The Spiber dress could be dismissed as a beautiful yet typical Asian-inspired design, but people would miss out on appreciating it true innovate existence. What at first may look like silk, satin or even nylon is actually a fabric made out of synthetic spider silk, which is five times stronger than steel, more flexible than nylon, and is extremely lightweight. Hence, the Spiber dress could be considered more like armor than anything else.
The material of the Spiber dress has been dubbed Qmonos, which means 'spider web' in Japanese, by the company. Currently on display at the Roppongi Hills complex in Tokyo, the high collared cocktail Spiber dress is just one example of what this material can be used for. It can also make film, gels, sponges, artificial blood vessels, and nanofibers.
Synthetic Spider Silk Fashion
The Spiber Dress is Like a Fashionable Piece of Armor
Trend Themes
1. Synthetic Spider Silk - The development of synthetic spider silk is a technological innovation that can be used not only in the fashion industry but also in various other applications such as biotechnology, medicine, and engineering.
2. Biodegradable Materials - The use of biodegradable materials in clothing production shows potential for a more sustainable future in the fashion industry and beyond.
3. High-tech Fabrics - The creation of high-tech fabrics like Qmonos can revolutionize the fashion industry by providing new opportunities in design and functionality.
Industry Implications
1. Fashion - The use of synthetic spider silk and other high-tech fabrics can lead to disruptive innovation in the fashion industry, providing new materials for designers to work with.
2. Biotechnology - The development of Qmonos and other synthetic spider silk materials can create opportunities for innovative biotechnological applications such as wound care, tissue engineering, and drug delivery.
3. Engineering - The use of synthetic spider silk and other advanced materials can lead to disruptive innovation in engineering industries like aerospace, automotive, and construction, creating stronger and lighter structures.