Hologenix and DAGi are teaming up to introduce a new line of eco-friendly sleepwear. These sleep sets feature CELLIANT® Viscose, a sustainable fabric that helps improve sleep quality and recovery from fatigue.
CELLIANT technology transforms body heat into infrared energy, boosting circulation and oxygenation in the body. Made from sustainable materials, CELLIANT Viscose is an environmentally friendly choice, thanks to the efforts of partner Kelheim Fibres.
Seth Casden, founder and CEO of Hologenix, highlights the partnership’s commitment to innovation and growth. By establishing a new mill partnership in Turkey, they can offer CELLIANT Viscose at an affordable price, supporting local and global supply chain sustainability.
The sleepwear line caters to both men and women, offering various styles and sizes. Designed for better sleep, the collection includes sets of T-shirts and shorts, as well as T-shirts and pants, promoting restorative sleep and overall wellness.
Erbil Yildrim, DAGi’s Art Director, emphasizes the importance of quality sleep in combating stress and improving well-being. The unique properties of CELLIANT contribute to better sleep and faster recovery, aligning with DAGi’s goal of promoting better sleep quality for a better life.
Red Run has announced its foray into menswear with menswear collection, titled ‘Drop 1,’ featuring 10 essential pieces designed for…
INEOS Styrolution, a global leader in styrenics, has successfully completed its first project involving mechanically recycled polystyrene in yoghurt cups.
Sustainable fashion brand Virgio has partnered with Ola Electric to offer eco-friendly doorstep deliveries of its products during the festive…
Kingpins Hong Kong hosted its second annual pop-up event at the DX Design Hub, putting the spotlight on denim innovation…
The American Association of Textile Chemists & Colorists (AATCC) has signed a Memorandum of Understanding (MOU) with The Textile Association…
Under Armour, Hohenstein and PPT Group, has introduced a standardised method to measure microfibre release from textiles during simulated washing…