and possibly also carbon sequestration and quantum sensing. 

Research Tasks:
The research will consist of 2 parts, possibly spread over the 2 semesters.
1. Improving the reliability and signal-to-noise of the setup.
2. Making measurements and collecting data. 

Skills that research assistant(s) may need::
Required is to be serious in safety standards. This research deals with class 4 lasers, high magnetic fields, and cryogens, which all have associated risks. When following the appropriate procedures any risk are mitigated, but following the appropriate procedures is absolutely required. 

Other needed skills:
Good note taking, good communication
A recommended skill is technical drawing skills (Inventor or something similar)

Mentoring Philosophy:
My mentoring philosophy centers on empowering undergraduate students to become confident, curious, and capable contributors to their fields and communities. I strive to create a welcoming environment where students feel comfortable seeking guidance, asking questions, and expressing uncertainty.

As a mentor, I have my research goals and would like my mentee to advance these, but more important are the goals of the student. 
My mentoring approach is tailored to each individual student’s goals, strengths, and areas for development—whether academic, professional, or personal.

 I help students build core competencies such as critical thinking, communication, collaboration, and ethical reasoning through research, coursework, and extracurricular engagement. To help grow the student's research skills, I provide hands-on training, encourage independent inquiry, and promote dissemination through presentations and publications.

I foster a mentoring culture that values curiosity, accountability, and reflection. I regularly check in with students, provide constructive feedback, and celebrate their achievements. I also encourage peer mentoring and community-building among students.




Please provide a link to your publications, a video clip, or a website for your research project (if applicable):: https://nationalmaglab.org/staff/?name=JohanVan%20tol                        also:    https://pubs.acs.org/doi/10.1021/jp056223z
Please add any additional information here (if applicable)::
Some more links if you want to know more about electron (para)magnetic resonance and applications:
Video from instrument vendor             https://www.youtube.com/watch?v=b-x1KG0WbOg
Tutorials EPR from Manchester (UK)   https://www.chemistry.manchester.ac.uk/epr/resources/tutorials/
EPR of excited states in porphyrins      https://pubs.acs.org/doi/10.1021/acs.jpcc.1c03278
EPR of excited states in smiconductors   https://link.springer.com/article/10.1007/s00723-024-01695-3
Wikipedia Page on Singlet Fission (a possible application)       https://en.wikipedia.org/wiki/Singlet_fission


Are you interested in participating in the UROP Research Mentor Roundtable?: Yes
Roundtable times and Zoom links:
https://fsu.zoom.us/rec/share/r5VbEGAHYDXZ33NB3iCJH7YWQ3dW_jGsIXPjpBQQ6CupAjVGZcG6q7DnpiOdV60.QKnLBYLSnvtehm-D?startTime=1757017766000

Roundtable Info:
- Day: Tuesday, September 2
  Start Time: 5:00
  End Time: 5:30
  Zoom Link: https://fsu.zoom.us/j/95500473616
- Day: Thursday, September 4
  Start Time: 4:30
  End Time: 5:00
  Zoom Link: https://fsu.zoom.us/j/92306251041

UROP Program Elements
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Mentor Handbook, FAQs, and Communication: Yes
UROP Performance Evaluation: Yes
Materials Grant: Yes
UROP Poster Presentation: Yes

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Year: 2025
update url: https://cre.fsu.edu/urop-research-mentor-project-submission-portal?element_parents=elements/research_mentor_information/headshot_optional_&amp;ajax_form=1&amp;_wrapper_format=drupal_ajax&amp;token=vcsVIK2uLqwS7kVCaZORsLvw5a4kMj1ndyXRbqtQQvQ