In 2015, 3D printing was seen as one of the most exciting new spaces to explore. From desktop Makerbots to industrial machines, a new groundbreaking discovery in the space was popping up weekly. The interesting thing about additive manufacturing (another name for 3D printing) is that stereolithography (a specific kind of 3D printing) was first developed in 1986 by Charles Hull. By 2015, it had been almost two decades before consumers began to get excited about the space and understand how it could affect them.

Chuck Hull with a 3D Systems SLA Machine

Looking into the e-textiles space, it seems as though we might be experiencing a similar trajectory. This month alone, press has been covering a $302 million DoD and M.I.T collaboration and the U.S Commerce Department’s first ever smart-fabrics gathering. As we’ve seen quite a bit over the past couple years, everyone from brand names like Ralph Lauren to startups like Ravean have been announcing products in the space.

However, as new as e-textiles may seem, this space has been around for decades. The real difference between 2016 e-textiles and 1986 e-textiles is that we now consider the industry to have real, industrial potential and previously, we saw this space as craft, R&D and eccentricity.

Wearable Computing vs. Smart Fabric / E-Textiles

Steve Mann is known as “the father of wearable computing” [1] and often refers to the abacus ring as one of the first pieces of wearable technology.

Personally, I like to draw a line between wearable technology and wearable computing as technology is a broad term that applies to not just electronics, but also material and design innovation. With that in mind, wearable technology seems like a much broader category of innovation that isn’t as focused on electronics as it is materiality. In the timeline below, we’ll be focusing on textile based electronic innovations (under the category of wearable technology) that aren’t smart watches, health trackers, or other devices that we know more commonly as “wearables” (including the abacus ring. Sorry guys).

Timeline

1600 — Early conductive threads are said to date back to the Elizabethan era when gold threads were woven into garments for a gleaming accent. Now, we often use silver, or nickel threads for conductivity, but the concept of metallic threads has existed for centuries for decorating garments.

Early 1990s — MIT students started researching smart apparel for military use.

1996 — Less EMF, the conductive fabric superstore (for EMF blocking purposes) , launches

LessEMF Copper Taffeta

1998 — Sabine Seymour launches Moondial, making a practice of merging “silicon and style”

2000–2009 (year unknown) — E-textile Lounge launches as a resource for e-textile craft.

2000 — Whitepaper “ E-broidery Design and Fabrication of Textile Based Computing” features popular projects before year 2000 from embroidered keyboards to fashion tech garments .

Image of an embroidered keyboard from E-broidery

2000- Plug and Wear launches, selling conductive materials for knitting and sewing

2003- Georgia Tech Motherboard shirt appears in press

2007 — Leah Buechley develops the Lilypad, a microcontroller made specifically for textiles. (Adafruit later makes its own version called the Flora)

2008 — Sabine Seymour publishes Fashioning Technology

2008 -Mika Satomi and Hannah Perner-Wilson Launch Kobakant

2009 — Forster Rohner launches the Climate Dress using their innovative embroidered techniques

2011- MICA Fiber department begins to explore conductive thread and electronics, creating the Midi Puppet Glove

2012 — Drexel launches their Haute Tech Lab exploring smart fabrics and additive manufacturing for textiles. (date inferred)

2015- Fast Company features innovators like Switch Embassy speculating the possibility of commercial fashion applications for e-textiles

2015 — Ralph Lauren and OMSignal team up for the Polotech Shirt

2015 — Google’s Project Jacquard directs tech eyes to e-textiles at Google I/O

2015 — The Department of Defense put out a RFP for developing smart textiles and innovative fabrics

2015 — ZSK embroidery reveals conductive thread and sequin LEDs compatible with their machines

2013-2016 — Studios such as Wearable Experiments, Interwoven and The Crated (shameless plug) create practices around e-textiles and making invisible wearable tech.

2016 — IDTechEx launches a report speculating about the future of wearable tech into 2026. They breakdown how people are using conductive textiles, inks and threads

Read more at: http://www.idtechex.com/research/reports/e-textiles-2016-2026-technologies-markets-players-000459.asp

Moving Forward

As with any industry, it’s important to learn from the past as we move into a strong future for e-textiles. Thanks to suppliers like Less EMF, Adafruit, Plug and Wear and Sparkfun, E-textile makers and innovators can continue to prototype and research into the future and thanks to institutions like University of North Carolina, Drexel and MIT the future looks bright for R&D and innovation in the e-textiles space.

Tune in next time for Tale 3 — Current Thought leaders and E-textiles in Art

Naturally, I’ve missed quite a few notches on this timeline. If you’d like to see a landmark in e-textiles history added to this list, please reach out at maddy[at]thecrated.com

[1] http://bits.blogs.nytimes.com/2012/08/07/one-on-one-steve-mann-wearable-computing-pioneer/?_r=0