Innovation and Emerging Technologies (IET) is a high-impact journal dedicated to pioneering research across applied science, engineering, medicine, and technology. We publish cutting-edge studies on emerging methodologies and innovations with the potential for significant real-world impact
As IET transitions to an Open Access platform, we aim to make high-quality research fully accessible, fostering rapid advancements that directly contribute to improving daily life. Our journal covers a wide array of disciplines, including alternative energy, cosmeceuticals, imaging technologies, medical devices, and molecular and cellular therapies, among others.
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Scope of the Journal:
Our scope includes innovative research methodologies, emerging technologies, and pioneering approaches at the early stages of development. The scope is broad, encompassing all relevant areas of science, engineering, and technology.
We also feature special issues on key topics such as:
- Biomedical
- Physics and Engineering
- AI and Surgery
- Learning Technologies and Cognitive Sciences
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IET is a vital resource for researchers, professionals, and academics, offering accessible content that bridges scientific discovery with practical application.
Featured authors
Farhad Aslani
Associate Professor, University of Western Australia |
| Dr Farhad Aslani is an Associate Professor in the Department of Civil, Environmental and Mining Engineering and the Director of the Materials and Structures Innovation Group at UWA.
Dr. Aslani is the UWA Lead for the $250M Australian Composites Manufacturing (ACM) CRC, which has the potential to secure over $20M in funding for UWA over ten years in collaboration with FUZE Solutions. He also leads the Engineering Materials research cluster at UWA, jointly with Professor Tim Sercombe, and leads the Multidisciplinary Material Sciences at the UWA Defence & Security Institute.
Dr Aslani holds the position of Program Leader for Research Program 4, which focuses on 'Design & Integration' within the ACM CRC based at The University of New South Wales.
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Title – Modular structural elements incorporating decommissioned flexible flowlines and geopolymer concrete
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Nicole Hashemi
Associate Professor, Iowa State University |
Nicole Hashemi is an Associate Professor at Iowa State University, specializing in microfluidics and flow chemistry. Her research objective is to understand how microfluidic transport could provide a fundamental science base for the novel fabrication of polymer microfibers with controlled size, shape, and molecular alignment. She has received various Honors and Awards throughout her career.
- NSF Mid-CAREER Advancement, 2023
- ISU Research Collaboration Catalysts, 2022 – 2023
- Elected Fellow of RSC, 2021
- Elected Fellow of ASME, 2020
- National Academy of Engineering US Frontiers of Engineering, 2018
- ISU Early Career Engineering Faculty Research Award, 2017
- ISU University Award for Excellence in Honors Teaching and Mentoring, 2016
- ISU Big 12 Faculty Fellowship Award, 2015
- National Academy of Sciences Kavli Frontiers of Science, 2013
- NRC/ASEE Research Publication Award, 2012
- ISU William March Scholar in Mechanical Engineering, 2011 – 2014
- National Research Council PostDoctoral Fellowship, 2008 – 2011
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Title – Placenta-on-a-chip: Response of neural cells to pharmaceutical agents transported across the placental barrier
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Nicolas Javier Alvarez
Associate Professor, Drexel University and CEO, Rheo Filament ApS |
| Nicolas Javier Alvarez is an Associate Professor at Drexel University, where he specializes in advanced materials and their applications in engineering. In addition to his academic role, he is the CEO of Rheo Filament ApS, a company focused on developing innovative solutions in the field of materials science. Dr. Alvarez combines his expertise in research and industry to drive advancements in technology, particularly in the development of novel materials and manufacturing processes. |
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Title – High-performance thermosets for additive manufacturing
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Giuseppe R. Palmese
Dean, Henry M. Rowan College of Engineering and Professor of Chemical Engineering |
| Giuseppe R. Palmese is the Dean of the Henry M. Rowan College of Engineering and a Professor of Chemical Engineering. He is known for his research in the areas of polymer science, materials engineering, and chemical processing. As a dedicated academic leader, Dr. Palmese works to advance engineering education and foster interdisciplinary research. His contributions to both teaching and research have positioned him as a key figure in the field of chemical engineering, while his leadership at Rowan University plays a crucial role in shaping the future of engineering education and innovation. |
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Title – High-performance thermosets for additive manufacturing
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Martin L. Yarmush
Professor, Department of Biomedical Engineering, Rutgers University |
| Martin L. Yarmush is a distinguished Professor of Biomedical Engineering at Rutgers University and a pioneer in the field of biomedical engineering. He is particularly known for his work in cell and tissue engineering, biotechnology, and regenerative medicine. His research has focused on areas such as organ preservation, therapeutic cell engineering, and bioengineering innovations to improve human health. Yarmush is a key figure in advancing technologies for drug delivery, organ transplants, and developing cell-based therapies.
In addition to his academic work, Yarmush has been instrumental in bridging the gap between basic science and clinical applications, working with various industries to translate research into practical medical solutions. He has published extensively and holds several patents in his field. Yarmush’s significant contributions have earned him recognition and leadership positions in scientific societies related to biomedical engineering and biotechnology.
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Title – The growing role of precision and personalized medicine for cancer treatment
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Ioannis P. Androulakis
Professor, Department of Biomedical Engineering, Rutgers University |
| Ioannis (Yannis) P. Androulakis is a Professor in the Department of Biomedical Engineering at Rutgers University. He is an expert in systems biology, biomedical data science, and computational modeling. His research focuses on integrating computational methods and biological data to understand complex biological systems, with applications in areas like personalized medicine, cancer, and metabolic diseases. His work often involves the development of mathematical models and algorithms to analyze biological networks, helping to advance therapeutic strategies and improve healthcare outcomes. Professor Androulakis has published extensively in these areas and is recognized for his contributions to the application of engineering principles to biological and medical challenges. |
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Title – The growing role of precision and personalized medicine for cancer treatment
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