When developing an architectural project, there are multiple possible points of departure. Some architects begin with volume, gradually carving form in dialogue with its context. Others start from the longitudinal section, while some organize the project around the functional layout of the plan. There is no right or wrong method, but rather distinct approaches that reflect different ways of thinking about and making architecture. Since the widespread adoption of solar panels and photovoltaic energy, however, a recurring pattern has emerged: these systems are almost always introduced later in the process, framed as technical optimizations or responses to regulatory and energy-efficiency requirements. As a result, they tend to be treated as secondary elements, often relegated to rooftops or less visible areas and detached from the architectural language of the building.

By shifting rotation away from traditional hinges and distributing weight vertically, pivot doors were developed to address a specific architectural challenge: how to move large, heavy door panels with precision, durability, and minimal visual interference. These systems allow doors to grow significantly in scale, weight, and material ambition, often blurring the line between door, wall, and architectural surface. Over time, this technical innovation has expanded the role of doors in architecture, allowing them to operate not only as points of access, but also as spatial thresholds, compositional devices, and expressive elements within the building envelope.

Highlighting this evolution, FritsJurgens established the Best Pivot Door Contest to showcase projects where engineering precision and architectural intent converge. Founded in the Netherlands, the company is internationally recognized for its concealed pivot systems capable of supporting exceptionally large and heavy doors. These systems give architects greater freedom in scale and materiality while maintaining precision, reliability, and architectural clarity.

Once confined to the aerospace and automotive industries, composite materials have taken on an increasingly central role in contemporary architecture. By combining two or more components, such as fibers and polymers, they offer lightness and strength, high durability, formal freedom, and enhanced environmental performance. Their incorporation into architectural practice marks a profound transformation in how we design, fabricate, and inhabit space.

For a long time, architecture was understood as an essentially individual activity, dependent on the figure of a creative genius and centered on the ability to solve problems through drawing. Over time, this image began to fade. The protagonism once concentrated in a few names reached its peak during the era of the starchitects and gradually became distributed among offices, collectives, and multidisciplinary teams. Today, architects are expanding their boundaries into other fields such as gastronomy, music, design, and the corporate world, applying spatial thinking to address challenges of various kinds. As social, environmental, and political crises deepen, the role of the architect continues to evolve from a solitary author to a mediator, activist, and collective agent of transformation. This shift reflects an ethical awakening and a recognition that design, regulation, and care are inseparable dimensions of contemporary practice.

Created by California surfers who wanted to bring the lines of surfing onto asphalt, skateboarding soon outgrew its role as a simple alternative for flat days. It established itself as a practice that reads the city through a different logic, reinterpreting steps, handrails, walls, and interstitial spaces as possible lines, challenges, and opportunities. Over time, it evolved into a global urban culture, a way of inhabiting and transforming public space through movement. What was once marginal has become a catalyst for urban activation, community building, and new uses for overlooked spaces. At its core, skateboarding reveals how many cities coexist within the same city, depending on who moves through them and how each person is able to reinterpret their surroundings.

In 1952, American composer John Cage presented his groundbreaking piece "4'33''" for the first time. In it, the orchestra produces no intentional sound for four minutes and thirty-three seconds. What can be heard instead are breaths, movements, and subtle noises that would normally go unnoticed, but here become part of the composition itself. With this work, Cage revealed that absolute silence does not exist. There is always sound, even when unplanned.

In the same way, every architectural space has its own soundscape. Sound moves, reflects, reverberates, and dissipates according to the materials, volumes, and surfaces it encounters. Hard walls and high ceilings can amplify echoes, while fabrics and porous panels soften them. Acoustics, therefore, is not merely a technical concern but a form of materialized listening, a science that operates at the boundary between perception and emotion. For this reason, it is also complex. Each typology, whether a museum, temple, studio, or theater, has its own sonic logic, and understanding these nuances is essential to creating spaces that embrace sound, voice, and silence with equal precision.

Water is the foundation of life. It shapes landscapes, regulates climates, and sustains every living organism. Yet on the only known inhabited planet, this essential resource faces a growing crisis: although 70% of Earth's surface is covered by water, less than 1% is actually available for human use. Most of it is consumed by agriculture and industry, while in households, activities like bathing and flushing use vast amounts of drinking water for non-essential purposes. The bathroom, therefore, has become a key space for innovation, where technology and design can help redefine how we use and reuse this vital element.

The practice of combining materials to achieve better performance has accompanied humanity since the earliest constructions. One of the first known examples emerged over five thousand years ago, when civilizations in Mesopotamia and Egypt mixed mud and straw to mold sun-dried adobe bricks. Light and fibrous, straw prevented cracking and increased strength, while mud acted as a binder and protection. This simple yet ingenious invention can be considered the first composite in history, illustrating the ancestral intuition that distinct materials, when combined, can become something stronger and better.