Introduction:
Venture into the groundbreaking realm of the Wyss Institute for Biologically Inspired Engineering at Harvard University. Since its inception in 2009, the Wyss Institute has been a bastion of innovation, redefining the boundaries between biology and engineering. By harnessing nature’s design principles, the Institute has developed new materials, devices, and systems that solve complex challenges in healthcare, energy, and the environment, embodying the ethos of innovation inspired by nature.
History:
Established through a transformative gift from Hansjörg Wyss, the Wyss Institute was founded with the vision of creating a new model for collaboration and technology translation. The Institute brings together world-class scientists, engineers, clinicians, and entrepreneurs across disciplines to explore bioinspired solutions and create a bridge between academia and industry. Its unique model fosters a culture of high-risk research and rapid translation of discoveries into practical applications.
The Latest Bing News on:
Wyss Institute for Biologically Inspired Engineering Research
- High school student helps transform 'crazy idea' into innovative research tool
A 'crazy idea' hatched during a walk in the woods and first tested by a high school student is now an innovative research tool used by scientists worldwide to predict neurotransmitters in fruit fly ...
- Interview With Donald E Ingber
Dr Ingber is a founder of the emerging field of biologically inspired engineering, and at the Wyss Institute ... of the National Space Biomedical Research Institute, and is a member of both ...
- Expanding a lymph node, boosting a vaccine
For the first time, researchers from the Wyss Institute for Biologically Inspired Engineering at Harvard University, Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), ...
- Plastic Degradation Company, Breaking, Emerges from Stealth with Naturally-Derived Solution to Degrade Multiple Plastics with $10.5M in Seed Funding
BOSTON & DALLAS, April 17, 2024--(BUSINESS WIRE)--Breaking, a plastic degradation and synthetic biology company, gestated at Colossal Biosciences based on a core discovery out of the Wyss ...
- Wyss Institute’s AminoX project receives funding from Northpond Labs to accelerate innovation in protein-based therapeutics
The Wyss Institute for Biologically Inspired Engineering at Harvard University is a research and development engine for disruptive innovation powered by biologically-inspired engineering with ...
The Latest Bing News on:
Wyss Institute for Biologically Inspired Engineering Discovery
- Interview With Donald E Ingber
Donald E Ingber, MD, PhD, speaks to Hannah Stanwix, Managing Commissioning Editor: Donald E Ingber is the Founding Director of the Wyss Institute for Biologically Inspired Engineering at Harvard ...
- Expanding a lymph node, boosting a vaccine
For the first time, researchers from the Wyss Institute for Biologically Inspired Engineering at Harvard University, Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), ...
- This Harvard spinoff uses plastic-eating microbes to clean up waste
Breaking, a new startup, is now turning the discovery into a service ... The work started at Harvard’s Wyss Institute for Biologically Inspired Engineering. Then it was incubated by Colossal ...
- Plastic Degradation Company, Breaking, Emerges from Stealth with Naturally-Derived Solution to Degrade Multiple Plastics with $10.5M in Seed Funding
gestated at Colossal Biosciences based on a core discovery out of the Wyss Institute for Biologically Inspired Engineering at Harvard University, launches today with the announcement of their ...
- Wyss Institute’s AminoX project receives funding from Northpond Labs to accelerate innovation in protein-based therapeutics
(BOSTON) — The Wyss Institute for Biologically Inspired Engineering at Harvard University and Northpond Ventures announced today that the VC firm’s affiliate Northpond Labs has signed an ...
Top 10 Innovations:
- Organs-on-Chips: Microfluidic devices that mimic human organs’ microarchitecture and functions, revolutionizing drug testing and disease modeling.
- Soft Robotics: Development of soft, flexible robots inspired by biological organisms, expanding the potential applications of robotics in medicine and research.
- CRISPR-Cas9 Gene Editing Tools: Advanced tools for precise genetic modifications, contributing significantly to the field of gene editing.
- Vaccination via Skin Patches: Pioneering needle-free vaccination methods that use skin patches, enhancing vaccine delivery and accessibility.
- 3D Organ Printing: Breakthroughs in bioprinting functional, three-dimensional tissues and organs.
- DNA Data Storage: Innovative techniques for storing data in DNA, providing a high-density, sustainable medium for data storage.
- Antibacterial Surfaces: Development of surfaces with inherent antibacterial properties to prevent infections in clinical settings.
- Responsive Biodegradable Materials: Creating smart materials that can respond to environmental stimuli and are biodegradable.
- Wearable Biosensors: Advanced wearable technologies for real-time monitoring of various health indicators.
- Biomimetic Antifouling Coatings: Coatings inspired by nature that prevent the accumulation of marine organisms on surfaces, applicable in shipping and marine industries.
Top 10 Innovators:
- Donald Ingber: Founding Director of the Wyss Institute, known for his work on organs-on-chips and biologically inspired engineering.
- George Church: A pioneer in genomics and CRISPR technology, contributing to advancements in gene editing and synthetic biology.
- Jennifer Lewis: Renowned for her contributions to 3D printing and bioprinting technologies.
- James Collins: A leader in synthetic biology, developing innovative tools and methods in gene editing.
- Kit Parker: Noted for his work in biomimetic microsystems and soft robotics.
- Pamela Silver: Expert in synthetic biology, contributing to the understanding of cellular design and function.
- Joanna Aizenberg: Known for her work in biomimetic materials, particularly antifouling surfaces.
- David Mooney: Recognized for his contributions to tissue engineering and regenerative medicine.
- Samir Mitragotri: A leading figure in drug delivery and transdermal vaccine patches.
- Robert Wood: Renowned for his work in soft robotics and micro-robotics.
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