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Draft:Ritu Raman

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Ritu Raman. Introduction: Ritu Raman is an esteemed bioengineer and the d’Arbeloff Career Development Assistant Professor of Mechanical Engineering at MIT. She specializes in designing adaptive biological materials for applications in medicine, robotics, and other fields. Raman is recognized for her innovative approach to integrating biological components with engineering systems, aiming to create biohybrid technologies that can adapt and respond to their environments. Raman grew up in India, Kenya, and the United States where she learned to thrive in different diverse environments.

Education: Ritu Raman earned an undergraduate Bachelor of Science in Mechanical Engineering from Cornell University. After her time at Cornell, she then pursued her graduate studies at the University of Illinois at Urbana-Champaign, where she got a Ph.D. in Mechanical Engineering. Her doctoral research focused on the development of biohybrid systems that integrate biological cells with synthetic materials to create responsive, dynamic systems. Raman has a solid foundation in the intersection of biology and engineering from her studies.

Innovation: Rita Raman has developed groundbreaking techniques to create biological materials used in engineering applications, her other notable innovations are mainly in the field of biofabrication, a branch of biotechnology. One of her significant contributions is the development of "biohybrid actuators," which combines biological muscle tissues with synthetic materials to create devices that can move and perform functions similar to natural muscles. These biohybrid systems have potential applications in medical devices, robotics, and prosthetics, offering new solutions for improving human health and enhancing machine functionality.

Impact: Raman's work has a profound impact on both scientific research and practical applications. Her innovations in biohybrid systems have opened new opportunities for creating responsive, adaptive technologies that bridge the gap between biology and engineering. By developing materials that can integrate seamlessly with biological systems, she is paving the way for advances in regenerative medicine, including the development of more effective prosthetics and implants. Moreover, her research contributes to the broader field of soft robotics, which seeks to create machines that are more flexible and capable of interacting safely with humans. Ritu Raman's work not only advances scientific understanding but also holds promise for improving quality of life through technological innovation.

Honors and Awards: 2024, Office of Naval Research YIP Award 2024, Terasaki Institute Young Innovator Award 2023, MIT Faculty Founder Innovation Fellowship 2023, NSF CAREER Award 2022, Army Research Office YIP Award 2021, National Academy of Sciences Kavli Frontiers of Science fellow 2019, MIT Technology Review 35 Innovators Under 35 2019, Science and Sartorius Prize for Regenerative Medicine and Cell Therapy 2018, Forbes 30 Under 30 2011, Mechanical Engineering Innovation Award

References

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Raman, Ritu. Biofabrication. Cambridge, MA: The MIT Press, 2021. ISBN 9780262366755. Raman, Ritu. "Assistant Professor at MIT." LinkedIn. Accessed June 17, 2024. https://www.linkedin.com/in/rituraman/ Raman, Ritu. Ritu Raman's Website. Accessed June 17, 2024. https://rituraman.com/ Raman, Ritu. "Google Scholar Profile." Google Scholar. Accessed June 17, 2024. https://scholar.google.com/citations?user=nQrGI6kAAAAJ&hl=en Raman Lab Team. "Raman Lab Team Members." Raman Lab, Massachusetts Institute of Technology. Accessed June 17, 2024. https://ramanlab.mit.edu/team/