Laying the groundwork for new science helps launch transformative research. That’s why we equip researchers at the University of Wisconsin-Madison with tools and collaborative equipment to explore new research ideas, and with funding for new studies, experiments, and seminar series. These flexible awards remove boundaries to scientific creativity, allowing for the exploration of new opportunities.
Atomic Layer Deposition (ALD)
Victor Brar, Assistant Professor, Physics
“I am excited about using ALD to create next generation optical devices that could drastically reduce the cost of chemical sensors, which can be used for air or soil analysis. We can now design and optimize theoretical structures that have precise dimensions, and we know that such devices can actually be realized with nanometer accuracy. These proposed structures have been the foundation of several strong industry partnerships. ALD can dramatically broaden the materials available for quantum computing devices, and we have proposed a number of studies using ALD that have been included in proposal submissions to DOE, ONR, and NSF.”
Computing in Engineering Forum
Dan Negrut, Professor, Mechanical Engineering
“The forum was an excellent opportunity to bring together labs, universities, and corporations across the world to learn about our cutting-edge research. We use computer simulation to improve engineering solutions to practical problems, such as how a rover should be designed to operate on a moon of Mars, or how autonomous vehicles respond when faced with unexpected scenarios. The free simulation software I produce with my students is used by these groups in extraterrestrial applications, machine learning, image processing, architectural studies, autonomous vehicles, bridge suspension, and more.”
Vagal Neuromodulation Therapy
Luis Populin, Associate Professor, Neuroscience
This project tests ways to carefully stimulate the vagus nerve (VNS) to help treat Inflammatory Bowel Disease (IBD). Because IBD is long lasting and remitting in nature, stimulation of the VNS on a patient-specific basis can provide significant relief through reducing inflammation, and, thus, diarrhea symptoms. This seed funding allowed for cross departmental collaboration between the Department of Neuroscience and the Department of Biomedical Engineering, as well as UW researchers to seek industry partnerships to develop these ideas and move toward implementation.
Machine Learning for Medical Diagnosis
Dane Morgan, Harvey D. Spangler Professor of Engineering, Materials Science and Engineering
Collaboration between UW radiologists and engineers is innovating new ways to apply machine learning to improve disease diagnosis methods. This project in particular is developing and automating machine learning technology to improve the speed and accuracy of kidney cancer diagnosis, and could also be used to simplify and ease the identification processes for other life-threatening conditions. Continuation of these partnerships can make this kind of technology reality and save lives in the process.
Machine Learning for Medical Imaging (ML4MI)
Diego Hernando, Assistant Professor, Radiology
Varun Jog, Assistant Professor, Electrical and Computer Engineering
The GIE seed grant was awarded to help bring deep learning techniques to physicians and researchers who do not have expertise or experience in computer programming, machine learning or data science. By creating an open-source, fully graphical and user-friendly tool, the researchers expect to increase accessibility to deep learning methods important for the detection, classification, and diagnosis of disease.
Next Generation Reactor Materials
Adrien Couet, Assistant Professor, Engineering Physics
This preliminary research seeks to provide proof-of-concept for combining four different metals using a 3D printer, then testing the chemical, mechanical and microstructural properties of the resulting parts. This work was made possible in part by industrial collaboration and supported the submission of a multi-million-dollar research grant. Aspects of this work have also been submitted to WARF for patenting.
Krishnan Suresh, Professor, Mechanical Engineering
Buzz Rankouhi, PhD Candidate, Mechanical Engineering
The ability to use multiple materials within one build can enhance the functionality of parts made via additive manufacturing methods. Further experiments are being conducted to characterize the mechanical and metallurgical properties of these multi-material components. This research was made possible in part by support from a UW2020 grant and has been approved by WARF for patenting.
Gregory Nellis, Professor, Mechanical Engineering
Air-cooled heat exchangers printed in 316L stainless steel have unique geometries, allowing researchers to study advanced methods of dry-cooling. This research was made possible in part by support from a UW2020 grant.
Animal Fluid Dynamics
Warren Porter, Professor Emeritus, Integrative Biology
To study the effect of environmental conditions on animal fluid dynamics, stainless steel animal figurines will be heated and placed in a wind tunnel to monitor heat loss, giving researchers insight into optimal animal model development and processes. This research was made possible in part by support from a UW2020 grant.
Kevin Eliceiri, Associate Professor, Medical Physics
A proof-of-principle aneurysm clip printed in stainless steel for a human artery implant study gave researchers the ability to investigate design challenges in preparation for clinical use. This research was made possible in part by support from a UW2020 grant, and has been accepted for publication to the ASME Journal of Medical Devices.