Prof. David Marshall Porterfield: Professor at Purdue University, United States
Dr. D. Marshall Porterfield is an internationally recognized scientist, professor, inventor, and former NASA division director whose work bridges the fields of space biology, biosensing, biomedical engineering, and agricultural systems. Currently a tenured professor at Purdue University and Chief of Science at Eden Grow Systems, he is known for pioneering research in bioregenerative life support systems, biosensor technology, and cellular biophysics. Over his 30+ year career, he has led multidisciplinary programs involving spaceflight research, biotechnology innovation, and environmental sustainability, contributing significantly to both Earth-based and extraterrestrial life sciences. His leadership at NASA’s Human Exploration and Mission Directorate advanced global space biology collaborations and research aboard the International Space Station, positioning him as a key figure in the development of technologies for deep space human habitation.
Online Profiles
Dr. Porterfield’s scholarly impact is reflected in his extensive citation record and publication metrics. As of August 2025, he has 7,070 total citations, with 1,866 citations since 2020, demonstrating both the longevity and continued relevance of his work. He holds an h-index of 46, indicating at least 46 publications with 46 or more citations each, and an i10-index of 100, showcasing the breadth of his impactful contributions. Since 2020 alone, he has achieved an h-index of 21 and an i10-index of 48, underscoring his recent and ongoing influence in fields ranging from biosensing and space biology to biomedical engineering and environmental technologies.
Education
Dr. Porterfield earned his Ph.D. in Plant Physiology and Space Biology from Louisiana State University in 1996, where his dissertation focused on plant root physiology and nutrient delivery systems under spaceflight conditions—a topic at the frontier of bioregenerative life support. Supported by a NASA Graduate Student Research Fellowship, he conducted multiple spaceflight experiments that helped lay the foundation for future closed-loop systems in space missions. He previously completed his B.S. in Cell Biology at the University of South Alabama in 1993, where he was awarded the George Barber Fellowship in Marine Sciences for his early research. His academic training reflects a strong integration of plant science, physiology, space biology, and applied technology.
Research Focus
Dr. Porterfield’s research is deeply interdisciplinary, focused on the interface between physiology, biophysics, and engineering to solve complex challenges in space exploration and environmental biotechnology. His work includes the development of microfluidic biosensors, electrochemical instrumentation, and self-referencing electrode technologies for measuring ion flux, gas exchange, and signaling at the cellular level. His more recent initiatives concentrate on bioastronautics, computational biosystomics, and hydroponic and microbial systems for sustainable space habitats. He is also advancing technologies in mycelium-based materials, oxygenation methods for agriculture, and precision biomedical diagnostics. This unique integration of fundamental biology and translational engineering makes his lab a hub for cutting-edge innovation in both space and terrestrial applications.
Experience
Dr. Porterfield has served in diverse and impactful roles throughout his career. At Purdue University, he holds appointments in Agricultural and Biological Engineering, Horticulture, and Biomedical Engineering, where he leads research and mentors graduate students. From 2012 to 2016, he served as Division Director for Space Life and Physical Sciences at NASA Headquarters, managing international spaceflight research programs and directing scientific operations aboard the International Space Station. His industry role as Chief of Science at Eden Grow Systems focuses on bringing space-grade technologies into commercial agriculture and habitat systems. Earlier positions include assistant professorships in Missouri and research roles at the Marine Biological Laboratory, where he developed foundational biosensing technologies. These cumulative experiences underscore his unique career at the intersection of academic research, federal science policy, and commercial innovation.
Research Timeline & Activities
Over the course of his career, Dr. Porterfield has led and contributed to more than 40 research projects, collectively totaling over $24 million in funding, with $8.3 million under his direct leadership. His work spans decades—from early plant physiology experiments on space shuttle missions in the 1990s to recent NASA Artemis-related research on lunar agriculture and spaceflight genomics. Notably, he has developed multiple patented biosensing systems, including DNA-modified carbon nanotube sensors and microfluidic arrays, and is actively advancing new patents in hydroponic oxygenation and mycoponic (fungal agriculture) systems. His research group has collaborated with NASA, NIH, EPA, USDA, DOD, and major companies such as Nestlé, and he continues to secure competitive grants from top federal agencies. His ability to translate fundamental discovery into applied technologies has made him a sought-after collaborator in both academic and commercial spheres.
Awards & Honors
Dr. Porterfield’s career has been marked by numerous prestigious awards and honors. In 2021, he was listed among the top 2% of cited scientists globally by Stanford University, reflecting his broad scientific impact. He is a Fellow of the American Institute for Medical and Biological Engineering (AIMBE), honored for bridging physiology and engineering in biosensor development. As a NASA Senior Executive, he was appointed to the National Science and Technology Council under the Office of the President. His earlier recognitions include the Halstead Young Investigator Award, Purdue University Faculty Scholar distinction, and the Distinguished Alumni Award from the University of South Alabama. He has served as President of both the Institute for Biological Engineering and the American Society for Gravitational and Space Biology, reinforcing his leadership across multiple scientific communities.
Top Recent Publication
One of Dr. Porterfield’s most impactful recent publications is titled “Microbiology of Human Spaceflight: Microbial Responses to Mechanical Forces that Impact Health and Habitat Sustainability”, co-authored with leading space life science researchers and accepted in 2024 for publication in Microbiology and Molecular Biology Reviews. This paper explores how microgravity and mechanical stimuli influence microbial behavior in space, affecting astronaut health and spacecraft environmental systems. The research integrates insights from spaceflight experiments, microbial ecology, and systems biology to inform design strategies for long-duration missions. It represents a culmination of Dr. Porterfield’s expertise in microgravity biology, cellular biophysics, and habitat design, and provides a critical foundation for safe and sustainable human presence in space.
Toxicological studies on silver nanoparticles: challenges and opportunities in assessment, monitoring and imaging
Authors: MC Stensberg, Q Wei, ES McLamore, DM Porterfield, A Wei, …
Journal: Nanomedicine, 2011
Citations: 594
Nitric oxide is involved in growth regulation and re-orientation of pollen tubes
Authors: AM Prado, DM Porterfield, JA Feijó
Journal: Oxford University Press for The Company of Biologists Limited, 2004
Citations: 334
Plant phenylacetaldehyde synthase is a bifunctional homotetrameric enzyme that catalyzes phenylalanine decarboxylation and oxidation
Authors: Y Kaminaga, J Schnepp, G Peel, CM Kish, G Ben-Nissan, D Weiss, …
Journal: Journal of Biological Chemistry, 2006
Citations: 333
Oxidative phosphorylation-dependent and -independent oxygen consumption by individual preimplantation mouse embryos
Authors: JR Trimarchi, L Liu, DM Porterfield, PJS Smith, DL Keefe
Journal: Biology of reproduction, 2000
Citations: 315
Nanostructuring platinum nanoparticles on multilayered graphene petal nanosheets for electrochemical biosensing
Authors: JC Claussen, A Kumar, DB Jaroch, MH Khawaja, AB Hibbard, …
Journal: Advanced Functional Materials, 2012
Citations: 291
Electrochemical biosensor of nanocube-augmented carbon nanotube networks
Authors: JC Claussen, AD Franklin, A ul Haque, DM Porterfield, TS Fisher
Journal: ACS nano, 2009
Citations: 285
Strength for the Best Innovator Award
Prof. David Marshall Porterfield
Prof. David Marshall Porterfield stands out as an extraordinary innovator whose pioneering work has significantly advanced space biology, biosensing technology, and biomedical engineering. With over 7,000 citations, an h-index of 46, and an i10-index of 100, his research has not only shaped academic thought but has also driven practical applications in both space and Earth-based environments.
His groundbreaking inventions—including patented DNA-modified carbon nanotube biosensors and innovative hydroponic oxygenation systems—demonstrate a rare blend of deep scientific insight and engineering excellence. His leadership roles at NASA and Purdue University, alongside his industry impact as Chief of Science at Eden Grow Systems, highlight his ability to bridge fundamental research and commercial innovation.
Prof. Porterfield’s sustained high-impact contributions, backed by over $24 million in research funding and global collaborations, underscore his visionary approach to solving complex biological and engineering challenges. His work lays a critical foundation for future space exploration and sustainable agriculture, making him an outstanding candidate for the Best Innovator Award.