At Tyndall National Institute, we are delighted to partner with the Institute for Materials Research (IMR) at The Ohio State University, one of the top-20 public universities in the U.S., to launch a new program to immediately advance international research projects and lay the groundwork for increasing research collaborations between us.
The goal of the joint Catalyst Award is to stimulate new projects and accelerate results in areas which build on the complementary assets of both institutes. In the short-term, it will lead to joint publications and joint proposal development for high-impact research in areas aligned with the priorities of both IMR and Tyndall. These include scientific and engineering endeavors in areas such as advanced semiconductors, photonics, emergent materials, quantum science and technologies, medical devices, sustainable materials and advanced manufacturing.
“Tyndall is a powerhouse research and innovation center in a number of areas that are well aligned with IMR’s signature areas and the interests of many of our faculty,” said Professor Steven A. Ringel, IMR Executive Director. “We are honored by the establishment of this strategic, international partnership. The two pilot projects already underway highlight the wide range of our common interests, and I am looking forward to their success and further growing the Tyndall-IMR collaboration.”
Each Catalyst research team consists of two principal investigators with complementary expertise, one from each institute. The research team will have access to a €25K Catalyst Award which will allow them to access to expertise and state-of-the-art infrastructure across both institutes.
“We are proud to expand Tyndall’s successful Catalyst Award internationally in this collaboration with the renowned Institute for Materials Research at The Ohio State University,” said Professor William Scanlon, Chief Executive Officer a Tyndall. “The initiative has launched with research from world-leading researchers at both locations covering the areas of nanomagnetic materials and compound semiconductor-based photonic integration. I’m excited to see the positive impacts of their ground-breaking research come to light.”
Advancing data storage
Dr Lynette Keeney at Tyndall, designed a rare multiferroic (intertwining ferroelectric and ferromagnetic properties) material which allows for innovative ways of manipulating data and storing information.
In this exciting new project, Lynette has fostered a new collaboration with Dr Núria Bagués Salguero and Prof. David McComb at the Center for Electron Microscopy and Analysis (CEMAS) at IMR. Their expertise in atomic resolution, direct electron detection electron energy loss spectroscopy (EELS) will allow the team to directly “see” the atoms responsible for ferromagnetic behaviour and will enable them to determine the charge that these atoms carry.
These scientifically challenging experiments will progress the fundamental understandings of the factors controlling the unique multiferroic properties of this intriguing material, so that we can optimise properties and exploit this material for future data storage applications.
Photonic integrated circuits
Shamsul Arafin, an assistant professor in Ohio State’s Department of Electrical and Computer Engineering, is collaborating with Tyndall’s III-V materials and devices group leader Brian Corbett. Their team is investigating materials and device technology that will lead to the development of visible light Photonic Integrated Circuits (PICs).
Compact PICs based on visible light could be applied in monitoring, sensing, atomic clocks and information processing systems. For example, in healthcare, the technology could be leveraged for on-chip sensing to detect biomolecules.
Ohio State and Tyndall are an ideal match in the pursuit to develop a visible light platform. Researchers at Tyndall had previously established processes to incorporate active components by transfer printing for heterogeneous integration. Ohio State researchers have a deep interest in the topic with expertise in the design of PICs and lasers, as well as fabrication and measurement of lasers.
The team’s vision is to integrate on-chip pump lasers by transfer printing on the non-linear PIC to produce green light by second harmonic generation. In this pursuit, researchers will utilise spaces at both institutions: Tyndall’s Specialty Products and Services labs and Ohio State’s Nanotech West Laboratory, Semiconductor Epitaxy and Analysis Laboratory, and the Center for Electron Microscopy and Analysis.
The Tyndall Catalyst Award was established in 2017 by Graeme Maxwell, Head of Specialty Products & Services at Tyndall. Commenting on the international expansion, Graeme concluded: “I am delighted to see our first joint Catalyst Award is off to such a successful start and I look forward to welcoming new applications in July.”