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Welcome to the archive of Kansas NSF EPSCoR (KNE) news and announcements blog. Stay up-to-date with all the happenings, discoveries, events and funding opportunities associated with KNE by visiting https://nsfepscor.ku.edu./

Wednesday, November 16, 2016

Kansas EPSCoR AMO Physics Researcher Delivers Words of Encouragement to Hispanic STEM Students


Dr. Carlos Trallero
   Si  Se Puede Hacer Ciencias y Matematicas is an outreach program that invites 6th-8th grade Hispanic students to the Emporia State University (ESU) campus to participate in four hands-on workshops taught by Hispanic professionals from all over the state of Kansas. This year, Si Se Puede Hacer Ciencias y Matematicas was held on October 29, 2016, and Dr. Carlos Trallero, Associate Professor of Physics at Kansas State University and Kansas NSF EPSCoR researcher, delivered the keynote address to 70 Hispanic middle school students as well as a number of parents and teachers in attendance.  Dr. Trallero discussed the many hardships he faced as a student, how he over came them to reach his goals, and how it is so important to never stop trying no matter what obstacles students might face.  Last year Dr. Trallero led a workshop on "How the Internet Works." 
   The Si Se Puede Hacer Ciencias y Matematicas Saturday experience is an outreach program at Emporia State University (ESU) designed to increase Hispanic youth’s interest in science and mathematics, foster awareness of career opportunities in mathematics and science related fields, and provide an opportunity for students to interact with professionals working in STEM fields. Hispanic students in 6th-8th grade are invited to the ESU campus to participate in four hands-on workshops taught by Hispanic professionals from all over the state of Kansas. These workshops are designed to allow students to explore STEM topics such as: engineering, physics, medicine, chemistry, and veterinary medicine. This year, "students attended workshops where they built moon landers, excavated dinosaur bones, made ice cream, watched and participated in Chemistry and Physics experiments, and viewed X-rays of animals."
Students conduct a chemistry experiment using charcoal filters (right) and
students put the finishing touches on their moon lander (left). 
   Parents and teachers are also encouraged to attend adult sessions that focus on how to encourage Hispanic students to study STEM subjects and advice on how to support their students as they pursue and succeed in attaining a college degree.
  “We were very pleased with this year’s record attendance,” said Dr. Betsy Yanik, the program’s director. “The teachers, students and parents were highly complimentary of this year’s activities.”

Associate Professor Carlos A. Trallero participation in the Si Se Puede Hacer Ciencias y Matematicas as part of the outreach initiatives included in the Kansas-Nebraska EPSCoR Track 2 grant:  Collaborative Research: Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules and Nanostructures.

Monday, November 7, 2016

University of Kansas EPSCoR Track-2 Student Investigates Behaviors of Heterogeneous Catalytic Materials


   
Amy Jystad
   Amy Jystad, a graduate student in the department of Chemistry at the University of Kansas, is conducting simulations to study behaviors of heterogeneous catalytic material. Her research is part of the collaborative EPSCoR RII Track-2 FEC between the Center for Environmentally Beneficial Catalysis (CEBC) at the University of Kansas and the University of South Carolina. The project is titled Catalysis for Renewables: Applications, Fundamentals and Technologies (CRAFT). The overall goal of this EPSCoR project is to improve catalysts that convert the biomass, lignin, into commodity chemicals.
Amy's model
    Specifically, Amy's research focuses on "simulating the acidity behavior of the metal centers in metal-doped KIT-6 mesoporous silicates." There is a strong correlation between this acidity behavior and the catalytic activity of metals, such as zirconium, tungsten and niobium. Therefore, by using density functional theory simulations, Amy wants to better understand what determines this behavior. The long term goal of her research is to simulate the reaction mechanisms for the catalytic conversion of lignin into commodity chemicals that "may provide insights and guidelines for developing a renewable source of feedstock that can be used to manufacture plastics and other products currently made from petroleum crude." Her research could also provide beneficial insights for the other EPSCoR RII Track-2 FEC researchers.  Marco Caricato, Assistant Professor of Chemistry at the University of Kansas, is Amy's faculty mentor and is part of a core group at the CEBC using computer modeling methods to understand and optimize chemical processes.

The CEBC is a unique multi-scale, multidisciplinary research and education enterprise recognized as 
an international leader in the field of catalysis. Major companies—like Archer Daniels Midland, 
Chevron Phillips, DuPont, INVISTA, Reliance, Solvay, and UOP—choose to partner with the CEBC to leverage the center’s novel research and faculty expertise.

Tuesday, November 1, 2016

2016-2017 Community College Innovative Challenge Announced

picture from the NSF website
Attention Community College Students 

The National Science Foundation (NSF) and the American Association of Community Colleges (AACC) have teamed up to present the third annual Community College Innovation Challenge (CCIC).

To participate, community college teams of three to five students, a faculty mentor and a community/industry partner are required to collaborate on an innovative STEM-based solution to a real-world problem.  Issues can range from local to global concerns.  Teams will submit projects in one of three theme areas: Maker to Manufacturer, Energy and Environment, and Security Technologies. Each theme also list resource links to assist teams in the developing their project. An official entry consists of a written presentation and a 90-second video.

Winning teams will receive the following prizes:

  • First place: $1,500 per student team member.
  • Second place: $1,200 per student team member.

All entries must be received during the competition submission window from Oct. 14, 2016, to 11.59 p.m. EST, Feb. 15, 2017.  

Consult the Eligibility & RulesEntry Guidelines, Participant Guidelines, Getting Started TipsCompetition Process and Registration for more details related to the competition as well as visit the Promotional Toolkit, where you can download posters, postcards and more .

Wednesday, October 26, 2016

NSF EPSCoR announces new funding opportunity for non-tenured faculty: EPSCoR Research Infrastructure Improvement Track 4 "EPSCoR Research Fellows"

     EPSCoR Research Fellows (RII Track-4) is the fourth track within our EPSCoR Research Infrastructure Improvement (RII) program and is designed to provide non-tenured investigators opportunities to further develop their research potential through collaborative visits to the nation’s premier private, governmental, or academic research centers.  EPSCoR Research Fellows will be able to learn new techniques, access unique equipment and facilities, and explore transforming their research in new directions.  In addition, the experience is intended to establish a foundation for future research collaborations to span the recipient’s entire career, as well as enhance the research capacity of their institutions and jurisdictions.

Eligibility and assistance information: 
  • PIs for all RII Track-4 proposals must hold a non-tenured faculty appointment or its close equivalent, either in the form of a pre-tenure tenure-track position or a long-term non-tenure-track position. 
  • There is a limit of three proposal submissions per eligible institution.
  • Informational webinars for RII Track-4 are planned 2:00 PM Eastern Standard Time on November 29, 2016 and November 30, 2016
  • Additional guidelines
  • Full details for RII Track-4 are available in the solicitation, NSF 17-509. 

Proposals are due February 28, 2017.  


Research administrators and potential PIs at EPSCoR-eligible institutions are encouraged to participate on one of the listed webinars; further details for webinar access will follow soon.

The Experimental Program to Stimulate Competitive Research (EPSCoR) is designed to fulfill the mandate of the National Science Foundation (NSF) to promote scientific progress nationwide. A jurisdiction is eligible to participate in EPSCoR programs if its level of NSF research support is equal to or less than 0.75 percent of the total NSF research and related activities budget for the most recent three-year period (FY 2016 Eligibility Table). Through this program, NSF establishes partnerships with government, higher education, and industry that are designed to effect sustainable improvements in a jurisdiction's research infrastructure, Research and Development (R&D) capacity, and hence, its R&D competitiveness.

Thursday, October 20, 2016

Kansas EPSCoR Researcher featured in KSU News Release

Bret Flanders in  KSU Nanowire Lab
Source: KSU News Media
     Dr. Bret Flanders, Associate Professor of Physics at Kansas State University (KSU) and part of the Kansas and Nebraska Track 2: Collaborative Research: Imaging and controlling Ultrafast Dynamics of Atoms, Molecules and Nanostructures has been creating gold nanowires for the other physicists and chemists involved with the grant. One of Dr. Flanders’ EPSCoR research contribution is to create and supply nanowires to be used for experiments in both Kansas and Nebraska that involve electronic transfer.  This research was briefly discussed in an earlier Blog Post, Manhattan High School Student Explores Growing Nanowires. However, a new usage of his gold nanowires has emerged and these nanowires are now being used in a novel device, developed by KSU researchers, that could play an important role "during electrode and organ transplant procedures." The device uses Dr. Flanders' gold nanowires to manipulate and sense characteristics of individual cells.
Topographical Image of Gold Nanowire
Source: Nanotechnology 18 (2007) 175707
     These gold nanowires are 1,000 times smaller than a human hair with a diameter of less than 100 nanometers (cells in hair are about 10-20 micrometers in diameter, while red blood cells measure about 7 micrometers).  The Kansas State University article Growing gold: Researchers develop gold nanowires for biomedical procedures provides a more detailed explanation of the nanowire growth processes as well possible benefits the nanowires can contribute to the biomedical community.
   For more information about Dr. Flanders' gold nanowires and their biomedical research impacts, go to the KSU News article: Growing gold: Researchers develop gold nanowires for biomedical procedures.  The growing nanowire research has also been published in the journals Applied Physics Letters as well as Nanotechnology, and has been presented at meetings of the Materials Research Society and the American Physical Society.

The patent for the device was issued to the Kansas State University Research Foundation, a nonprofit corporation responsible for managing technology transfer activities at the university.



Thursday, October 13, 2016

The National Science Foundation and the National Nanotechnology Initiative Issue a Challenge

      

Generation Nano:  Small Science, Superheroes

   The National Science Foundation (NSF) and the National Nanotechnology Initiative (NNI) are excited to continue Generation Nano: Small Science, Superheroes! This competition asks high school students to choose a societal area to focus on and then design nanotechnology-enabled gear for an original superhero.
   Students can envision gear that is grounded in current research but not yet possible, allowing them to learn about the potentials and limitations of real-world nanotechnology. Students will first identify one societal mission from a list of four to address and then submit an entry with three parts: a written section, a short comic strip and a video. 

Contest Details: 
  • Who: A competition for high school students -- individuals or teams of two or three
  • What: A written entry, a 90-second video and a 2-3 page comic strip introducing the superhero and the student's nanotechnology-enabled mission.
  • When: Competition opens Oct. 5, 2016; Submissions are due by Jan. 31, 2017, 11:59 p.m. EST
  • Where: Learn more and submit entry at www.nsf.gov/GenNano
  • Why: To promote early interest in science, technology, engineering and mathematics.

Questions? 
Contact the Generation Nano team at gennano@nsf.gov.
Follow the Competition at #GenNano 

 
 

Tuesday, October 11, 2016

Kansas State University Distinguished Professor of Physics Creates a Unique Research Opportunity for Fort Hays State University Professor and Students

  As part of the Kansas NSF EPSCoR Collaborative Research: Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules and Nanostructures Track 2 Grant's Education, Outreach and Diversity Small College Research Initiative, Dr. Itzik Ben-Itzhak, Distinguished Professor of Physics at Kansas State University (KSU), invited  Dr. Jack Maseberg, Associate Professor of Physics at Fort Hays State University (FHSU), to participate in a research collaboration.  The purpose of this initiative is to encourage grant participants to work with small college faculty across the state to advance their career development, strengthen their curriculum and facilitate hands-on research opportunities for their students.
Equipment used in the Collaborative Experiments
  Last April, Dr. Maseberg and some of his students traveled to the KSU campus to conduct unique Atomic, Molecular and Optical (AMO) Physics experiments at the KSU James R. Macdonald Laboratory (JMR) with Dr. Ben-Izak's research team. According to Dr. Maseberg, "this research collaboration involved designing and performing an experiment to measure the Doppler-free kinetic energy release spectrum of diatomic molecules dissociated by double ionization (using either ultra-fast laser pulses or bunched charged-particle beams)." This specific project was chosen because it was a relatively simple experiment that could be easily understood by any undergraduate physics student. Dr. Maseberg stated that it was particularly beneficial for his students to be "able to visit the JMR Lab and be involved in experiment design, construction, data collection, and data analysis." In addition, his students were exposed to equipment and tools not available at FHSU, and they were able to participate in AMO research that would normally be outside of the scope and capabilities of the FHSU Physics Department.

Sam Devore, Summer AMO REU student
   As an unexpected favorable outcome of this collaboration, one of Dr. Maseberg's students who visited the lab in the spring, Sam Devore, applied and was accepted to continue work with Dr. Ben-Itzak as a participant in the KSU AMO Summer Research Experience for Undergraduates (REU) Program. After his spring visit, Sam gave a 50-minute public talk to the FHSU Physics Department discussing the initial experiments and the preliminary results. This presentation exposed the FHSU student body to the KSU Physics Department's AMO research possibilities, and encouraged FHSU students to explore future undergraduate and graduate research opportunities at KSU.  Sam will be giving another talk summarizing his entire experience just prior to his graduation in the spring of 2017 as part of his FHSU Physics Senior Seminar.
   Dr. Maseberg commented that this outreach initiative was of great benefit to him and his students. Specifically, it taught his students how to collect data on site and then process it remotely at their home campus. In addition, it exposed his students to the culture and benefits of collaborative physics research. As for his benefit from participating in the initiative, Dr. Maseberg he added, the ultimate goal of the collaboration for him "is to eventually publish the joint findings in a peer-reviewed journal article."

Funding for this Collaborative Research Experience was provided by the Kansas and Nebraska NSF EPSCoR Track 2 Grant #1430519 titled: "Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules, and Nanostructures."  The Grant's educational objectives are designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce and prepare a new generation for STEM careers in the areas of atomic/molecular/optical science.