Lehigh University has once again showcased its strength in advancing scientific research through the recognition of Professor Christopher J. Kiely, who has been selected as the recipient of the esteemed Microanalysis Society’s Presidential Science Award for the year 2025. This award is not merely an accolade; it stands as a testament to Kiely’s exemplary contributions to the field of microanalysis, particularly in transmission electron microscopy (TEM) and its applications in materials science.
Kiely serves as the Harold B. Chambers Senior Professor in the Department of Materials Science and Engineering at Lehigh University. His innovative work over several decades in the realm of TEM imaging and spectroscopy has garnered him an international reputation, placing him at the forefront of microanalysis research. This award, which honors senior scientists for their sustained technical contributions, underscores his commitment and excellence in the field. Notably, the announcement was made during the plenary session of the Microscopy and Microanalysis (M&M) 2025 meeting in Salt Lake City, further amplifying the significance of this recognition within the scientific community.
His pioneering research has spanned across critical topics, including advanced aberration-corrected analytical electron microscopy (AC-AEM), scanning transmission electron microscopy (STEM), and the complex interactions of various nanoscale materials. Kiely’s specialized focus on catalyst material characterization holds substantial implications for future technologies, particularly in the realms of energy conversion and storage. By leveraging his comprehensive understanding of nanostructures and their interactions, he has contributed to significant advancements in biomaterials, quantum dot technologies, and carbonaceous materials, enhancing the potential for novel applications.
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Through his role as the director of the Materials Characterization Facility at Lehigh, Kiely has not only contributed to research but also to education in microscopy. His leadership of the Lehigh Microscopy School from 2004 to 2024 stands testament to his dedication to training the next generation of scientists and engineers. The school has developed a reputation for excellence, providing students and professionals alike with the necessary skills and knowledge to excel in the fast-evolving field of microscopy. This merging of educational pursuits with cutting-edge research has significantly enriched the community and the broader field of materials science.
Kiely’s expansive career has produced over 350 journal articles and 220 conference papers, showcasing the depth and breadth of his research endeavors. His collaborations extend internationally, particularly with the Cardiff Catalysis Institute in the United Kingdom. This collaboration has enabled fruitful exchanges of ideas and methodologies, thereby enhancing research capabilities on both sides of the Atlantic. The volume and impact of his publications demonstrate not only his active engagement with the global scientific community but also his influence over emerging scientific paradigms in microanalysis and materials characterization.
In 2020, Kiely was honored with the title of Fellow of the Microanalysis Society, further solidifying his status as a leader in the field. This accolade is reserved for individuals who have made outstanding contributions to scientific knowledge and understanding within the microanalysis community. Through both his academic achievements and his active participation in professional societies, Kiely has established a legacy that will inspire future researchers to build upon the solid foundation he has helped to create.
Colleagues describe Kiely as an embodiment of the impact that Lehigh University has had on materials science and microanalysis. Dr. Ricardo H.R. Castro, Professor and Chair of the Department of Materials Science and Engineering, emphasized that Kiely’s enduring contributions to research and education have carved a long-lasting impression in the scientific landscape, motivating subsequent cohorts of microscopists. This recognition not only reflects his dedication but also the collaborative spirit of the research community at Lehigh.
As the field of materials science continues to evolve, leaders like Kiely will play pivotal roles in pushing the boundaries of what is possible with advanced microscopy techniques. The future of catalyst development, nanotechnology, and materials innovation is intrinsically linked to the capabilities of researchers like Kiely, who are dedicated to unlocking the potential of materials at the atomic and molecular levels.
Looking ahead, Kiely expresses deep gratitude for this recognition. He acknowledges the vital roles played by his colleagues, students, and myriad collaborators who have joined him in this ongoing journey of inquiry and discovery. Their shared dedication to exploring the intricacies of materials science embodies the collaborative ethos essential for groundbreaking advancements in research and education.
In conclusion, the selection of Christopher J. Kiely for the Presidential Science Award heralds a significant recognition not only of his individual achievements but also of the thriving research environment fostered at Lehigh University. As he continues his work in materials science and engineering, the implications of Kiely’s research will likely reverberate through the scientific community, inspiring future innovations that have the potential to transform how we understand and utilize materials.
Subject of Research: Advanced Transmission Electron Microscopy and its Applications in Materials Science
Article Title: Christopher J. Kiely Receives 2025 Microanalysis Society Presidential Science Award
News Publication Date: October 2023
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Image Credits: Courtesy of Lehigh University
Keywords
Materials science, Microscopy, Electron microscopy, Nanotechnology, Catalysis, Spectroscopy, Imaging, Scientific conferences, Scientific associations.
Tags: aberration-corrected analytical electron microscopyChristopher J. KielyLehigh University research advancementsmaterials science contributionsMicroanalysis Society Presidential Science AwardMicroscopy and Microanalysis 2025 meetingnanoscale materials interactionsProfessor in Materials Science and Engineeringscanning transmission electron microscopy innovationsscientific community recognitionTEM imaging and spectroscopy researchtransmission electron microscopy applications