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iRocket to begin rocket engine testing at NASA’s Marshall Space Flight Center

Reusable rocket startup iRocket has entered into a new partnership with NASA in its quest to reach commercialization in just two years.

The partnership will give iRocket access to testing facilities and engineering support, chiefly at the NASA Marshall Space Flight Center in Huntsville, Alabama. The company is hoping that it will conduct its first rocket engine test — an on-the-ground engine firing test — at the Huntsville site in September.

iRocket is earmarking $50 million over the next five years for the testing and development of its reusable engines and launch vehicle. Access to NASA facilities also means access to test stands — crucial infrastructure that provides controlled conditions for engine testing. iRocket will be able to conduct vacuum testing (which simulates space conditions) at the Glenn Research Center in Ohio and sea level testing at Marshall.

“We’re engaged in very intimate discussions, all the way at the center level, at Marshall Space Flight Center,” iRocket CEO Asad Malik said in a recent interview with TechCrunch.

The engines in question will eventually power iRocket’s inaugural Shockwave launch vehicles, fully reusable, autonomous small launchers capable of carrying payload with a maximum size of around 300 kg (661 lbs.) and 1,500 kg (around 3,300 lbs.). Manufactured via 3D printing, the engines will be powered by methane and liquid oxygen. “Methane is going to be the fuel of choice for deep space missions,” Malik said.

The New York-based startup is also aiming to make the engines hypersonic capable, an ambitious goal. But iRocket has ambitious plans. Malik wants to turn the company into the premier supplier for both reusable rocket engines and the rockets themselves. Because it’s designing both rocket stages to be reusable as well — a striking difference between it and other rocket developers — Malik said the company could one day not only launch satellites and cargo missions, but also clear space junk or retrieve experiments for biotech companies.

Malik pointed out that the sale of Aerojet Rocketdyne to Lockheed Martin — which is still under review by the Federal Trade Commission — is going to leave a gap in the market. “That’s going to open up the U.S. without an independent rocket supplier at a time when Congress is really pushing hard for us to move away from foreign-bought parts,” he said. “So it’s an opportunity for us to work with the government, the Pentagon, NASA and other partners to develop this next-generation space propulsion capability that we need.”

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Masten Space Systems to develop a GPS-like network for the moon

Masten Space Systems, a startup that’s aiming to send a lander to the moon in 2023, will develop a lunar navigation and positioning system not unlike GPS here on Earth.

Masten’s prototype is being developed as part of a contract awarded through the Air Force Research Laboratory’s AFWERX program. Once deployed, it’ll be a first-of-its-kind off-world navigational system.

Up until this point, spacecraft heading to the moon must carry equipment onboard to detect hazards and assist with navigation. To some extent, it makes sense that a shared navigation network has never been established: Humans have only landed on the moon a handful of times, and while there have been many more uncrewed landings, lunar missions still haven’t exactly been a regular occurrence.

But as the costs of going to orbit and beyond have drastically decreased, thanks in part to innovations in launch technology by companies like SpaceX, space is likely to get a lot busier. Many private companies and national space divisions have set their sights on the moon in particular. Masten is one of them: It was chosen by NASA to deliver commercial and private payloads to a site near the Haworth Crater at the lunar south pole. That mission, originally scheduled for December 2022, was pushed back to November 2023.

Other entities are also looking to go to the moon. Chief amongst them is NASA with its Artemis program, which will send two astronauts to the lunar surface in 2024. These missions will likely only increase in the coming decades, making a common navigation network more of a necessity.

“Unlike Earth, the moon isn’t equipped with GPS so lunar spacecraft and orbital assets are essentially operating in the dark,” Masten’s VP of research and development Matthew Kuhns explained in a statement.

The system will work like this: Spacecraft will deploy position, navigation and timing (PNT) beacons onto the lunar surface. The PNT beacons will enable a surface-based network that broadcasts a radio signal, allowing spacecraft and other orbital assets to wirelessly connect for navigation, timing and location tracking.

The company already concluded Phase I of the project, which involved completing the concept design for the PNT beacons. The bulk of the engineering challenge will come in Phase II, when Masten will develop the PNT beacons. They must be able to withstand harsh lunar conditions, so Masten is partnering with defense and technology company Leidos to build shock-proof beacon enclosures. The aim is to complete the second phase in 2023.

“By establishing a shared navigation network on the moon, we can lower spacecraft costs by millions of dollars, increase payload capacity and improve landing accuracy near the most resource-rich sites on the moon,” Kuhns said.

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Startup founded by ‘Survivor’ champ debuts airless bike tires based on NASA rover tech

As NASA is quick to remind people, the investments it funnels toward space exploration often wind up improving life on Earth — and it’s now in the business of speeding up some of that work through startups. SMART, a startup founded in 2020, has a partnership with NASA through the Space Act Agreement and is part of the agency’s formal Startup Program that aims to commercialize some of its innovations. The young company today revealed its first product: An airless bicycle tire based on technology NASA engineers created to make future lunar and Martian rovers even more resilient.

SMART’s METL tire is the first fruit of the startup’s work with NASA’s Glenn Research Center, where NASA engineers Dr. Santo Padula and Colin Creager first developed their so-called “shape memory alloy” (SMA) technology. SMA allows for a tire constructed entirely of interconnected springs, which requires no inflation and is therefore immune to punctures, but which can still provide equivalent or better traction when compared to inflatable rubber tires, and even some built-in shock-absorbing capabilities.

Engineers at NASA’s Glenn Research Center assemble the new shape memory alloy rover tire prior to testing in the Simulated Lunar Operations Laboratory. Image Credits: NASA

Dr. Padula and Creager’s key development was creating an alloy that can return to their shape at the molecular level, meaning they can deform to adapt to uneven terrain, including obstacles like gravel and potholes, and return to their shape without losing structural integrity over time.

SMART, which is co-founded by “Survivor: Fiji” champion Earl Cole and engineer Brian Yennie, worked with Padula and Creager, along with former NASA intern Calvin Young, to apply the benefits of SMA to the consumer market. They’re targeting the cycling market first with their METL tire, which is set to become available to the general public by early next year. Following that, SMART intends to also pursue bringing SMA tires to the automotive and commercial vehicle industries, too.

SMART's METL tire close up

Image Credits: SMART Tire Company

Already, SMART has a partnership in place with Ford-owned Spin, the bike and scooter-sharing company focused on novel micromobility models. SMART’s technology has the potential not only to make flat tires or under inflation a thing of the past, but could reduce cost and waste long-term by supplementing the need for rubber tires, which need frequent replacement and can be a danger to riders or drivers when used without proper pressure.

SMART is also using WeFunder to seek crowdsourced equity investment, with SAFEs currently available at an $8 million valuation cap.


Early Stage is the premier “how-to” event for startup entrepreneurs and investors. You’ll hear firsthand how some of the most successful founders and VCs build their businesses, raise money and manage their portfolios. We’ll cover every aspect of company building: Fundraising, recruiting, sales, product-market fit, PR, marketing and brand building. Each session also has audience participation built-in — there’s ample time included for audience questions and discussion. Use code “TCARTICLE at checkout to get 20% off tickets right here.

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Space startup Gitai raises $17.1M to help build the robotic workforce of commercial space

Japanese space startup Gitai has raised a $17.1 million funding round, a Series B financing for the robotics startup. This new funding will be used for hiring, as well as funding the development and execution of an on-orbit demonstration mission for the company’s robotic technology, which will show its efficacy in performing in-space satellite servicing work. That mission is currently set to take place in 2023.

Gitai will also be staffing up in the U.S., specifically, as it seeks to expand its stateside presence in a bid to attract more business from that market.

“We are proceeding well in the Japanese market, and we’ve already contracted missions from Japanese companies, but we haven’t expanded to the U.S. market yet,” explained Gitai founder and CEO Sho Nakanose in an interview. So we would like to get missions from U.S. commercial space companies, as a subcontractor first. We’re especially interested in on-orbit servicing, and we would like to provide general-purpose robotic solutions for an orbital service provider in the U.S.”

Nakanose told me that Gitai has plenty of experience under its belt developing robots which are specifically able to install hardware on satellites on-orbit, which could potentially be useful for upgrading existing satellites and constellations with new capabilities, for changing out batteries to keep satellites operational beyond their service life, or for repairing satellites if they should malfunction.

Gitai’s focus isn’t exclusively on extra-vehicular activity in the vacuum of space, however. It’s also performing a demonstration mission of its technical capabilities in partnership with Nanoracks using the Bishop Airlock, which is the first permanent commercial addition to the International Space Station. Gitai’s robot, codenamed S1, is an arm–style robot not unlike industrial robots here on Earth, and it’ll be showing off a number of its capabilities, including operating a control panel and changing out cables.

Long-term, Gitai’s goal is to create a robotic workforce that can assist with establishing bases and colonies on the Moon and Mars, as well as in orbit. With NASA’s plans to build a more permanent research presence on orbit at the Moon, as well as on the surface, with the eventual goal of reaching Mars, and private companies like SpaceX and Blue Origin looking ahead to more permanent colonies on Mars, as well as large in-space habitats hosting humans as well as commercial activity, Nakanose suggests that there’s going to be ample need for low-cost, efficient robotic labor – particularly in environments that are inhospitable to human life.

Nakanose told me that he actually got started with Gitai after the loss of his mother – an unfortunate passing he said he firmly believes could have been avoided with the aid of robotic intervention. He began developing robots that could expand and augment human capability, and then researched what was likely the most useful and needed application of this technology from a commercial perspective. That research led Nakanose to conclude that space was the best long-term opportunity for a new robotics startup, and Gitai was born.

This funding was led by SPARX Innovation for the Future Co. Ltd, and includes funding form DcI Venture Growth Fund, the Dai-ichi Life Insurance Company, and EP-GB (Epson’s venture investment arm).

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Find out how we’re working toward living and working in space at TC Sessions: Space 2020

The idea of people going to live and work in space, outside of the extremely unique case of the International Space Station, has long been the strict domain of science fiction. That’s changing fast, however, with public space agencies, private companies and the scientific community all looking at ways of making it safe for people to live and work in space for longer periods — and broadening accessibility of space to people who don’t necessarily have the training and discipline of dedicated astronauts.

At TC Sessions: Space on December 16 & 17, we’ll be talking to some of the people who want to make living and working in space a reality, and who are paving the way for the future of both commercial and scientific human space activity. Those efforts range from designing the systems people will need for staying safe and comfortable on long spaceflights, to ideating and developing the technologies needed for long-term stays on the surface of worlds that are far less hospitable to life than Earth, like the moon and Mars.

We’re thrilled to have Janet Kavandi from Sierra Nevada Corporation, Melodie Yashar from SEArch+, Nujoud Mercy from NASA and Axiom’s Amir Blachman joining us at TC Sessions: Space on December 16 &17 to chat about the future of human space exploration and commercial activity.

Janet Kavandi is executive vice president of Space Systems at the Sierra Nevada Corporation. She was selected as a NASA astronaut in 1994 as a member of the fifteenth class of U.S. astronauts. She completed three space flights in which she supported space station payload integration, capsule communications and robotics. She went on to serve as director of flight crew operations at NASA’s Johnson Space Center and then as director of NASA’s Glenn Research Center, where she directed cutting-edge research on aerospace and aeronautical propulsion, power and communication technologies. She retired from NASA in 2019 after 25 years of service.

More panels from TC Sessions: Space

Melodie Yashar is a design architect, technologist and researcher. She is co-founder of Space Exploration Architecture (SEArch+), a group developing human-supporting concepts for space exploration. SEArch+ won top prize in both of NASA’s design solicitations for a Mars habitat within the 3D-Printed Habitat Challenge. The success of the team’s work in NASA’s Centennial Challenge led to consultancy roles and collaborations with UTAS/Collins Aerospace, NASA Langley, ICON, NASA Marshall and others.

Nujoud Merancy is a systems engineer with extensive background in human spaceflight and spacecraft at NASA Johnson Space Center. She is currently the chief of the Exploration Mission Planning Office responsible for the team of engineers and analysts designing, developing and integrating NASA’s human spaceflight portfolio beyond low earth orbit. These missions include planning for the Orion Multi-Purpose Crew Vehicle, Space Launch System, Exploration Ground Systems, Gateway and Human Landing System.

Amir Blachman is chief business officer at Axiom, a pioneering company in the realm of commercializing space and building the first generation of private commercial space stations. He spent most of his career investing in and leading early-stage companies. Before joining Axiom as the company’s first employee, he managed a syndicate of 120 space investors in 11 countries. Through this syndicate, he funded lunar landers, communication networks, Earth-imaging satellites, antennae and exploration technologies.

In order to hear from these experts, you’ll need to pick up your ticket to TC Sessions: Space, which will also include video on demand for all sessions, which means you won’t have to miss a minute of expert insight, tips and trend spotting from the top founders, investors, technologists, government officials and military minds across public, private and defense sectors. There are even discounts for groups, students and military/government officials.

You’ll find panel discussions, interviews, fireside chats and interactive Q&As on a range of topics: mineral exploration, global mapping of the Earth from space, deep tech software, defense capabilities, 3D-printed rockets and the future of agriculture and food technology. Don’t miss the breakout sessions dedicated to accessing grant money. Explore the event agenda now and get a jump on organizing your schedule.

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Student discount passes available for TC Sessions: Space 2020

Whether space is the final frontier remains to be seen, but it’s certainly the next one as far as we’re concerned. On December 16-17, we’re hosting TC Sessions: Space 2020, a two-day online conference and our first event focused squarely on space technology and the early-stage startups and investors that make it possible.

The future of this industry is wide open, and it’s going to require cultivating a deep bench of visionaries to sustain it. And it starts with affordable access for students eager to turn science fiction into fact. Grab your $50 student pass here and get ready to shift your career into warp speed.

Pro Tip: We offer a range of ticket options for nonstudents (including discounts for government, military and nonprofits). Buy yours before early-bird pricing ends on November 13 at 11:59 p.m. PST. Also, current Extra Crunch subscribers receive an additional 20% discount on passes.

This is your chance to hear from the best and brightest people leading this universal expedition. You’ll meet and engage with engineers, founders, investors, executives, military and government officials.

We’re talking officials like NASA administrator Jim Bridenstine and Space Command’s General John W. Raymond. We’re talking founders like Relativity Space’s Tim Ellis and Rocket Lab’s Peter Beck. We’re talking investors like Bessemer Venture Partners’ Tess Hatch and SpaceFund’s Meagan Crawford. And that’s just the tip of the rocket, so to speak.

We’re packing the two-day event with top-notch programming. Set coordinates for the main stage for fireside chats and moderated panel discussions. TechCrunch editors ask the tough questions and dig deep on topics like launch services, orbital operations, ground station networks, broadband communications, earth observation data, manufacturing and military operations in space.

Don’t miss the breakout sessions and Q&As. Breakouts let you explore specific topics. Main stage events always generate lots of questions, and the Q&A sessions give the audience a chance to pose questions to speakers who appeared on the main stage.

Searching for a stellar internship or a job that’s out of this world? Ouch. Explore the expo area where you’ll find early-stage space startups and sponsors showcasing their tech and talent.

That brings us to networking. Remember, this virtual conference reaches thousands of people around the world. It’s prime territory for expanding your network — an essential part of startup success. You’ll have free use of CrunchMatch, our AI-powered networking platform.

It makes quick, efficient work out of finding, scheduling and meeting people. Not just any people — people who align with your startup interests. People who can help you build a business or a career. Answer a few quick questions when you register and CrunchMatch goes to work for you.

We’ll have plenty more to announce over the next two months, so stay tuned. TC Sessions: Space 2020 blasts off on December 16-17. Don’t wait, buy your $50 student pass today and boldly go!

Is your company interested in sponsoring TC Sessions: Space 2020? Click here to talk with us about available opportunities.

 

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Two weeks left to score early-bird savings at TC Sessions: Space 2020

NASA just made history by landing a spacecraft on an asteroid. If that kind of technical achievement carbonates your glass of Tang, join us on December 16-17 for TC Sessions: Space 2020, an event dedicated to early-stage space startups.

We’ve launched early-bird pricing, and $125 buys you access to all live sessions, plus video on demand. Don’t procrastinate. Buy your pass now before the early-bird reenters Earth’s atmosphere (and prices go up) on November 13 at 11:59 p.m. (PT).

More ways to save: Go further together with early-bird group tickets ($100) — bring four team members and get the fifth one free. We also offer discount passes for students ($50) and government, military and nonprofits ($95). Looking for out-of-this-world exposure? An Early-Stage Startup Exhibitor Package ($360) includes four tickets, digital exhibition space, a pitch session to attendees and the ability to generate leads. Bonus savings: Extra Crunch subscribers get a 20% discount.

TC Sessions: Space is an unrivaled opportunity to learn from, connect and network with boundary-pushing founders, investors and officials from NASA, the Aerospace Corporation, the U.S. Air Force and leading space companies spanning public, private and defense sectors.

We’ve packed the conference with outstanding presentations, fireside chats and interviews. Plus, you’ll find breakout sessions on specialized topics, audience Q&As with Main Stage speakers and the expo area for partners and early-stage startups.

Here’s a taste of the topics, but keep an eye on the agenda, because we’ll add more speakers and sessions in the coming weeks.

Asteroid Rocks and Moon Landings

Lisa Callahan, vice president/general manager of commercial civil space at Lockheed Martin Space, discusses all aspects of scientific and civil exploration of the solar system — from robots scooping rockets from the surface of galaxy-traveling asteroids, to preparing for the return of humans to the surface of the moon.

Sourcing Tech for Securing Space

Lt. General Thompson is responsible for fostering an ecosystem of non-traditional space startups and the future of Space Force acquisitions, all to the end goal of protecting the global commons of space. He’ll discuss what the U.S. looks for in startup partnerships and emerging tech, and how it works with these young companies.

Bridging Today and Tomorrow’s Tech

Corporate VC funds are a key source of investment for space startups, in part because they often involve partnerships that help generate revenue, and because they understand the timelines involved. SpaceFund’s Meagan Crawford and Lockheed Martin Ventures’ J. Christopher Moran discuss how these funds fit in with more standard venture to power the ecosystem.

TC Sessions: Space 2020 takes flight on December 16-17, but we’re starting our early-bird countdown right now. Great savings disappear in two weeks on November 13 at 11:59 p.m. (PT). Buy your early-bird passes today and celebrate your savvy shopping with a tall glass of Tang.

Is your company interested in sponsoring TC Sessions: Space 2020? Click here to talk with us about available opportunities.

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Join us Wednesday, September 9 to watch Techstars Starburst Space Accelerator demo day live

The 2020 class of Techstars Starburst Space Accelerator is graduating with an official demo day on Wednesday at 10 a.m. PDT (1 p.m. EDT), and you can watch all the teams present their startups live via the stream above. This year’s class includes 10 companies building innovative new solutions to challenges either directly or indirectly related to commercial space.

Techstars Starburst is a program with a lot of heavyweight backing from both private industry and public agencies, including from NASA’s JPL, the U.S. Air Force, Lockheed Martin, Maxar Technologies, SAIC, Israel Aerospace Industries North America and The Aerospace Corporation. The program, led by managing director Matt Kozlov, is usually based locally in LA, where much of the space industry has significant presence, but this year the demo day is going online due to the ongoing COVID-19 situation.

Few, if any, programs out there can claim such a broad representation of big-name partners from across commercial, military and general civil space in terms of stakeholders, which is the main reason it manages to attract a range of interesting startups.  This is the second class of graduating startups from the Starburst Space Accelerator; last year’s batch included some exceptional standouts like in-orbit refueling company Orbit Fab (also a TechCrunch Battlefield participant), imaging microsatellite company Pixxel and satellite propulsion company Morpheus.

As for this year’s class, you can check out a full list of all 10 participating companies below. The demo day presentations begin tomorrow, September 9 at 10 a.m. PDT/1 p.m. PDT, so you can check back in here then to watch live as they provide more details about what it is they do.

Bifrost

A synthetic data API that allows AI teams to generate their own custom datasets up to 99% faster — no tedious collection, curation or labelling required.
founders@bifrost.ai

Holos Inc.

A virtual reality content management system that makes it super easy for curriculum designers to create and deploy immersive learning experiences.
founders@holos.io

Infinite Composites Technologies

The most efficient gas storage systems in the universe.
founders@infinitecomposites.com

Lux Semiconductors

Lux is developing next generation System-on-Foil electronics.
founders@luxsemiconductors.com

Natural Intelligence Systems, Inc.

Developer of next-generation pattern-based AI/ML systems.
leadership@naturalintelligence.ai

Prewitt Ridge

Engineering collaboration software for teams building challenging deep tech projects.
founders@prewittridge.com

SATIM

Providing satellite radar-based intelligence for decision makers.
founders@satim.pl

Urban Sky

Developing stratospheric microballoons to capture the freshest, high-res earth observation data.
founders@urbansky.space

vRotors

Real-time remote robotic controls.
founders@vrotors.com

WeavAir

Proactive air insights.
founders@weavair.com

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Oxwash bags $1.7M for a cleaner spin on laundry

Oxwash, a UK-based laundry startup that’s aiming to disrupt traditional but environmentally costly washing and dry-cleaning processes by using ozone to sterilize fabrics at lower temperatures, along with electric cargo bikes for hyper local pick ups and deliveries, has bagged a £1.4 million (~$1.7M) seed.

Backers in the funding round include TrueSight Ventures, Biz Stone (co-founder of Twitter), Paul Forster (founder of Indeed.com), Founders Factory and other unnamed angel investors.

Prior to this, Oxwash was working with a £300k pre-seed round — which it used to fund building its first washing hubs (which it calls “Lagoons”) and to test its reengineered washing process.

The startup’s pitch is that its applying “space age” technology to clean dirty laundry, burnished by the claim that its co-founder and CEO, Kyle Grant, is a former NASA engineer — having spent two years as a systems engineer where he researched the use and effect of microorganisms for extended space travel.

That said, it’s packing its reengineered cleaning system into standard (but “massively” modified) industrial washing machines. Just add coronavirus-safe ‘space suits’ (er, PPE)….

“Washing still has crazy carbon emissions, pollution and collection/delivery services cause large amounts of congestion. We saw a way to re-engineer the laundry process from the ground up and to be the first truly sustainable, space-age laundry company in the world,” says Grant, discussing the opportunity he and his co-founder spied to rethink laundry.

“We’re developing processes to have zero net carbon emissions for the whole laundry process — from collection to washing and back to delivery.”

The team is developing “chemistry that works at 20˚C better than at 40˚C or higher, integrating ozone disinfection to remove microorganisms by oxidation rather than using heat and developing water recycling and filtration systems to reduce water consumption and remove microfibre pollution at the same time”, per Grant.

It’s also structuring business operations to locate washing hubs in city centres, where its customers are based, so it can make use of electric bikes for moving the laundry around — allowing for a next day service with 30 minute collection and delivery windows.

“Traditional washing processes use huge amounts of water, energy to heat said water, harsh chemicals and normal petrol/diesel vans for the collections and deliveries. These process warehouses are usually located outside of cities and there are large lags in when items are returned to the customers (up to two weeks),” he further claims.

While ozone itself is a pollutant that degrades air quality, and can even be dangerous if released, Grant says the ozone used in its cleaning machines — which is produced from oxygen in the atmosphere — degrades back to oxygen “within minutes and is therefore inert and safe”.

“After extensive analysis ozone is far safer to use in commercial laundry processes than heat and harsh chemicals such as peroxides (bleach),” he suggests.

On safety, he also says their washing machines are modified to be sealed whilst “washing and disinfecting”, and can only be opened after the ozone has degraded. “Our lagoons are also fitted with ozone sensors that will cut off our generators if the ozone concentration in the air ever goes over the safe limit,” he adds. “Thankfully this has never occurred. The risks to our staff are far lower than when working with boiling water tanks, harsh chemicals and manual handling, the usual work flow in commercial laundries.”

Oxwash launched in the UK in early 2018 and now has more than 4,000 individual customers, per Grant, along with “several hundred” business customers — including the Marriott Hotel Chain, NHS GP practices, London Marathon and Universities of Oxford and Cambridge.

It’s executed a slight pivot of focus over the past two months — spying an opportunity to target risks related to the coronavirus. “We’ve developed a service in the last 2 months that is available to provide coronavirus disinfection,” he says in a statement. “We are working closely with [the UK’s National Health Service] NHS and vulnerable groups to provide support when needed.”

“We have adopted laboratory-grade PPE [personal protective equipment] processes, heavily inspired and adapted from my time working at NASA but also from guidelines from the NHS and HSE England,” Grant adds. “For example, we now perform contactless collections and deliveries whereby the customers pre-bag their items in supplied dissolvable bags. Our rider then has gloves, goggles and a respirator to perform the transfer back to the lagoon where a member of our team in full hazmat gear will load and unload the machines where disinfection is performed.”

Before the COVID-19 pandemic, he says the startup was getting traction from customers wanting to remove allergens that caused them allergic reactions.

“We were confident of moving into the healthcare market in the years to come but usually the tender process for such contracts is not conducive to a startup,” says Grant. “However since the advent of COVID-19 and our ongoing healthcare certification, we have seen a huge increase in the value of proper hygiene to both the individuals and businesses we serve. The Marriott Hotel chain and Airbnb have both expressed serious intent to work on a non-healthcare hygiene rating much like that of the Food Standards Authority. We are working with CINET (the international textile committee) to bring this to market with our technology and processes.”

The seed funding will be used to expand to more cities within the UK and Europe — with London and other European hubs, such as Paris and Amsterdam, in its sights. Its initial two locations are Oxford and Cambridge.

It’s also going to spin up on the hiring front, planning to add a head of growth and head of tech, as well as new operational roles in London.

Ploughing more resource into software dev is another focus, with funding going to expand the tech stack and the software systems which run its logistics and integrate with its digitised washing process. More work on its app is also planned. 

Asked what makes Oxwash a scalable business, Grant points to the development of this proprietary software alongside the reengineered washing service. “This iteration of technology and service allows us to develop our washing technology rapidly and get real-time feedback on the end-product and service from our customers,” he says. “The scalable technology element is the proprietary washing process driven by our bespoke software stack and process algorithms.”

On the labor side, Grant says Oxwash is “working towards a B Corp accreditation”.

“[We] have long held that our team should be properly reimbursed for their work but also as ambassadors for our brand out on our bikes. To that end all of our riders (couriers) are fully employed and like the rest of the team they are paid in excess of the national living wage,” he adds.

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NASA and Planet expand imagery partnership to all NASA-funded Earth science research

NASA and Planet have deemed their pilot partnership a success, and the result is that NASA will extend its contract with Planet to provide the company’s satellite imagery of Earth to all research programs funded by the agency. NASA had signed an initial contract last April with Planet to provide Planet imagery to a team of 35 researchers working on tracking what are known as “Essential Climate Variables,” or ECVs.

The ECV trial showed that Planet’s imagery was useful in tracking and providing insight into a number of different Earth-based environmental events, including landslides in the Himalayan mountain range. During the study, one of the key ingredients in helping researchers detect early warning signs was the Planet satellite constellation’s high revisit rate, which means the frequency with which it photographs a specific area over time.

Planet’s data covers the entire Earth at least once per day, and includes even areas of the planet not typically included in Earth observation passes by other satellites and providers, like the Arctic. Its frequency, along with its coverage and degree of detail, all combine to make it a valuable resource to anyone conducting Earth science work, which means it’s very good news that it’s now available to hundreds more scientists working on dozens more projects.

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