Formally, transparency usually takes the shape of a window, a door, a curtain wall, or a skylight. These are commonly created through rectangular punched openings or in the form of glass curtain wall systems or translucent screens. The following projects play with traditional notions of transparency and window-making in playful and unconventional ways. They create visually striking facades and dynamic relationships between their exterior and interior. They filter light and frame views through their glazing and opening articulation to craft memorable architectural experiences.
The early 20th century marked a pivotal era in Brazilian architecture with the advent of the modernist movement. Architects like Oscar Niemeyer or Lúcio Costa introduced avant-garde designs characterized by sleek lines, reinforced concrete, and a focus on functionality. What's more: residential projects of the era, in particular, blurred the lines between indoor and outdoor, flawlessly merging interior and exterior spaces to reflect a lifestyle that harmonizes with nature. Fast forward to the present day, and contemporary architects and designers in Brazil continue to embrace the challenge of creating indoor-outdoor homes that nod to the country's tropical climate. These residences often feature open floor plans, expansive glass walls, and strategic positioning of courtyards, gardens, or terraces with a design philosophy that emphasizes natural light, ventilation, and the incorporation of greenery for increased well-being. We take a detailed look at four recently completed residential projects in Brazil that fuse contemporary architecture, sustainable living, and a deep appreciation for their natural surroundings.
As a highly transparent material that stands up to all but the most extreme of weather conditions, is easily formed into any size or shape, and, once formed, will last for thousands of years, glass is still one of the most innovative and crucial materials used in architecture. Although contemporary building practices allow us to form huge, glittering skyscrapers of glass that rise hundreds of meters into the air, the ancient material’s original purpose – to welcome light into weathertight and secure interiors – remains its most important more than a thousand years on.
As important as glass is to almost every typology of architecture in the form of windows, when it comes to the roof of a building, the use of glass is not so simple. We’ve understood the power and danger of combining light and glass ever since we saw a magnifying glass used to concentrate the heat of sunlight into incredibly high temperatures in children’s cartoons. Under a glass roof, the solar gain can make for uncomfortable internal environments without the correct protective precautions.
When we talk about the building envelope, we often make the analogy of a skin that protects and wraps the structure, creating a transition in the physical environment. This concept is interesting as it identifies that, similar to its function in humans, the skin plays a role in protecting and regulating the interior setting, besides contributing to the aesthetics of the building. In this way, both the human skin and the building envelope act as elements that respond to the stimuli of the surroundings and the life that develops within them. More than just protective barriers, they are experienced as means of active interaction with the context.
While envelopes evolve within diverse contexts, materials, and systems, minimalist windows distinguish themselves through their aesthetic qualities by being transparent and fluid skins. These windows excel with their functionality and visual lightness, standing out in the architectural landscape. In addition, they are noteworthy thanks to their versatility across different systems that connect life within the interior and exterior. Considering Swiss and Pritzker Prize-winning architect Peter Zumthor's statement that "architecture is exposed to life,” windows play a vital role in expressing that connection, becoming a significant part of the building's identity and essence.
https://www.archdaily.com/1013905/reframing-the-concept-of-building-envelope-through-minimalist-windowsEnrique Tovar
For most people, modern living requires spending most of the day in interior spaces - in fact, according to a report by the Environmental Protection Agency, the average person spends around 90% of their life indoors. As a result, this implies missing out on health benefits associated with sunlight exposure, such as vitamin D absorption, regulation of circadian rhythms, higher energy levels and even improved mood. Thus, one option is to increase the amount of time we spend outdoors. But because most daily functions are carried out inside buildings, it is crucial to incorporate and prioritize natural lighting in interiors.
Translucency, at its essence, is an optical property that enables the total or partial passage of light through materials, without providing a clear view of the objects behind them. Despite its apparent simplicity, this property has fascinating applications in the architectural field, generating attractive and powerful proposals that play with light without obstructing views.
Traditionally, glass sheets have been the symbolic material associated with transparency, commonly used in the fabrication of doors and windows. However, technological advances in production and the exploration of innovative materials have significantly expanded the opportunities to take advantage of this property in both interior and exterior applications. These advances challenge preconceived limitations and encourage creativity in the development of novel architectural proposals.
https://www.archdaily.com/1013517/seeing-through-layers-translucent-materials-in-architectureEnrique Tovar
As the architecture industry shifts its focus towards greater sustainability and energy efficiency, many modern projects in the world’s hottest (and getting hotter) environments are unearthing more traditional ways to control temperature, light, and ventilation by learning from the past to save us from the future.
In 1993 a young professional couple from Amsterdam set out to build a private house unlike any other. They wanted to create something that “would be recognized as a reference in terms of renewal of the architectural language.” They reached out to several architects, including Rem Koolhaas, but finally decided to entrust the commission to Dutch architect Ben van Berkel after he studied the site and came up with a vision for the project, relating it to the couple’s lifestyle.
Located in Het Gooi, its design took over 5 years, going through several iterations, but always coming back to its core inspiration: the Möbius loop. The shape, defined as a single-sided surface with no boundaries, was the key to a new architectural language that aimed to weave together all the individual activities of each family member, allowing the functional program to be integrated within the dynamic structure. By 1998, when the house was completed, it became widely published and internationally recognized. It also became a sort of manifesto for its architect, as it uses an organizational principle to inform the final image.
A building’s materiality is what our bodies make direct contact with; the cold metal handle, the warm wooden wall, and the hard glass window would all create an entirely different atmosphere if they were, say, a hard glass handle, a cold metal wall and a warm wooden window (which with KTH’s new translucent wood, is not as absurd as it might sound). Materiality is of just as much importance as form, function, and location—or rather, inseparable from all three.
Here we’ve compiled a selection of 16 materials that should be part of the design vocabulary of all architects, ranging from the very familiar (such as concrete and steel) to materials that may be unknown to some of our readers, as well as links to comprehensive resources to learn more about many of them.
Contemporary Japanese interiors incorporate elements both of tradition and modernity to embody the country's innovative spirit while maintaining a profound respect for its history and cultural heritage. Though traditional materials like wood, paper, and bamboo continue to hold significance, modern Japanese interiors also often feature a fusion of glass, steel, concrete, and metals. The juxtaposition of smoother, sleeker textures and finishes with warmer and more organic ones reflects a dynamic synthesis of old and new, and results in visually striking and functional spaces that honor the essence of the country's design principles.
The duality of sunlight in the field of architectural design presents fascinating contrasts, especially when addressing the question of how to interact with it through the built environment and the materials that define architecture. The sun's influence in this discipline has become an essential part of the cultural heritage of some countries, as evidenced by Spanish architecture, where the interaction with sunlight manifests through elements such as lattices. These lattices are recognizable on the facades of buildings from the Middle Ages, exemplified by structures like the Alhambra, to 20th-century constructions such as Casa Gomis, considered historical monuments.
The facade, being the skin of the building, is the architectural component that is usually directly exposed to sunlight. Based on this premise, we seek to establish a dialogue between openness to the environment and the need for protection, thus creating a synergy between functionality and aesthetics. In this context, sunscreen facades have been developed through various approaches, standing out for their ability to address this design condition. For this reason, we have selected solar control solutions from Spanish brands, distinguished by their technical characteristics and materiality through various approaches.
https://www.archdaily.com/1010864/sunscreen-facades-from-ceramic-textile-systems-to-double-skin-glassEnrique Tovar
Some of the most memorable and moving exhibitions are the ones that simplify their staging, illuminating objects and narratives while pulling focus from everything else. A stark but meticulous –and above all modern– presentation is the goal of the museum curator. The process of installation shouldn’t be laborious. The fingerprint of the architect shouldn’t be visible. The eye of the visitor wants to see unbroken silhouettes of couture garments, archaeological treasures, and sculptures. Exhibitions tell stories, and the design of each show is the medium. The presentation must be crisp, clear, and light. A sense of perfection elevates the uniqueness of a collection of objects; barely apparent joins, lines and an overall feeling of transparency make that achievable.
https://www.archdaily.com/1009976/elevating-contemporary-exhibition-design-with-sliding-glass-panel-systemsMark C. O'Flaherty
Lithuania's architectural narrative is a mosaic of diverse influences and styles, representing its historical evolution, cultural heritage, and resilience through changing times. Despite a focus on traditional craftsmanship, functional minimalism, and sustainable materials, the country's design language has been profoundly influenced by its geopolitical position and historical events, resulting in a blend of styles from different periods. A key factor that cuts across all expressions, however, is Lithuanian architecture's seamless connection with its natural surroundings.
When an architect conceives the opening of a space, the primary objective is to create a frame that enhances the views, optimizes the entry of natural light, and makes the most of the illumination it provides. In this context, we often seek to maximize the proportion of glass, reducing the presence of frames and profiles to a minimum, thus expressing the growing desire for perfect integration between indoor and outdoor environments. To adequately meet this demand, architects and manufacturers are constantly searching for solutions that minimize the visual obstruction caused by structures, pushing the boundaries of what is technically and statically feasible toward minimalist window frames and profiles.
The Helios School / Schilling Architects. Image Courtesy of Eastman
Glass has become a central element in modern architecture with the introduction of new strategies for designing and experiencing buildings. Its transparency and material composition allow for natural light to enter, while creating seamless connections between interior and exterior spaces. However, the prevalence of this material has meant that every year, billions of birds collide into glass structures.
These collisions tend to occur during the migratory pathways of birds, as they fly through cities and are drawn to internal lights in buildings or misjudge outdoor reflections of trees and vegetation, causing a huge number of bird deaths and injuries. In response to this challenge, an increasing number of cities are now introducing legislation that requires new construction to feature bird-friendly glass. Without compromising on the aesthetic appeal of glass, Eastman has developed Saflex™ FlySafe™ 3D Polyvinyl Butyral (PVB) interlayers. This additional layer features a three-dimensional reflective pattern that is highly visible to the bird’s eye from the outside while remaining subtle to the human eye from the inside. Delving into the application of this solution within architectural design, we showcase how The Helios School adopted this strategy.
Architects and designers are often looking for ways to make building facades and interior surfaces stand out from the crowd. But sometimes just the smallest change can have the biggest impact once you step back and see the whole picture. By employing an illusionary pattern such as dithering pixels or halftone dots, or by making subtle but intentional changes to the position or orientation of materials, flat surfaces can be transformed into curved, moving forms.
Halftone patterns work by reducing a solid surface of color into dots of decreasing size. As the dots gradually reduce to nothing, they leave nothing behind except a background color. The result is a flat surface with a gradient that mimics the shadows or highlights of a three-dimensional curve. Dithering, meanwhile, is the process of feathering multiple shades of the same color to blend them together. The effect allows designers to, on a large enough scale, create images with depth and curves, while using only a single color. Or even to create the illusion of an intermediary color.
In the past, glazed surfaces tended to be small and almost opaque; but this began to change throughout the years due to the growing trend of increasingly larger glass panes in construction. Accompanied by thinner frames, they dilute the boundaries between the inside and the outside, and have become ubiquitous in modern buildings. In fact, it is increasingly rare to find a contemporary work of architecture that does not include the remarkable presence of glass: this material is present in the most diverse architectural scales, and its transparency provides harmonious integration with the surroundings and generous natural light for buildings. Traditional systems with frames are still predominant, but frameless glass facades are gaining ground in specific architectural projects, as they create perfect connections between the glass and the structure of the building, resulting in a singular aesthetic with soft and harmonious transitions. By eliminating heavy frames, a project's aesthetics can be enhanced while also improving the quality of life inside.
Materiality is a determining factor in shaping the character and experience of a building. Playing with the aesthetic and tactile qualities of materials, the design process encompasses their analysis, selection, and arrangement to create purposeful and sensory-rich spaces. Alongside textures and patterns, exploring materiality also involves the study of color possibilities. The versatile role of color in architectural materials extends beyond mere aesthetics, as it can broaden design opportunities and influence emotional responses, functionality, cultural relevance, and environmental performance.
Even though each material has its distinctive inherent color, the addition of artificial or natural pigments can modify them in favor of the project’s identity. Delving into the debate on maintaining raw aesthetics or changing a material’s natural hues, we showcase various projects to study the differences between using natural versus artificial pigmentation of glass, concrete, brick, stone and wood.
