Examples of Applications

PAC Travel Award

The 2024 Spring Travel Award Winners

Thank you to all who submitted applications to this year's PAC Spring Travel Award! We received many competitive applications and it was difficult to choose only two awardees. Congratulations to the 2024 Spring Travel Award winners Dr. Melanie Henry and Dr. Ekaterina Landgren!

1st Place Winner: Dr. Melanie Henry (Integrative Physiology)​            
 

Melanie Henry

2nd Place Winner: Dr. Ekaterina Landgren (Cooperative Institute for Research in Environmental Sciences)​            

Ekaterina Landgren

The 2024 Fall Travel Award application is now CLOSED!

Applications were due May 10, 2024 @ 11:59 PM MST.

Rules

  • Two awards: 1st Prize - $500, 2nd Prize - $200
  • The award can be used towards conference registration fees.
  • For conferences between  January 1, 2024 - June 30, 2024. (Yes, you can apply for the award even if you already attended the conference).  
  • Submissions will be judged blindly. 

To apply, you need to answer two questions:

  • What are you presenting at the conference?

Provide a maximum 200 words lay abstract that is accessible to a general audience and explains the impact of the science you are presenting, either to your scientific field and/or the broader community.

  • Outside your presentation and networking, what activity (activities) will you be doing to develop your career/transferrable skills? 

Provide a maximum 200 words paragraph describing how you will be using resources during the conference to develop your career transferrable skills (e.g., chairing a session, participating in a career development workshop, judging presentations, etc.). Many conferences provide opportunities for early career scientists to develop their transferable skills. The National Postdoctoral Association has listed 6 core competencies necessary for a postdoc to develop during their time postdocing that they may not receive in the work in the laboratory () that the conference provides. Finally, numerous national and international professional organizations provide resources for this development, further indicating the importance of taking advantage of these opportunities to improve your postdoctoral training

You will also need to upload a pdf file showing proof of abstract submission (email, web confirmation, etc.)

 

What are you presenting at the conference?

Example 1Example 2
Before the arrival of clinical symptoms, there are many molecular-level changes in the body that can indicate the presence of a disease. When doctors make a diagnosis, they often look for changes in the concentration of specific molecules, called biomarkers. These changes can be detected using a biosensor that recognizes the target biomarker in a patient’s blood, urine, or other bodily fluid and produces a detectable signal. However, these tests can be expensive and require special storage conditions, preventing their widespread use. I will be presenting my work on the development of portable, inexpensive diagnostic tools which use synthetic receptors, called molecularly imprinted polymers (MIPs), instead of natural receptors, such as antibodies, which are currently used in most diagnostic tests. MIPs have several advantages over antibodies, including lower cost of production and better environmental stability. In this work, I synthesized MIPs on the surface of nanomaterials with unique properties that enable signal production upon binding to protein biomarkers. I am currently working with lysozyme, a biomarker for several diseases including leukemia, multiple sclerosis, and Sjögren’s syndrome. The technology developed in this work could be adapted and applied for diagnosis of a variety of other diseases.Production of small particles from the emissions of human activities in large urban areas are detrimental to human health, leading to approximately 3.3 million premature deaths per year. An important component of these particles are organic particles, which are primarily produced through rapid gas-phase chemistry; however, it has been historically difficult to predict both the production and amount of organic particles in large urban areas. This impacts the ability to reduce the emissions that lead to organic aerosols and the premature deaths. Here, I use data collected from numerous cities around the world to further explore the chemistry that controls organic particle production. I find that I can explain the production of organic particles through differences in the emissions from these urban areas with just four compounds. With this, I have started looking into the impact of reducing emissions associated with these four compounds in a chemistry model to investigate the reduction in premature deaths per year. These results will improve the atmospheric chemistry community’s understanding of organic particle sources and health impacts, and will inform policy maker’s what emissions should be reduced to improve air quality around the world.