Flight Formation to Filtration: Bird-Inspired Breakthroughs in Battle Against Global Water Scarcity
In a world looking for ways to use resources wisely, scientists have found a cool new way to turn salty water into fresh water. They …
bio-inspired
Nature’s Blueprint: The Bio-Inspired PV Leaf Transforming Solar Energy and Water Production
Harnessing Nature’s Power: The Revolutionary Bio-Inspired PV Leaf for a Sustainable Future In the relentless pursuit of sustainable solutions, a groundbreaking innovation emerges from the …
Innovating Energy Absorption: The Fusion of Nature and Engineering
The Essence of Bio-Inspired Designs The core of these innovative sandwich structures mimics the geometric patterns found in honeycombs, known for their lightweight yet sturdy …
Pho’liage®: Blooming the Future of Architecture with Nature-Inspired Innovation
Imagine walking through the vibrant streets of Paris, where a revolutionary architectural project is taking root, designed to breathe in sync with nature itself. This …
Greener Energy Generation-Enhancing Direct Methanol Fuel Cell Efficiency through Fuzzy Modeling and Beetle Antennae Search Algorithm
Revolutionizing Portable Energy: The Promise of DMFCs Direct methanol fuel cells (DMFCs) are emerging as a groundbreaking technology in the realm of energy conversion, poised …
Advanced 3D Printing with Mycelium-Based Biomaterials: Strategies for Material Development, Process Management, and Contamination Control
The construction industry, a significant contributor to global CO2 emissions, is in dire need of sustainable transformation. Emphasizing eco-friendly practices and a circular economy, this …
Exploring the Owens–Wendt Method for Liquid-Repellency in Laser-Textured Stainless Steel
Recent advancements in material science have introduced a novel approach to enhancing liquid-repellency in AISI 304 stainless steel surfaces using femtosecond laser texturing. This method …
Biologists Confirm the Inclusiveness of Biomimetic Design Tool for Building Energy Efficiency
Biologist confirmed the ThBA is effective in bridging biology and architecture based on the existing thermal challenges in buildings, and is comprehensive in terms of generalising biological thermal adaptation strategies.
Thermo-Bio-Architectural Framework (ThBA)
The ThBA was developed by studying biology to find how thermal regulation strategies used by living organisms can be classified and generalised. The proposed ThBA was confirmed and evaluated before it was used for the rest of the research.