Focused on bringing together biological and digital technologies to transform architecture, the Institute for BioDigital Architecture and Genetics at the International University of Catalonia (iBAG-UIC) in Barcelona, has announced a collaboration with 3D printer manufacturer FELIXprinters to bioprint and test a line of new living biomaterials for sustainable architecture.
The iBAG-UIC's unique approach to biodigital architecture is part of a novel form of biological intelligence, where the interaction between genetics, digital manufacturing, and machine learning lays the groundwork for a vanguard urban landscape of 'œliving' architectural designs. Biodigital architecture 'œcombines nature's intelligence and computational-based technology,' stated the institute, based on the assertion that nature has all the answers and that as our scientific understanding advances, so does our ability to grasp what nature has to reveal.
Committed to adopting and employing the latest advances in digital fabrication technologies, the iBAG-UIC was one of the first innovation centers to include different types of 3D printing technologies and machines in its architectural design and fabrication process. Through the new collaboration, the institute's research line of bioactive tissues, managed by Yomna K. Abdallah, an Assistant Professor at the UIC's Department of Architecture, will use FELIXprinters' BIOprinter device to investigate biomaterials, that will serve to create sustainable and eco-friendly structures that will integrate into the natural environment and ecosystem.
One of the latest additions to the Dutch-based 3D printer manufacturer's broadening portfolio is the BIOprinter. Designed to work for all types of bioprinting research, the competitively-priced device is the first machine of its kind in the Netherlands according to Guillaume Feliksdal, Founder and Director of the business. BIOprinter is a biofluid friendly extrusion system and hybrid 3D printing technology that simultaneously enables filament extrusion printing and hydrogel bioprinting, capable of incorporating in the same scaffold different material properties. Equipped with strong motors that can extrude a wide range of material types and viscosities, the machine is quite unique due to its modular design, easily upgradable features, and compatibility with any standard 5 ml syringe.
The printer will serve as an experimental basis for testing the printability of different compositions of customized bioinks and their rheological properties in the printing and post-printing process of cross-linking. According to iBAG-UIC, this phase is crucial to control the biomaterial tissue's chemical, physical, and structural properties while maintaining their bio-viability. Finally, during the post-printing phase, iBAG-UIC researchers will experiment with the proliferation, differentiation, functionality, morphogenesis, and independent pathways of the printed biomaterials. During this final phase, the institute will create a pilot architectural built environment to test the biomaterials in real-time and under true operating conditions.
For two decades, new technologies have provided the researchers at iBAG-UIC with new architectural possibilities. Relying on data-driven production, CNC machining, 3D printers, and biofabrication tools, has led to new formulations of non-standard architecture based on the governing genetic principles of variation, mutation, and hybridization, rather than focusing on industrialized chain processes.
Inspired by the local architecture displayed predominantly throughout the city of Barcelona, as well as by the sustainable ideals behind the proto-surrealist movement of the early 1900s, the Director of the iBAG-UIC, Alberto EstÃ©vez, believes 3D bioprinting is one of the transformational tools that will help architecture adopt green futurism, with cities engineered to replicate nature.
During EstÃ©vez' recent keynote speech at the annual Conference of the Ibero American Society of Digital Graphics (SIGraDi), held in November 2020, the expert said that the iBAG-UIC has been using bioprinters since 2019, along with genetical applications, to make live cells grow within customized architectural biomaterials to use in habitable spaces, allowing cities to 'œgrow' naturally. The researchers at the institute's Genetic Architecture Laboratory have worked on urban planning projects for schools, markets, museums, telecommunication towers, and parks. Some examples include a 3D printed Sahara House Project in 2017, to develop cheaper, faster, and safer housing in the desert; biodigital furniture, and a floral-styled marketplace.
'œThe buildings of Antoni GaudÃ and the principles of surrealism serve us very well as a background explanation to understand biodigital architecture,' said EstÃ©vez. 'œAt the same time, we have philosophers and geneticists at the institute, who provide us with a framework to understand this type of architecture. We believe that the cities of the future will be 50% biological and 50% digital, otherwise, we will have no cities at all. Today, our urban hubs resemble cargo containers stacked for storage, rather than something more natural, like a forest. The key is to learn from nature.'
A century after Catalan architect Antoni GaudÃ created some of the most renowned projects in the world, like the boldly executed Sagrada Familia or the Casa BatllÃ³ in Barcelona. His work, inspired by the Art Nouveau style in Spain and regarded as the most representative and outstanding of the Modernista architects, remains among the most sustainable architecture today. His building designs showcase technical and structural innovations, leaving behind a legacy of sustainable creativity for the researchers at iBAG-UIC to follow. As part of a new form of biodigital architecture, the Barcelonian researchers at the institute are linking the biological, technological, and digital realms, trying to make cities far more environmentally friendlier than they are now, made from customized biomaterials that will be “create life,” growing and adapting to its surrounding.
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