Work with thought leaders and academic experts in Flexible Electronics

Companies can greatly benefit from collaborating with academic researchers in the field of Flexible Electronics. Here are some key reasons why: 1. Innovation: Academic researchers bring fresh perspectives and innovative ideas to solve complex problems in Flexible Electronics. 2. Cutting-edge Technology: Collaborating with researchers gives companies access to the latest advancements in Flexible Electronics, helping them stay ahead of the competition. 3. Expertise: Researchers possess in-depth knowledge and expertise in the field, providing valuable insights and guidance for companies. 4. Network: Collaborating with academic researchers allows companies to tap into a vast network of industry experts, fostering collaborations and partnerships. 5. Funding Opportunities: Researchers often have access to funding opportunities and grants, which can support joint projects and research initiatives.

Researchers on NotedSource with backgrounds in Flexible Electronics include Joseph Andrews, Christopher Muratore, Ahmad Kirmani, and Nathan James Pataki.

Joseph Andrews

madison, Wisconsin, United States of America
Appointed as Professor in Mechanical Engineering, and Electrical and Computer Engineering, and leader of the Laboratory for Printed Electronics and Sensors (LPES).
Education

Duke University

Ph.D, Mechanical Engineering / 2019

Durham, North Carolina, United States of America

University of South Carolina

BS, Mechanical Engineering / 2015

Columbia, South Carolina, United States of America
Research Expertise (5)
Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering
Instrumentation
Biomedical Engineering
Atomic and Molecular Physics, and Optics
About
Professor Joseph Andrews is jointly appointed in Mechanical Engineering and Electrical and Computer Engineering. He leads the Laboratory for Printed Electronics and Sensors (LPES). The focus of LPES is developing new printed electronic devices for interdisciplinary sensing applications. Novel electronic sensors are needed to usher in the coming age of more personalized medicine, data-driven diagnostics, and the “Internet of Things”. The inherit low-cost and flexibility associated with the fabrication technique motivates the use of printing for electronic sensors. The lab takes a holistic approach to the invention and design of electronic sensors with multiple layers of emphasis including ink development, print-process control design, and sensor validation. The impact of the work in LPES will manifest itself in many areas including biomedical research, harsh environment sensing, “smart” objects, and wearable devices.

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Christopher Muratore

24 Years Experience
Developing advanced thin film and coatings technologies to address issues in applications including bioengineering, nanoelectronics, flexible electronics, thermal interfaces, and mechanical contact surfaces for 25 years
Education

Colorado School of Mines

Ph.D. Materials Science

Golden, Colorado, United States of America

Colorado School of Mines

B.S. Metallurgical and Materials Engineering

Golden, Colorado, United States of America
Experience

University of Dayton

Ohio Research Scholars Endowed Chair Professor / December, 2013Present

Leads research team working with academic partners in addition to government and industry collaborators. One particular area of expertise is development of new technology enabling advanced thin film deposition methodologies.

US Air Force Research Laboratory

Research Team Lead / August, 2004December, 2012

Lead teams using advanced coatings materials and processes to address diverse technical problems including electrical performance in extreme environments, thermal management of electronics, and friction & wear of mechanical components.

US Naval Research Laboratory

Post-Doctoral Research Fellow / August, 2002August, 2004

Developed plasma-based processes for advanced surface engineering

Most Relevant Research Expertise
flexible electronics
Other Research Expertise (4)
2-D materials
sensors
plasma processing
tribology
About
Christopher Muratore is the Ohio Research Scholars Endowed Chair Professor in the Chemical and Materials Engineering Department at the University of Dayton. Prior to joining the University in 2012, Professor Muratore led different teams in advanced materials research efforts for 8 years at the Air Force Research Laboratory (AFRL). Muratore is currently involved with joint research efforts in areas of flexible sensors and electronics, systems for autonomous materials discovery, and materials for extreme environments with AFRL, along with mutual academic and industrial partners. He has published over 105 peer-reviewed articles and has 14 patents granted or pending.  Muratore is an AVS Fellow

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Ahmad Kirmani

Education

King Abdullah University of Science & Technology

Research Expertise (0)
About
• 8+ years experience in the Research industry with 35+ published papers in high-impact journals such as Advanced Materials and ACS Energy Letters• Focus on nanomaterials for optoelectronics• Expertise in next-generation thin film solar cells and flexible electronics• Inorganic semiconductor inks and coatings• Volunteer science writer for MRS Bulletin with 10+ published news articles, perspectives and opinions. This has involved interviewing leading experts in materials science

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Nathan James Pataki

Education

Politecnico di Milano

Ph.D., Physics / April, 2024 (anticipated)

Milan

University of Paris-Saclay

MSc, Chemsitry / August, 2020

Gif-sur-Yvette

Georgia Institute of Technology

BSc, Materials Science and Engineering

Atlanta, Georgia, United States of America
Most Relevant Research Expertise
flexible electronics
Other Research Expertise (14)
organic electronics
semiconductors
device fabrication
thermoelectrics
Endocrinology
And 9 more

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Example Flexible Electronics projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on Flexible Electronics?

Development of Flexible Electronics for Wearable Healthcare Devices

Collaborating with an academic researcher in Flexible Electronics can help healthcare companies develop wearable devices that monitor vital signs, track patient health, and provide real-time data for medical professionals.

Flexible Electronics for Smart Packaging

Companies in the packaging industry can benefit from collaborating with researchers to develop flexible electronics that enable smart packaging solutions, such as temperature monitoring, tamper detection, and interactive displays.

Flexible Electronics for Energy Harvesting

Collaborating with academic researchers can help energy companies explore the potential of flexible electronics in energy harvesting applications, such as solar panels, wearable energy generators, and self-powered sensors.

Flexible Electronics for Automotive Applications

Automotive companies can collaborate with researchers to develop flexible electronics for applications like flexible displays, smart sensors, and lightweight energy storage systems, enhancing vehicle performance and functionality.

Flexible Electronics for Aerospace Industry

Collaborating with academic researchers in Flexible Electronics can help aerospace companies develop lightweight and flexible electronic systems for aircraft, enabling advanced functionalities and reducing weight.