Charlotte Kidger explores materials through waste and consumption
Charlotte Kidger is a London-based designer and material researcher who explores the intersection of sustainability and design through the innovative use of waste materials. With a background in Product Design from Central Saint Martins, Kidger is known for her experiments with industrial waste, transforming discarded materials into functional and aesthetically pleasing objects. Her work showcases how a circular economy can be achieved by reusing waste and creating new products with a lower environmental impact. Kidger has received international recognition for her unique approach to sustainable design, including being named as one of Forbes 30 Under 30 Europe in 2021.
Charlotte Kidger's work centers around using waste materials such as polyurethane foam and industrial waste streams to create new objects and materials.
She has developed her own material called "Mise," which is made by mixing polyurethane foam dust with a bio-resin. The resulting material has a marbled appearance and can be used for a variety of applications, from furniture to fashion accessories.
Kidger's work has been exhibited at institutions such as the Design Museum in London and the Victoria and Albert Museum.
In addition to her design work, Kidger is also an educator, having taught at institutions such as the Royal College of Art and Central Saint Martins.
Charlotte Kidger is a London-based designer and material researcher who explores the intersection of sustainability and design through the innovative use of waste materials. With a background in Product Design from Central Saint Martins, Kidger is known for her experiments with industrial waste, transforming discarded materials into functional and aesthetically pleasing objects. Her work showcases how a circular economy can be achieved by reusing waste and creating new products with a lower environmental impact. Kidger has received international recognition for her unique approach to sustainable design, including being named as one of Forbes 30 Under 30 Europe in 2021.
Charlotte Kidger's work centers around using waste materials such as polyurethane foam and industrial waste streams to create new objects and materials.
She has developed her own material called "Mise," which is made by mixing polyurethane foam dust with a bio-resin. The resulting material has a marbled appearance and can be used for a variety of applications, from furniture to fashion accessories.
Kidger's work has been exhibited at institutions such as the Design Museum in London and the Victoria and Albert Museum.
In addition to her design work, Kidger is also an educator, having taught at institutions such as the Royal College of Art and Central Saint Martins.
Charlotte Kidger is a London-based designer and material researcher who explores the intersection of sustainability and design through the innovative use of waste materials. With a background in Product Design from Central Saint Martins, Kidger is known for her experiments with industrial waste, transforming discarded materials into functional and aesthetically pleasing objects. Her work showcases how a circular economy can be achieved by reusing waste and creating new products with a lower environmental impact. Kidger has received international recognition for her unique approach to sustainable design, including being named as one of Forbes 30 Under 30 Europe in 2021.
Charlotte Kidger's work centers around using waste materials such as polyurethane foam and industrial waste streams to create new objects and materials.
She has developed her own material called "Mise," which is made by mixing polyurethane foam dust with a bio-resin. The resulting material has a marbled appearance and can be used for a variety of applications, from furniture to fashion accessories.
Kidger's work has been exhibited at institutions such as the Design Museum in London and the Victoria and Albert Museum.
In addition to her design work, Kidger is also an educator, having taught at institutions such as the Royal College of Art and Central Saint Martins.