apparel

TechfestNW Showcases More Than 135 Startups in Industries Like Cannabis, Apparel and Artificial Intelligence - Willamette Week

Posted: 27 Mar 2019 01:06 PM PDT

While the robust lineup of speakers, parties, workshops and networking opportunities are getting attention as this city prepares for next week's TechfestNW, for many people the highlight of the two day event is PitchfestNW, the startup competition that takes place during TFNW. One of the largest startup competitions in the Northwest, more than 135 startups in industries like health care, fintech, cannabis, apparel, cybersecurity, food, education, SaaS and AI will be vying for the approval of a panel of investors. (Think of Shark Tank without Mark Cuban). Here is the full list of startups who will be attending TFNW and pitching to investors.

"It's been amazing to watch PitchfestNW grow from a concept into one of the premier startup pitch events on the West Coast," says Rick Turoczy, one of the Northwest's leading startup evangelists and the General Manager of PIE. "As an early stage startup accelerator, PIE is incredibly lucky to have this event in our own backyard, providing an annual opportunity for all of our startups to access connections that can help propel their companies forward"

Julianne Brands, a Partner at Oregon Venture Fund, says "It's never been a better time to be an entrepreneur in the NW! The caliber of the companies and the quality of the pitches keep getting better every year, and this year's PitchfestNW at TechfestNW is no exception. Startups are solving big, hairy, and meaningful problems with technology in every industry – from AI-enabled insurance to 3-D printing platforms for surgeons." says Brands, "The Oregon Venture Fund is thrilled to partner with TechfestNW on PitchfestNW for the third year in a row, and we're excited to see such a diverse group of entrepreneurs, companies, and ideas at PitchfestNW 2019."

Over the past several weeks, a number of the startups received pitch training provided  by the Oregon Venture Fund and TFNW,  including SaF, an on-demand app that lets you hire someone to wait in line for you, sitter, AnimalBiome, which helps you understand your pet's gut microbiome, and Masa, the first online farmers market.  All these startups, and 130-plus more, will be competing to be chosen as one of the  top 5 startups go on to compete for the grand prize on the mainstage of TechfestNW on Friday, April 5th. Get your tickets here.

What fame or fortune is destined for these startups?  Well, just last week, the New York Times featured one of PitchfestNW finalists from 2018, a Portland startup called AllGo, which is sort of a Yelp for plus-sized people.

LBCC teams sign with Nike for apparel, gear - Corvallis Gazette Times

Posted: 27 Mar 2019 01:25 PM PDT

The Linn-Benton Community College department of athletics announced a multiyear agreement with Nike and BSN Sports on Wednesday.

According to LBCC Athletic Director Mark Majeski, the agreement is a standard five-year deal.

Because the University of Oregon and other larger schools that use Nike-branded products are sponsored schools, they can deal directly with Nike. LBCC will have to go through BSN Sports, a distributor of Nike apparel and equipment.

"We are excited to partner with BSN Sports and Nike," Majeski said in a statement announcing the deal. "This agreement will allow us to provide all programs and student-athletes with apparel and gear that is consistent in quality, while at the same time enhancing our own brand by partnering with an industry leader like Nike."

The agreement includes discount pricing on all uniforms, apparel and footwear for the Roadrunners and discounts on equipment purchases for the athletic department. LBCC teams' apparel and equipment previously came from what Majeski described as various sources.

"Our teams will be equipped with quality apparel, shoes and gear," he said in the statement. "By choosing one supplier and brand for our team needs, we not only leverage better pricing but also provide a consistent look that will help build and strengthen our brand."

Majeski said the specific financial details of the agreement were not being released but noted the discounts and rebates made available in the agreement.

Biotechnology meets fashion and sports performance: Trends in the apparel industry - SynBioBeta

Posted: 26 Mar 2019 12:32 PM PDT

Spiders, mushrooms and algae may help build the next Hilfiger, Levi and Chanel.

Organisms are the great designers of our planet, producing materials in distinct patterns to serve a specific function. Bees produce hexagonal honeycombs to store honey, spiders weave symmetrical webs to capture prey, and nautiluses form a logarithmic spiral shell to protect their insides. Synthetic biologists, ever inspired by nature, are leveraging these unique abilities, harnessing nature's potential to revolutionize apparel by guiding structural assemblies at the molecular level.

Here are eee examples of innovative companies — in Tokyo, New York, and Berkeley — that are letting nature show the way to better, more sustainable materials in a quest to alter the fashion and apparel industries forever.

Biomaterials abound. Hexagonal honeycombs, a nautilus shell and a spider's web are examples of biomaterials patterned into higher-order structures. Images from Pixabay.

Protein engineering to build materials stronger than steel

Synthetic biologists have long "tweaked" genetic information to produce specific chemicals from living cells, but engineering the blueprints that specify higher-order structures may hold even greater potential. Nowhere is this more apparent than in spider silk, a material five times stronger than steel by weight and is increasingly being produced by microbes through fermentation, rather than actual spiders.

"In the case of spider silk specifically, using bioengineered silks is the only real option for mass production. Spiders don't like to be farmed — they prefer to eat each other when put into small spaces together — and harvesting threads from individual spiders is incredibly time consuming and inefficient," says David Lips, Researcher at Spiber Inc., a biomaterials company headquartered in Japan that has generated a wide range of protein-based materials with functions that far outshine natural variants. For example, while natural silk contracts when in contact with water, Spiber has developed "an altered silk protein material that is hydrophobic and does not contract when wet or in humid environments," they explain. "We believe this achievement will be a game-changer for many outdoor applications."

Spiber

A film made from structural protein materials. Credit: Spiber Inc.

For the last 12 years, Spiber has undoubtedly pioneered the genetic manipulation of silk, which in silkworms is made from just two interlocking proteins, but they have also found success in developing other protein-based materials using their molecular design, fermentation, and prototyping pipeline.

"As you can imagine, different applications have different specifications that the material needs to adhere to, such as a specific tolerance for heat or humidity, more flexibility, more stiffness, extreme toughness or the ability to stick to surfaces. All of these properties are governed by the physical interactions that occur at the molecular level of the material. Needless to say, changing the molecular composition of proteins by designing a different amino acid sequence can drastically alter the performance of a material. This question — figuring out the best possible molecular design for a specific material — is an iterative process that lies at the core of what Spiber does," says Lips.

This approach has enabled Spiber to develop unique, protein-based materials for stiff resins, flexible films, and soft foams. In 2015, Spiber partnered with The North Face to launch a high-performance ski jacket, called the Moon Parka, which is now being prototyped for a second-generation version.

Spiber

The second MOON PARKA®️ prototype undergoing field testing. Credit: Spiber Inc.

But the future of apparel is not limited to engineered protein-based materials. Synthetic biologists have also managed to produce patterned and structured materials by going directly to the source.

Molecular assembly platforms for fashion

At Ecovative Design, materials are grown, not synthesized. The company uses mycelium, the root structure of mushrooms, to assemble complex materials that often outperform industry leading materials while remaining eco-friendly. Eben Bayer, Co-Founder and CEO, started the company in 2007 to leverage mycelium's remarkably fast growth rate, higher heat resistance compared to plastic, enhanced insulating capabilities, and its tunable porosity to address serious challenges in biomanufacturing. Today, Ecovative Design has delivered millions of pounds of mycelium-based products to broad industries from their world-leading Mycelium Foundry in New York. MycoFlex, which is Ecovative Design's "high-performance, pure mycelium foam" that can be used for everything from textiles to footwear, can be grown in just 9 days, and its properties tuned to specification.

"The mission at Ecovative is using mycelium technology, which we view as a molecular assembly platform … to address the biggest problems facing our planet," says Bayer. "Our MycoFlex platform, which is being used in the apparel space as leather…grows in the open air, like a sheet. [The mycelium] produce a matrix with variable porosity, tensile strength and other properties. The strain, food, and environmental conditions can all be used to influence the bulk structure properties or the properties at the molecular level to create a fully formed matrix made by nature," Bayer explains.

Published data from the company also demonstrates some of the relevant properties of the mycelium, which is a porous structure composed of tubular hypha filaments made from interlocking networks of chitin, glucan, and proteins. These data indicate that mycelium structures have "considerable strain hardening before rupture under tension" and mechanical rigidity and strength, a property derived from the chitin microfibrils.

Ecovative

MycoFlex material made from mycelium. Credit: Ecovative Design

While mycelium materials already possess better properties than other materials used in the apparel industry — particularly enhanced insulation with their MycoFlex platform for technical wear — the company is also addressing a serious, unmet need in the apparel industry with their mission for renewable biomaterials. The apparel industry accounts for 10% of global carbon emissions — the second largest industrial polluter after oil — and yet few solutions are on the table to curb the $3 trillion industry.

"In fashion or apparel, we are continuing to develop several products, including foam, like soft cushioning foam for sneakers to replace EVA foam," says Bayer, referring to the plastic-based foam used in everything from yoga mats to sneakers. "Sneakers typically don't last more than a year and it makes a ton of sense to have a material that is either recyclable or compostable in your sneaker, and the way EVA is combined with other materials today in sneakers means you can't even recycle it, whereas a shoe that had an Ecovative MycoFlex cushioning section could actually be composted for the first step in recycling," touts Bayer.

Ecovative

Ecovative Design co-founders Gavin McIntyre (left) and Eben Bayer (right) holding structured materials made from mycelium. Credit: Ecovative Design

Algae: Material production powerhouses

While some biomaterials are particularly amenable to genetic engineering — like spider silk and protein-based materials — and others can be grown into desired structures with tunable properties — like mycelium — other biomaterials are produced by coupling metabolic engineering capabilities of synthetic strains with organic chemistry. Checkerspot, in Berkeley, California, has mastered this approach, engineering microalgae to produce bio-based oils that can subsequently be used in downstream chemical modifications to synthesize products that would otherwise be difficult to manufacture.

"We use a microalgae that has a high lipid content, about 70%, to produce oils that would be otherwise difficult to manufacture by chemical means," says Dr. Scott Franklin, scientific co-founder and Chief Scientific Officer of Checkerspot. "The strains that we use are also very robust, so we can reliably scale up production from this organism to greater than 625 cubic meters."

Checkerspot

A strain of microalgae with high lipid content that is used in the manufacturing of bio-derived oils. Credit: Checkerspot

The apparel industry has long been plagued by a tradeoff between performance and renewability, with properties like hydrophobicity or tensile strength often demanding the use of a dangerous — or damaging — ingredient. Most athletic wear with water-repellent properties, for example, uses coatings that contains perfluorinated compounds to render them hydrophobic. But perfluorinated coatings are often toxic, particularly the short-chain (C6 and C8) variants, despite their ubiquity in commercial products with synthetic coatings. Checkerspot is looking to address these challenges with synthetic biology and a bit of chemistry, producing a repertoire of better, bio-derived oils to make better materials with comparable, or superior, hydrophobic properties.

"Fluorinated coatings are used in a lot of products – apparel, cookware, yoga pants — but they can often be toxic and lose performance over time as they shed into the environment. We are developing bio-based hydrophobic coatings that do not contain fluorine and are comparable or have better properties than the leading standards … we are also working on oleophobic, or oil-repelling, products, which is a much more difficult problem," says Franklin. Checkerspot has also supplied algal oil to one of its partners, Beyond Surface Technologies (BST), as a substitute for palm oil — another ubiquitous lipid — just as the EU labels palm oil-derived biofuels as "unsustainable".

Checkerspot

A textile with miDori Bio Wick finishing, a hydrophobic coating, created with Beyond Surface Technologies. Credit: Checkerspot

Chemical companies were also quick to realize microalgae's unique advantages for advanced materials. For nearly a year, Checkerspot has been working with DIC, a large Japanese chemical company, on the sustainable production of high performance polyols, which are used in everything from spray coatings to elastomeric resins.

While Checkerspot has proven capabilities in applying synthetic biology and chemistry to manufacture enhanced materials, they have also developed numerous tools for microalgae engineering that are vastly expanding the utility of these organisms in bioproduction. "We are really focused on producing products that are sustainable, high-performing, and can be used as a scaffold for subsequent chemical reactions — but discovery comes first. Discovery is always first," says Franklin.

Checkerspot

The co-founders of Checkerspot, Charles Dimmler (left) and Dr. Scott Franklin (right). Credit: Checkerspot

In a world where organisms can be engineered to manufacture human insulin, biofuels, and even cannabinoids, the logical advancement is to think bigger — to use non-model organisms to produce renewable, macromolecular structures with defined properties and programmable behaviors. Sometimes these structures can be produced from retrofitted organisms — like E. coli and yeast for the production of protein-based materials — but other times, the "bigger picture" demands building tools for underutilized organisms, like mycelium and microalgae. Spiber, Ecovative Design, and Checkerspot are the rising kings in applying synthetic biology approaches to usher in a new era of apparel, where high-performance and sustainability actually coexist.

Want to learn more about bioengineered apparel? Don't miss Junichi Sugahara, Director and Executive Officer of Spiber, speaking at SynBioBeta 2019, October 1-3 in San Francisco.

THREADX, PRINTING United Present Growth Path for Apparel Decorators - Promo Marketing

Posted: 27 Mar 2019 10:15 AM PDT

In mid-February, 154 apparel decorators gathered in San Diego for THREADX. The event, hosted by SGIA, was designed by apparel decorators, for apparel decorators. Terry Combs and Aaron Montgomery, industry vets and hosts of the 2 Regular Guys podcast, called it "Woodstock for decorators."

So, what exactly are these events?

PRINTING United, SGIA's evolutionary expo coming in October 2019, was founded on the theme of industry convergence—that new technologies and capabilities are blending and blurring market segments and specialties like never before. The event will bring together printers of all disciplines under one roof for partnerships and opportunities to expand their services and products into adjacent markets. Screen printers and other apparel decorators have always been a huge part of that equation, and THREADX represents SGIA's commitment to that community, in particular.

The THREADX event itself, held over three days at the Kona Resort and Spa, was more than a conference. Envisioned as an "effort to capture the zeitgeist of consumer culture and how it will affect the industry," according to its website, THREADX was designed specifically for apparel decorators to share ideas, build community and develop strategies for business growth. Speakers came from diverse backgrounds within the apparel decoration and design space, representing fashion brands, MLB teams, digital printers and more. This was a conference not just for apparel decorators who are passionate about their craft, but for those who want to take their craft, and their business, to the next level.

Dan Marx, director of content development for SGIA, sat down with the 2 Regular Guys and a Girl Who Prints podcast live at THREADX to talk about the event. "If you want to continue to do that craft, and do it successfully, I think that idea of branding your business right, of finding the right customers and the right niche that you can serve the right way, and feel that joy of doing the work but still running a strong and successful business—that's the magic key," he said. (The whole thing is worth a listen, so check it out below.)

Ford Bowers, president and CEO of SGIA, also joined the podcast for a separate interview on THREADX and its place within the larger PRINTING United ecosphere. He talked more about convergence, and especially the potential for apparel decorators to partner with printers from other segments looking to expand their capabilities and offerings:

Overall, PRINTING United represents an opportunity for any business that prints on, well, anything. Screen printing, pad printing, offset lithography, dye sublimation, direct-to-garment inkjet, label/decal transfer, embroidery, embossing, debossing, hot stamping—PRINTING United exhibitors bring tremendous expertise on each of these processes and more, making the event an ideal place to vet printing technology, find new equipment or discover the best process for a given item. The podcasts above are a good place to start exploring what the events are all about, but check out the PRINTING United website for more information.

V.F. Corporation: One Of The Best Apparel Stocks On The Market - Seeking Alpha

Posted: 26 Mar 2019 02:41 PM PDT

[unable to retrieve full-text content]V.F. Corporation: One Of The Best Apparel Stocks On The Market  Seeking Alpha

V.F. Corporation continues to benefit from a promising product portfolio with double-digit growth around the globe. Sales are expected to continue their impress.