E-textiles
Encyclopedia
E-textiles, also known as electronic textiles or smart textiles, are fabrics
that enable computing
, digital
components, and electronics to be embedded in them. Part of the development of wearable technology
, they are known as intelligent clothing or smart clothing because they allow for the incorporation of built-in technological elements in everyday textiles and clothes. Electronic textiles do not strictly encompass wearable computing because emphasis is placed on the seamless integration between the fabric and the electronic elements, such as cables, microcontrollers, sensors and actuators.
One of the pioneers in electronic textiles is Rehmi Post, a Visiting Scientist at the MIT Center for Bits and Atoms, who earned his a M.Sc. at the MIT Media Lab for the development of e-broidery, a means of fabricating electronic circuitry on wash-and-wear textile substrates. Examples of his pioneering work in this field have appeared widely in museum collections, including a long-term loan to the Wellcome Wing of London's Museum of Science.
There are a number of research and commercial projects that comprise the use of hybrid structures between both categories. In this case, advanced electronic components that are embedded into the textile fiber are connected to a classical electronic device or component. Some examples are touch buttons that are constructed completely in textile forms by using conducting textile weaves, and then connected to devices such as music players or LEDs that are mounted on woven conducting fiber networks to form displays.
There are a number of commercial fibers today that include metallic fiber
s mixed with textile fibers to form conducting fibers that can be woven or sewn. However, because both metals and classical semiconductors are stiff material, they are not very suitable for textile fiber applications for which fibers are subjected to much stretch and bending during use.
A new class of electronic materials that is more suitable for e-textiles is the class of organic electronics
materials, because they can be conducting, semiconducting, and designed as inks and plastics.
Some of the most advanced functions that have been demonstrated in the lab include:
Fabric
A fabric is a textile material, short for "textile fabric".Fabric may also refer to:*Fabric , the spatial and geometric configuration of elements within a rock*Fabric , a nightclub in London, England...
that enable computing
Computing
Computing is usually defined as the activity of using and improving computer hardware and software. It is the computer-specific part of information technology...
, digital
Digital
A digital system is a data technology that uses discrete values. By contrast, non-digital systems use a continuous range of values to represent information...
components, and electronics to be embedded in them. Part of the development of wearable technology
Wearable technology
Wearable technology, tech togs, or fashion electronics are clothing and accessories incorporating computer and advanced electronic technologies...
, they are known as intelligent clothing or smart clothing because they allow for the incorporation of built-in technological elements in everyday textiles and clothes. Electronic textiles do not strictly encompass wearable computing because emphasis is placed on the seamless integration between the fabric and the electronic elements, such as cables, microcontrollers, sensors and actuators.
One of the pioneers in electronic textiles is Rehmi Post, a Visiting Scientist at the MIT Center for Bits and Atoms, who earned his a M.Sc. at the MIT Media Lab for the development of e-broidery, a means of fabricating electronic circuitry on wash-and-wear textile substrates. Examples of his pioneering work in this field have appeared widely in museum collections, including a long-term loan to the Wellcome Wing of London's Museum of Science.
Overview
The field of e-textiles can be divided into two main categories:- E-textiles with classical electronic devices such as conducting wires, integrated circuitsIntegrated circuitAn integrated circuit or monolithic integrated circuit is an electronic circuit manufactured by the patterned diffusion of trace elements into the surface of a thin substrate of semiconductor material...
, LEDs, and conventional batteries into garments. This is the common type of e-textile. - E-textiles with modern electronics directly on the textile fibers. This can include can either passive electronics such as pure wires, conducting textile fibers, or more advanced electronics such as transistors, diodes and solar cells. The field of embedding advanced electronic components onto textile fibers is sometimes called fibertronics.
There are a number of research and commercial projects that comprise the use of hybrid structures between both categories. In this case, advanced electronic components that are embedded into the textile fiber are connected to a classical electronic device or component. Some examples are touch buttons that are constructed completely in textile forms by using conducting textile weaves, and then connected to devices such as music players or LEDs that are mounted on woven conducting fiber networks to form displays.
Fibertronics
Just as in classical electronics, the construction of electronic capabilities on textile fibers requires the use of conducting and semi-conducting materials such as a Conductive textileConductive textile
A conductive textile is a fabric which can conduct electricity. Conductive textiles can be made with metal strands woven into the construction of the textile...
There are a number of commercial fibers today that include metallic fiber
Metallic fiber
Metallic fibers are manufactured fibers composed of metal, plastic-coated metal, metal-coated plastic, or a core completely covered by metal. Gold and silver have been used since ancient times as yarns for fabric decoration. More recently, aluminum yarns, aluminized plastic yarns, and aluminized...
s mixed with textile fibers to form conducting fibers that can be woven or sewn. However, because both metals and classical semiconductors are stiff material, they are not very suitable for textile fiber applications for which fibers are subjected to much stretch and bending during use.
A new class of electronic materials that is more suitable for e-textiles is the class of organic electronics
Organic electronics
Organic electronics, plastic electronics or polymer electronics, is a branch of electronics dealing with conductive polymers, plastics, or small molecules. It is called 'organic' electronics because the polymers and small molecules are carbon-based...
materials, because they can be conducting, semiconducting, and designed as inks and plastics.
Some of the most advanced functions that have been demonstrated in the lab include:
- Organic fiber transistors: the first textile fiber transistor that is completely compatible with textile manufacturing and that contains no metals at all.
- Organic solar cells on fibers
Research labs
- Virginia Tech E-Textiles Lab
- XS Labs, Concordia University
- High-Low Tech Group, MIT Media Lab
- Studio subTela, Concordia University
- Nano-Tera.ch Research: TecInTex Project
- Laboratory for Engineered Human Protection at Philadelphia University
- http://web.media.mit.edu/~leah/
- https://cms.ifm.liu.se/applphys/biorgel/