A new study reveals the key lies not in the production of a regrowth molecule, but in that molecule's controlled destruction. The discovery could inspire future regenerative medicine.

Extra-sensory perception The nine-armed octopus and the oddities of the cephalopod nervous system A mix of autonomous and top-down control manage the octopus's limbs. Kenna Hughes-Castleberry – Jun 7, 2025 8:00 am | 19 Credit: Nikos Stavrinidis / 500px Credit: Nikos Stavrinidis / 500px Story text Size Small Standard Large Width * Standard Wide Links Standard Orange * Subscribers only   Learn more With their quick-change camouflage and high level of intelligence, it’s not surprising that the public and scientific experts alike are fascinated by octopuses. Their abilities to recognize faces, solve puzzles, and learn behaviors from other octopuses make these animals a captivating study. To perform these processes and others, like crawling or exploring, octopuses rely on their complex nervous system, one that has become a focus for neuroscientists. With about 500 million neurons—around the same number as dogs—octopuses’ nervous systems are the most complex of any invertebrate. But, unlike vertebrate organisms, the octopus’s nervous system is also decentralized, with around 350 million neurons, or 66 percent of it, located in its eight arms. “This means each arm is capable of independently processing sensory input, initiating movement, and even executing complex behaviors—without direct instructions from the brain,” explains Galit Pelled, a professor of Mechanical Engineering, Radiology, and Neuroscience at Michigan State University who studies octopus neuroscience. “In essence, the arms have their own ‘mini-brains.’” A decentralized nervous system is one factor that helps octopuses adapt to changes, such as injury or predation, as seen in the case of an Octopus vulgaris, or common octopus, that was observed with nine arms by researchers at the ECOBAR lab at the Institute of Marine Research in Spain between 2021 and 2022. By studying outliers like this cephalopod, researchers can gain insight into how the animal’s detailed scaffolding of nerves changes and regrows over time, uncovering more about how octopuses have evolved over millennia in our oceans. Brains, brains, and more brains Because each arm of an octopus contains its own bundle of neurons, the limbs can operate semi-independently from the central brain, enabling faster responses since signals don’t always need to travel back and forth between the brain and the arms. In fact, Pelled and her team recently discovered that “neural signals recorded in the octopus arm can predict movement type within 100 milliseconds of stimulation, without central brain involvement.” She notes that “that level of localized autonomy is unprecedented in vertebrate systems.” Though each limb moves on its own, the movements of the octopus’s body are smooth and conducted with a coordinated elegance that allows the animal to exhibit some of the broadest range of behaviors, adapting on the fly to changes in its surroundings. “That means the octopus can react quickly to its environment, especially when exploring, hunting, or defending itself,” Pelled says. “For example, one arm can grab food while another is feeling around a rock, without needing permission from the brain. This setup also makes the octopus more resilient. If one arm is injured, the others still work just fine. And because so much decision-making happens at the arms, the central brain is freed up to focus on the bigger picture—like navigating or learning new tasks.” As if each limb weren’t already buzzing with neural activity, things get even more intricate when researchers zoom in further—to the nerves within each individual sucker, a ring of muscular tissue, which octopuses use to sense and taste their surroundings. “There is a sucker ganglion, or nerve center, located in the stalk of every sucker. For some species of octopuses, that’s over a thousand ganglia,” says Cassady Olson, a graduate student at the University of Chicago who works with Cliff Ragsdale, a leading expert in octopus neuroscience. Given that each sucker has its own nerve centers—connected by a long axial nerve cord running down the limb—and each arm has hundreds of suckers, things get complicated very quickly, as researchers have historically struggled to study this peripheral nervous system, as it’s called, within the octopus’s body. “The large size of the brain makes it both really exciting to study and really challenging,” says Z. Yan Wang, an assistant professor of biology and psychology at the University of Washington. “Many of the tools available for neuroscience have to be adjusted or customized specifically for octopuses and other cephalopods because of their unique body plans.” While each limb acts independently, signals are transmitted back to the octopus’s central nervous system. The octopus’ brain sits between its eyes at the front of its mantle, or head, couched between its two optic lobes, large bean-shaped neural organs that help octopuses see the world around them. These optic lobes are just two of the over 30 lobes experts study within the animal’s centralized brain, as each lobe helps the octopus process its environment. This elaborate neural architecture is critical given the octopus’s dual role in the ecosystem as both predator and prey. Without natural defenses like a hard shell, octopuses have evolved a highly adaptable nervous system that allows them to rapidly process information and adjust as needed, helping their chances of survival. Some similarities remain While the octopus’s decentralized nervous system makes it a unique evolutionary example, it does have some structures similar to or analogous to the human nervous system. “The octopus has a central brain mass located between its eyes, and an axial nerve cord running down each arm (similar to a spinal cord),” says Wang. “The octopus has many sensory systems that we are familiar with, such as vision, touch (somatosensation), chemosensation, and gravity sensing.” Neuroscientists have homed in on these similarities to understand how these structures may have evolved across the different branches in the tree of life. As the most recent common ancestor for humans and octopuses lived around 750 million years ago, experts believe that many similarities, from similar camera-like eyes to maps of neural activities, evolved separately in a process known as convergent evolution. While these similarities shed light on evolution's independent paths, they also offer valuable insights for fields like soft robotics and regenerative medicine. Occasionally, unique individuals—like an octopus with an unexpected number of limbs—can provide even deeper clues into how this remarkable nervous system functions and adapts. Nine arms, no problem In 2021, researchers from the Institute of Marine Research in Spain used an underwater camera to follow a male Octopus vulgaris, or common octopus. On its left side, three arms were intact, while the others were reduced to uneven, stumpy lengths, sharply bitten off at varying points. Although the researchers didn’t witness the injury itself, they observed that the front right arm—known as R1—was regenerating unusually, splitting into two separate limbs and giving the octopus a total of nine arms. “In this individual, we believe this condition was a result of abnormal regeneration [a genetic mutation] after an encounter with a predator,” explains Sam Soule, one of the researchers and the first author on the corresponding paper recently published in Animals. The researchers named the octopus Salvador due to its bifurcated arm coiling up on itself like the two upturned ends of Salvador Dali’s moustache. For two years, the team studied the cephalopod’s behavior and found that it used its bifurcated arm less when doing “riskier” movements such as exploring or grabbing food, which would force the animal to stretch its arm out and expose it to further injury. “One of the conclusions of our research is that the octopus likely retains a long-term memory of the original injury, as it tends to use the bifurcated arms for less risky tasks compared to the others,” elaborates Jorge Hernández Urcera, a lead author of the study. “This idea of lasting memory brought to mind Dalí’s famous painting The Persistence of Memory, which ultimately became the title of the paper we published on monitoring this particular octopus.” While the octopus acted more protective of its extra limb, its nervous system had adapted to using the extra appendage, as the octopus was observed, after some time recovering from its injuries, using its ninth arm for probing its environment. “That nine-armed octopus is a perfect example of just how adaptable these animals are,” Pelled adds. “Most animals would struggle with an unusual body part, but not the octopus. In this case, the octopus had a bifurcated (split) arm and still used it effectively, just like any other arm. That tells us the nervous system didn’t treat it as a mistake—it figured out how to make it work.” Kenna Hughes-Castleberry is the science communicator at JILA (a joint physics research institute between the National Institute of Standards and Technology and the University of Colorado Boulder) and a freelance science journalist. Her main writing focuses are quantum physics, quantum technology, deep technology, social media, and the diversity of people in these fields, particularly women and people from minority ethnic and racial groups. Follow her on LinkedIn or visit her website. 19 Comments

This edition of the Venice Biennale includes 65 national pavilions, 11 collateral events, and over 750 participants in the international exhibition curated by Italian architect and engineer Carlo Ratti. Entitled Intelligens: Natural Artificial Collective, its stated aim is to make Venice a ‘living laboratory’. But Ratti’s exhibition in the Arsenale has been hit by mixed reviews. The AJ’s Rob Wilson described it as ‘a bit of a confusing mess’, while other media outlets have called the robot-heavy exhibit of future-facing building-focused solutions to the climate crisis a ‘tech-bro fever dream’ and a ‘mind-boggling rollercoaster’ to mention a few. It is a distinct shift away from the biennale of two years ago twhen Ghanaian-Scottish architect Lesley Lokko curated the main exhibitions, including 89 participants – of which more than half were from Africa or the African diaspora – in a convincing reset of the architectural conversation.Advertisement This year’s National Pavilions and collateral exhibits, by contrast, have tackled the largest themes in architecture and the world right now in a less constrained way than the main exhibitions. The exhibits are radical and work as a useful gauge for understanding what’s important in each country: decarbonisation, climate resilience, the reconstruction of Gaza, and an issue more prevalent in politics closer to home: gender wars. What's not to miss in the Giardini? British Pavilion (photography: Chris Lane) UK Pavilion The British Pavilion this year, which won a special mention from the Venetian jury, is housing a show by a British-Kenyan collab titled GBR – Geology of Britannic Repair. In it, the curators explore the links between colonialism, the built environment and geological extraction. Focusing on the Rift Valley, which runs from east Africa to the Middle East, including Palestine, the exhibition was curated by the Nairobi-based studio cave_bureau, UK-based curator, writer and Farrell Centre director Owen Hopkins and Queen Mary University professor Kathryn Yusoff. The pavilion’s façade is cloaked by a beaded veil of agricultural waste briquettes and clay and glass beads, produced in Kenya and India, echoing both Maasai practices and beads once made on Venice’s Murano, as currency for the exchange of metals, minerals and slaves. The pavilion’s six gallery spaces include multisensory installations such as the Earth Compass, a series of celestial maps connecting London and Nairobi; the Rift Room, tracing one of humans’ earliest migration routes; and the Shimoni Slave Cave, featuring a large-scale bronze cast of a valley cave historically used as a holding pen for enslaved people.Advertisement The show also includes Objects of Repair, a project by design-led research group Palestine Regeneration Team (PART), looking at how salvaged materials could help rebuild war-torn Gaza, the only exhibit anywhere in the Biennale that tackled the reconstruction of Gaza face-on – doing so impressively, both politically and sensitively. Read more here. Danish Pavilion (photography: Hampus Berndtson) Demark Pavilion A firm favourite by most this year, the Danish exhibition Build of Site, curated by Søren Pihlmann of Pihlmann Architects, transforms the pavilion, which requires renovation anyway, into both a renovation site and archive of materials. Clever, simple and very methodical, the building is being both renewed while at the same time showcasing innovative methods to reuse surplus materials uncovered during the construction process – as an alternative to using new resources to build a temporary exhibition. The renovation of the 1950s Peter Koch-designed section of the pavilion began in December 2024 and will be completed following the biennale, having been suspended for its duration. On display are archetypal elements including podiums, ramps, benches and tables – all constructed from the surplus materials unearthed during the renovation, such as wood, limestone, concrete, stone, sand, silt and clay. Belgian Pavilion (photography: Michiel De Cleene) Belgium Pavilion If you need a relaxing break from the intensity of the biennale, then the oldest national pavilion in the Giardini is the one for you. Belgium’s Building Biospheres: A New Alliance between Nature and Architecture brings ‘plant intelligence’ to the fore. Commissioned by the Flanders Architecture Institute and curated by landscape architect Bas Smets and neurobiologist Stefano Mancuso, the exhibit investigates how the natural ‘intelligence’ of plants can be used to produce an indoor climate – elevating the role of landscape design and calling for it to no longer serve as a backdrop for architecture. Inside, more than 200 plants occupy the central area beneath the skylight, becoming the pavilion’s centrepiece, with the rear space visualising ‘real-time’ data on the prototype’s climate control performance. Spanish Pavilion (photography: Luca Capuano) Spain Pavilion One for the pure architecture lovers out there, models (32!), installations, photographs and timber structures fill the Spanish Pavilion in abundance. Neatly curated by architects Roi Salgueiro Barrio and Manuel Bouzas Barcala, Internalities shows a series of existing and research projects that have contributed to decarbonising construction in Spain. The outcome? An extensive collection of work exploring the use of very local and very specific regenerative and low-carbon construction and materials – including stone, wood and soil. The joy of this pavilion comes from the 16 beautiful timber frames constructed from wood from communal forests in Galicia. Polish Pavilion (photography: Luca Capuano) Poland Pavilion Poland’s pavilion was like Marmite this year. Some loved its playful approach while others found it silly. Lares and Penates, taking its name from ancient Roman deities of protection, has been curated by Aleksandra Kędziorek and looks at what it means and takes to have a sense of security in architecture. Speaking to many different anxieties, it refers to the unspoken assumption of treating architecture as a safe haven against the elements, catastrophes and wars – showcasing and elevating the mundane solutions and signage derived from building, fire and health regulations. The highlight? An ornate niche decorated with tiles and stones just for … a fire extinguisher. Dutch Pavilion (photography: Cristiano Corte) Netherlands Pavilion Punchy and straight to the point, SIDELINED: A Space to Rethink Togetherness takes sports as a lens for looking at how spatial design can both reveal and disrupt the often-exclusionary dynamics of everyday environments. Within the pavilion, the exhibit looks beyond the large-scale arena of the stadium and gymnasium to investigate the more localised and intimate context of the sports bar, as well as three alternative sports – a site of both social production and identity formation – as a metaphor for uniting diverse communities. The pavilion-turned-sports bar, designed by Koos Breen and Jeannette Slütter and inspired by Asger Jorn’s three-sided sports field, is a space for fluidity and experimentation where binary oppositions, social hierarchies and cultural values are contested and reshaped – complete with jerseys and football scarfs (currently a must-have fashion item) worn by players in the alternative Anonymous Allyship aligning the walls. Read Derin Fadina’s review for the AJ here. Performance inside the Nordic Countries Pavilion (photography: Venla Helenius) Nordic Countries Pavilion Probably the most impactful national pavilion this year (and with the best tote bag by far), the Nordic Countries have presented an installation with performance work. Curated by Kaisa Karvinen, Industry Muscle: Five Scores for Architecture continues Finnish artist Teo Ala-Ruona’s work on trans embodiment and ecology by considering the trans body as a lens through which to examine modern architecture and the built environment. The three-day exhibition opening featured a two-hour performance each day with Ala-Ruona and his troupe crawling, climbing and writhing around the space, creating a bodily dialogue with the installations and pavilion building itself, which was designed by celebrated Modernist architect Sverre Fehn. The American pavilion next door, loudly (country music!) turns its back on what’s going on in its own country by just celebrating the apathetical porch, making the Nordic Countries seem even more relevant in this crucial time. Read Derin Fadina’s review for the AJ here. German Pavilion (photography: Luca Capuano) Germany Pavilion An exhibit certainly grabbing the issue of climate change by its neck is the German contribution, Stresstest. Curated by Nicola Borgmann, Elisabeth Endres, Gabriele G Kiefer and Daniele Santucci, the pavilion has turned climate change into a literal physical and psychological experience for visitors by creating contrasting ‘stress’ and ‘de-stress’ rooms. In the dark stress room, a large metal sculpture creates a cramped and hot space using heating mats hung from the ceiling and powered by PVs. Opposite is a calmer space demonstrating strategies that could be used to reduce the heat of cities, and between the two spaces is a film focusing on the impacts of cities becoming hotter. If this doesn’t highlight the urgency of the situation, I’m not sure what will. Best bits of the Arsenale outside the main exhibitions Bahrain Pavilion (photography: Andrea Avezzù) Bahrain Pavilion Overall winner of this year’s Golden Lion for best national participation, Bahrain’s pavilion in the historic Artiglierie of the Arsenale is a proposal for living and working through heat conditions. Heatwave, curated by architect Andrea Faraguna, reimagines public space design by exploring passive cooling strategies rooted in the Arab country’s climate, as well as cultural context. A geothermal well and solar chimney are connected through a thermo-hygrometric axis that links underground conditions with the air outside. The inhabitable space that hosts visitors is thus compressed and defined by its earth-covered floor and suspended ceiling, and is surrounded by memorable sandbags, highlighting its scalability for particularly hot construction sites in the Gulf where a huge amount of construction is taking place. In the Arsenale’s exhibition space, where excavation wasn’t feasible, this system has been adapted into mechanical ventilation, bringing in air from the canal side and channelling it through ductwork to create a microclimate. Slovenian Pavilion (photography: Andrea Avezzù) Slovenia Pavilion The AJ’s Rob Wilson’s top pavilion tip this year provides an enjoyable take on the theme of the main exhibition, highlighting how the tacit knowledge and on-site techniques and skills of construction workers and craftspeople are still the key constituent in architectural production despite all the heat and light about robotics, prefabrication, artificial intelligence and 3D printing. Master Builders, curated by Ana Kosi and Ognen Arsov and organised by the Museum of Architecture and Design (MAO) in Ljubljana, presents a series of ‘totems’ –accumulative sculpture-like structures that are formed of conglomerations of differently worked materials, finishes and building elements. These are stacked up into crazy tower forms, which showcase various on-site construction skills and techniques, their construction documented in accompanying films. Uzbekistan Pavilion (photography: Luca Capuano) Uzbekistan Pavilion Uzbekistan’s contribution explores the Soviet era solar furnace and Modernist legacy. Architecture studio GRACE, led by curators Ekaterina Golovatyuk and Giacomo Cantoni have curated A Matter of Radiance. The focus is the Sun Institute of Material Science – originally known as the Sun Heliocomplex – an incredible large-scale scientific structure built in 1987 on a natural, seismic-free foundation near Tashkent and one of only two that study material behaviour under extreme temperatures. The exhibition examines the solar oven’s site’s historical and contemporary significance while reflecting on its scientific legacy and influence moving beyond just national borders. Applied Arts Pavilion (photography: Andrea Avezzù) V&A Applied Arts Pavilion Diller Scofidio + Renfro (DS+R) is having a moment. The US-based practice, in collaboration with V&A chief curator Brendan Cormier, has curated On Storage, which aptly explores global storage architectures in a pavilion that strongly links to the V&A’s recent opening of Storehouse, its new (and free) collections archive in east London. Featured is a six-channel (and screen) film entitled Boxed: The Mild Boredom of Order, directed by the practice itself and following a toothbrush, as a metaphor for an everyday consumer product, on its journey through different forms of storage across the globe – from warehouse to distribution centre to baggage handlers down to the compact space of a suitcase. Also on display are large-format photographs of V&A East Storehouse, DS+R’s original architectural model and sketchbook and behind-the-scenes photography of Storehouse at work, taken by emerging east London-based photographers. Canal Café (photography: Marco Zorzanello) Canal café Golden Lion for the best participation in the actual exhibition went to Canal Café, an intervention designed by V&A East Storehouse’s architect DS+R with Natural Systems Utilities, SODAI, Aaron Betsky and Davide Oldani. Serving up canal-water espresso, the installation is a demonstration of how Venice itself can be a laboratory to understand how to live on the water in a time of water scarcity. The structure, located on the edge of the Arsenale’s building complex, draws water from its lagoon before filtering it onsite via a hybrid of natural and artificial methods, including a mini wetland with grasses. The project was recognised for its persistence, having started almost 20 years ago, just showing how water scarcity, contamination and flooding are still major concerns both globally and, more locally, in the tourist-heavy city of Venice. And what else? Holy See Pavilion (photography: Andrea Avezzù) The Holy See Much like the Danish Pavilion, the Pavilion of the Holy See is also taking on an approach of renewal this year. Over the next six months, Opera Aperta will breathe new life into the Santa Maria Ausiliatrice Complex in the Castello district of Venice. Founded as a hospice for pilgrims in 1171, the building later became the oldest hospital and was converted into school in the 18th century. In 2001, the City of Venice allocated it for cultural use and for the next four years it will be managed by the Dicastery for Culture and Education of the Holy See to oversee its restoration. Curated by architect, curator and researcher Marina Otero Verzier and artistic director of Fondaco Italia, Giovanna Zabotti, the complex has been turned into a constant ‘living laboratory’ of collective repair – and received a special mention in the biennale awards. The restoration works, open from Tuesday to Friday, are being carried out by local artisans and specialised restorers with expertise in recovering stone, marble, terracotta, mural and canvas painting, stucco, wood and metal artworks. The beauty, however, lies in the photogenic fabrics, lit by a warm yellow glow, hanging from the walls within, gently wrapping the building’s surfaces, leaving openings that allow movement and offer glimpses of the ongoing restoration. Mobile scaffolding, used to support the works, also doubles up as furniture, providing space for equipment and subdividing the interior. Togo Pavilion (photography: Andrea Avezzù) Togo Pavilion The Republic of Togo has presented its first pavilion ever at the biennale this year with the project Considering Togo’s Architectural Heritage, which sits intriguingly at the back of a second-hand furniture shop. The inaugural pavilion is curated by Lomé and Berlin-based Studio NEiDA and is in Venice’s Squero Castello. Exploring Togo’s architectural narratives from the early 20th century, and key ongoing restoration efforts, it documents key examples of the west African country’s heritage, highlighting both traditional and more modern building techniques – from Nôk cave dwellings to Afro-Brazilian architecture developed by freed slaves to post-independence Modernist buildings. Some buildings showcased are in disrepair, despite most of the modern structures remaining in use today, including Hotel de la Paix and the Bourse du Travail, suggestive of a future of repair and celebration. Estonian Pavilion (photography: Joosep Kivimäe) Estonia Pavilion Another firm favourite this year is the Estonian exhibition on Riva dei Sette Martiri on the waterfront between Corso Garibaldi and the Giardini.  The Guardian’s Olly Wainwright said that outside the Giardini, it packed ‘the most powerful punch of all.’ Simple and effective, Let Me Warm You, curated by trio of architects Keiti Lige, Elina Liiva and Helena Männa, asks whether current insulation-driven renovations are merely a ‘checkbox’ to meet European energy targets or ‘a real chance’ to enhance the spatial and social quality of mass housing. The façade of the historic Venetian palazzetto in which it is housed is clad with fibre-cement insulation panels in the same process used in Estonia itself for its mass housing – a powerful visual statement showcasing a problematic disregard for the character and potential of typical habitable spaces. Inside, the ground floor is wrapped in plastic and exhibits how the dynamics between different stakeholders influence spatial solutions, including named stickers to encourage discussion among your peers. Venice Procuratie (photography: Mike Merkenschlager) SMAC (San Marco Art Centre) Timed to open to the public at the same time as the biennale, SMAC is a new permanent arts institution in Piazza San Marco, on the second floor of the Procuratie, which is owned by Generali. The exhibition space, open to the public for the first time in 500 years, comprises 16 galleries arranged along a continuous corridor stretching over 80m, recently restored by David Chipperfield Architects. Visitors can expect access through a private courtyard leading on to a monumental staircase and experience a typically sensitive Chipperfield restoration, which has revived the building’s original details: walls covered in a light grey Venetian marmorino made from crushed marble and floors of white terrazzo. During the summer, its inaugural programme features two solo exhibitions dedicated to Australian modern architect Harry Seidler and Korean landscape designer Jung Youngsun. Holcim's installation (photography: Celestia Studio) Holcim x Elemental Concrete manufacturer Holcim makes an appearance for a third time at Venice, this time partnering with Chilean Pritzker Prize-winning Alejandro Aravena’s practice Elemental – curator of the 2016 biennale – to launch a resilient housing prototype that follows on from the Norman Foster-designed Essential Homes Project. The ‘carbon-neutral’ structure incorporates Holcim’s range of low-carbon concrete ECOPact and is on display as part of the Time Space Existence exhibition organised by the European Cultural Centre in their gardens. It also applies Holcim’s ‘biochar’ technology for the first time, a concrete mix with 100 per cent recycled aggregates, in a full-scale Basic Services Unit. This follows an incremental design approach, which could entail fast and efficient construction via the provision of only essential housing components, and via self-build. The Next Earth at Palazzo Diedo (photography: Joan Porcel) The Next Earth At Palazzo Diedo’s incredible dedicated Berggruen Arts and Culture space, MIT’s department of architecture and think tank Antikythera (apparently taking its name from the first-known computer) have come together to create the exhibition The Next Earth: Computation, Crisis, Cosmology, which questions how philosophy and architecture must and can respond to various planet-wide crises. Antikythera’s The Noocene: Computation and Cosmology from Antikythera to AI looks at the evolution of ‘planetary computation’ as an ‘accidental’ megastructure through which systems, from the molecular to atmospheric scales, become both comprehensible and composable. What is actually on display is an architectural scale video monolith and short films on AI, astronomy and artificial life, as well as selected artefacts. MIT’s Climate Work: Un/Worlding the Planet features 37 works-in-progress, each looking at material supply chains, energy expenditure, modes of practice and deep-time perspectives. Take from it what you will. The 19th International Venice Architecture Biennale remains open until Sunday, 23 November 2025.

Heydar Aliyev Center | © Olivier Blanchette via Unsplash In contemporary architectural discourse, the building envelope is no longer a passive partition but a dynamic interface capable of interaction, regulation, and adaptation. Amid rising environmental complexity and performance demands, composite materials are emerging as enablers of this transformation. Their potential goes far beyond lightweight strength; composites are redefining what intelligence means in architectural materiality. As the industry pivots toward energy-conscious design, real-time responsiveness, and multi-functional skins, composites provide structural solutions and performative systems. In this context, the envelope becomes a site of intelligence. From Passive Shells to Active Systems For centuries, architectural skins served primarily as barriers, blocking weather, enclosing space, and symbolizing permanence. But the 21st century demands more. We require façades that filter air and light, mediate thermal flux, integrate sensors, and generate power. Traditional materials, limited by monolithic performance and weight, have struggled to adapt. Composites, by contrast, are inherently systemic. They are engineered layers rather than singular substances. Through the integration of fibers and matrices, composites enable architectural envelopes that perform structurally while accommodating embedded systems such as thermal insulation, acoustic control, impact resistance, and photoreactivity. These characteristics make them prime candidates for high-performance envelopes in buildings and infrastructure alike. In the Qatar Integrated Railway Project, composite roofing and FRP façade panels were employed to meet the demands of the harsh desert environment. This solution reduced structural loads and improved thermal performance while ensuring long-term durability in a climate defined by extremes. Performance Layering and Embedded Intelligence What distinguishes composites from conventional materials is their capacity to combine multiple performance layers in one unified system. Instead of applying insulation, waterproofing, and cladding in sequence, a composite panel can consolidate these into a single prefabricated, high-performance element. A compelling example is the Eco Casa in Australia, designed by Ian Wright, which used frameless DuFLEX composite panels. The result was an environmentally conscious home with significantly reduced material waste, enhanced thermal performance, and minimized emissions. These outcomes demonstrate how composites offer design efficiency and ecological responsibility. The capacity for prefabrication and integration is particularly valuable in settings where labor conditions, transportation logistics, or weather exposure make traditional multi-layered construction inefficient or impractical. Composites with a Nervous System: Sensing the Built Environment Recent innovations in smart composites extend these capabilities further. By embedding fiber-optic or piezoresistive sensors into composite assemblies, architects and engineers can develop building skins that sense stress, temperature changes, humidity, or vibration in real-time. These responsive façades can feed data into building management systems, enabling performance optimization or alerting maintenance teams to signs of wear or structural fatigue. This functionality has been successfully explored in transport infrastructure. The King Abdullah High-Speed Rail Station in Saudi Arabia used 27-meter composite sandwich panels to span vast distances with minimal support. The lightweight system reduced the need for extensive reinforcement while enabling thermal and mechanical performance in a climate that demands resilience. Such examples are foundational to a future in which architecture does not merely resist the environment but interprets it. Formal Freedom Meets Functional Responsiveness Guangzhou Opera House | © Scarbor Siu via Unsplash Beyond embedded intelligence, composites also expand formal expression. Their moldability, especially with parametric design and digital fabrication, allows for envelopes that curve, fold, and morph in unattainable ways with conventional rigid materials. The Guangzhou Opera House, designed by Zaha Hadid Architects, is a defining example. Advanced composite assemblies that merged structural demands with formal ambition enabled its seamless curvatures and sharp transitions. These systems supported high-precision details and complex geometries while reducing material weight and installation complexity. This freedom extends to smaller-scale yet equally ambitious projects. At the Tilburg School for VAVO, translucent composite panels embedded with knitted textiles reference local craft while offering thermal performance and design cohesion. Such examples show that intelligence in architecture includes cultural sensitivity as well as technical adaptability. Toward Circular and Regenerative Envelopes The sustainability potential of composites is often overlooked. While early generations relied heavily on fossil-derived materials, newer systems use bio-based resins, natural fibers like flax and basalt, and recyclable matrices that fit into circular design models. Composite panels can now be designed for disassembly, repurposing, or reintegration into new construction, minimizing waste and conserving embodied energy. The Pasarela de Almuñécar in Spain exemplifies this ethos. As the world’s longest carbon-fiber walkway, it replaced heavier materials and extended structural lifespan while reducing maintenance. The project signals how composites can fulfill both technical and ecological ambitions. Efforts to embed digital tracking into panels, such as RFID tags, also support long-term monitoring and facilitate reuse planning. This vision aligns with emerging concepts like material passports, which will play a critical role in lifecycle accountability. Pasarela de Almuñécar in Spain | © Luis Garcia, CC by 3.0 Overcoming Barriers to Adoption Despite the clear advantages, composite adoption in architecture still faces notable hurdles. First is the challenge of integration with legacy materials such as concrete, stone, or steel. Connection detailing requires careful coordination to ensure structural continuity and thermal performance. Second is the perception of cost. While composites may require a higher upfront investment, their lower maintenance demands, improved energy performance, and reduced structural requirements often result in favorable long-term economics. Finally, regulatory frameworks continue to evolve. Building codes have been slow to reflect the unique properties of composites, although this is changing as standardization increases and successful pilot projects proliferate. A Vision for the Future: Architecture as Adaptive Intelligence Composites are not merely substitutes for traditional materials. They represent a paradigm shift in how we understand performance, integration, and the role of material in space-making. As architecture becomes increasingly data-driven, climate-responsive, and energy-conscious, the intelligent envelope will become the norm rather than the exception. Composites make this future feasible by offering structural capability, aesthetic freedom, environmental stewardship, and embedded intelligence within a single engineered solution. From high-speed rail terminals to cultural landmarks, these materials are shaping a new kind of architecture that listens, learns, and evolves. It is no longer sufficient for architecture to stand still. The next generation of buildings must adapt, interact, and perform. Composites make that future tangible. Learn More Explore how composite materials are redefining the building envelope in the construction sector and beyond: Visit Composites.Archi by ArchEyes Team Leave a comment