Neri Oxman is a prominent designer, architect, and researcher whose work lies at the intersection of design, biology, and technology. She is known for her innovative approaches that integrate computational design with material science and biological processes. Oxman seeks to redefine the relationship between nature and the built environment, exploring how design can be informed by natural systems. Her projects often combine cutting-edge technologies, including 3D printing and synthetic biology, to create sustainable solutions that mimic the efficiency and elegance of natural forms. Oxman is also a professor at the MIT Media Lab, where she leads the Mediated Matter group. Her research focuses on developing new methodologies for design that utilize the principles of biology and ecology. By employing techniques from various disciplines, she aims to create materials and objects that are responsive to environmental conditions, thereby promoting sustainability. Her innovative work has garnered international recognition and has been exhibited in prestigious venues such as the Museum of Modern Art and the Smithsonian. Through her interdisciplinary approach, Neri Oxman is reshaping the future of design, encouraging a deeper understanding of how biological processes can inspire and inform architectural practices. Her contributions are pushing the boundaries of traditional design, advocating for a paradigm shift toward more ecologically responsible and integrative methodologies. Oxman's vision is a compelling call to rethink the ways in which human creations interact with the natural world, paving the way for a more symbiotic relationship between technology, nature, and design. Neri Oxman is a prominent designer, architect, and researcher whose work lies at the intersection of design, biology, and technology. She is known for her innovative approaches that integrate computational design with material science and biological processes. Through her interdisciplinary approach, Neri Oxman is reshaping the future of design, encouraging a deeper understanding of how biological processes can inspire and inform architectural practices.