GreenTech
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V2Food is one of many new contenders in the alternative protein space, founded in Australia but now setting its sights on Europe, Asia and beyond. It has a few key advantages over the competition, and with €45 million in new funding it may be finding its way to plates in the Eurozone soon.
The company has seen strong uptake in its home market, and the first goal is to be No. 1 in Australia, said CEO and founder Nick Hazell, formerly of MasterFoods and PepsiCo R&D. But in the meantime they’ll be expanding their presence in Asia, where partner Burger King has launched a Whopper with their patty, and in Europe, where the product’s minimal suspicious elements come into play.
Currently v2Food makes plant-based ground beef and patties, sausages and a ready-made Bolognese sauce. Obviously they have strong competition in those categories, which are sort of the opening play of most alternative protein companies. But v2Food has a leg up on many of them in two ways.
First, v2Food products are made, or at least can be made, using “any standard meat production facility.” That’s a big plus for scaling and a minus for cost, since economies of scale are already in play. The processes for creating and mixing the plant-derived and other artificial substances that make up alternative proteins in general aren’t always amenable to existing infrastructure. This also opens the door to partnerships with existing meat companies that might have balked at having to switch processes. (Incidentally, Hazell noted that what they’re aiming for isn’t so much about replacing traditional meats so much as growing the market in a new direction, a philosophy those companies may appreciate.)
Second, as the press release announcing the fundraise puts it, “v2food products do not contain GMOs, preservatives, colors or flavorings. This makes it an ideal product for the European market, where the many large competitors have been unable to enter the market due to strict regulation.” It’s also a soft advantage for winning over in-store buyers vacillating between two plant-based options; who hasn’t on occasion ended up going for the one with fewer ingredients that proudly touts its lack of preservatives and such? The alt-protein buying demographic is likely especially sensitive to this consideration.
The €45 million round is a “B Plus,” led by European impact fund Astanor, with participation from Huaxing Growth Capitol Fund, Main Sequence and ABC World Asia. The money is going toward both R&D and scaling.
“This funding is an important step towards v2food’s goal of transforming the way the world produces food,” said Hazell. “It’s imperative that we scale quickly because these global issues need immediate solutions.”
To that end a large portion will go toward simply creating enough product to meet demand. They’re also doubling R&D spend to both accelerate new products and improve the existing ones. And rather than import the necessary ingredients to Australia, they’re exploring the possibility of building a local manufacturing facility there. With luck and a bit of plant-based elbow grease, the region could become a net exporter, propping up the local economy as well as building up v2Food’s resilience and cutting costs.
The Europe expansion is still a twinkle in the company’s (and Astanor’s) eye, for even with its simplicity and non-GMO origins, it’s not trivial to launch a new product in the European market.
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General Motors said Wednesday it is adding two new zero-emissions vehicles to its commercial portfolio as it looks to expand its first-to-last-mile business arm, BrightDrop.
The first vehicle will be a battery electric cargo van under the Chevrolet brand that will likely be similar to the popular Chevy Express van. The second will be a medium-duty truck that CEO Mary Barra said “will put both the Ultium and Hydrotec hydrogen fuel cell technology to work.”
Much has been made of GM’s commitment to invest in electric passenger vehicles, but the company has also been busy targeting commercial customers with zero-emitting technologies. GM’s go-to technologies are battery electric and hydrogen fuel cells for heavy-duty and long-haul purposes.
GM in January said it would supply Hydrotec Hydrogen Fuel Cell Power Cubes to trucking manufacturer Navistar, with the first hydrogen trucks anticipated to go on sale in 2024. The automaker also penned a deal with Wabtec to develop hydrogen fuel cells and batteries for locomotives.
GM launched BrightDrop in January in a bid to offer commercial customers, starting with a contract with FedEx, an ecosystem of electric and connected products.
BrightDrop started with two main products, an electric van called the EV600 with an estimate range of 250 miles and a pod-like electric pallet dubbed EP1. BrightDrop executives previously hinted that the business unit was working on other products, including a medium-distance vehicle that transports multiple electric pallets known as EP1 and rapid load delivery vehicle concept.
“Between these new trucks, BrightDrop, EV pickups coming from Chevrolet and GMC, and our work with Wabtec on locomotives, and Navistar on semi trucks, we will have electric solutions for almost any towing or hauling job you can imagine,” Barra said.
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Environmental, social and governance (ESG) factors should be key considerations for CTOs and technology leaders scaling next generation companies from day one. Investors are increasingly prioritizing startups that focus on ESG, with the growth of sustainable investing skyrocketing.
What’s driving this shift in mentality across every industry? It’s simple: Consumers are no longer willing to support companies that don’t prioritize sustainability. According to a survey conducted by IBM, the COVID-19 pandemic has elevated consumers’ focus on sustainability and their willingness to pay out of their own pockets for a sustainable future. In tandem, federal action on climate change is increasing, with the U.S. rejoining the Paris Climate Agreement and a recent executive order on climate commitments.
Over the past few years, we have seen an uptick in organizations setting long-term sustainability goals. However, CEOs and chief sustainability officers typically forecast these goals, and they are often long term and aspirational — leaving the near and midterm implementation of ESG programs to operations and technology teams.
Until recently, choosing cloud regions meant considering factors like cost and latency to end users. But carbon is another factor worth considering.
CTOs are a crucial part of the planning process, and in fact, can be the secret weapon to help their organization supercharge their ESG targets. Below are a few immediate steps that CTOs and technology leaders can take to achieve sustainability and make an ethical impact.
As more businesses digitize and more consumers use devices and cloud services, the energy needed by data centers continues to rise. In fact, data centers account for an estimated 1% of worldwide electricity usage. However, a forecast from IDC shows that the continued adoption of cloud computing could prevent the emission of more than 1 billion metric tons of carbon dioxide from 2021 through 2024.
Make compute workloads more efficient: First, it’s important to understand the links between computing, power consumption and greenhouse gas emissions from fossil fuels. Making your app and compute workloads more efficient will reduce costs and energy requirements, thus reducing the carbon footprint of those workloads. In the cloud, tools like compute instance auto scaling and sizing recommendations make sure you’re not running too many or overprovisioned cloud VMs based on demand. You can also move to serverless computing, which does much of this scaling work automatically.
Deploy compute workloads in regions with lower carbon intensity: Until recently, choosing cloud regions meant considering factors like cost and latency to end users. But carbon is another factor worth considering. While the compute capabilities of regions are similar, their carbon intensities typically vary. Some regions have access to more carbon-free energy production than others, and consequently the carbon intensity for each region is different.
So, choosing a cloud region with lower carbon intensity is often the simplest and most impactful step you can take. Alistair Scott, co-founder and CTO of cloud infrastructure startup Infracost, underscores this sentiment: “Engineers want to do the right thing and reduce waste, and I think cloud providers can help with that. The key is to provide information in workflow, so the people who are responsible for infraprovisioning can weigh the CO2 impact versus other factors such as cost and data residency before they deploy.”
Another step is to estimate your specific workload’s carbon footprint using open-source software like Cloud Carbon Footprint, a project sponsored by ThoughtWorks. Etsy has open-sourced a similar tool called Cloud Jewels that estimates energy consumption based on cloud usage information. This is helping them track progress toward their target of reducing their energy intensity by 25% by 2025.
Beyond reducing environmental impact, CTOs and technology leaders can have significant, direct and meaningful social impact.
Include societal benefits in the design of your products: As a CTO or technology founder, you can help ensure that societal benefits are prioritized in your product roadmaps. For example, if you’re a fintech CTO, you can add product features to expand access to credit in underserved populations. Startups like LoanWell are on a mission to increase access to capital for those typically left out of the financial system and make the loan origination process more efficient and equitable.
When thinking about product design, a product needs to be as useful and effective as it is sustainable. By thinking about sustainability and societal impact as a core element of product innovation, there is an opportunity to differentiate yourself in socially beneficial ways. For example, Lush has been a pioneer of package-free solutions, and launched Lush Lens — a virtual package app leveraging cameras on mobile phones and AI to overlay product information. The company hit 2 million scans in its efforts to tackle the beauty industry’s excessive use of (plastic) packaging.
Responsible AI practices should be ingrained in the culture to avoid social harms: Machine learning and artificial intelligence have become central to the advanced, personalized digital experiences everyone is accustomed to — from product and content recommendations to spam filtering, trend forecasting and other “smart” behaviors.
It is therefore critical to incorporate responsible AI practices, so benefits from AI and ML can be realized by your entire user base and that inadvertent harm can be avoided. Start by establishing clear principles for working with AI responsibly, and translate those principles into processes and procedures. Think about AI responsibility reviews the same way you think about code reviews, automated testing and UX design. As a technical leader or founder, you get to establish what the process is.
Promoting governance does not stop with the board and CEO; CTOs play an important role, too.
Create a diverse and inclusive technology team: Compared to individual decision-makers, diverse teams make better decisions 87% of the time. Additionally, Gartner research found that in a diverse workforce, performance improves by 12% and intent to stay by 20%.
It is important to reinforce and demonstrate why diversity, equity and inclusion is important within a technology team. One way you can do this is by using data to inform your DEI efforts. You can establish a voluntary internal program to collect demographics, including gender, race and ethnicity, and this data will provide a baseline for identifying diversity gaps and measuring improvements. Consider going further by baking these improvements into your employee performance process, such as objectives and key results (OKRs). Make everyone accountable from the start, not just HR.
These are just a few of the ways CTOs and technology leaders can contribute to ESG progress in their companies. The first step, however, is to recognize the many ways you as a technology leader can make an impact from day one.
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Battery joint ventures have become the hot must-have deal for automakers that have set ambitious targets to deliver millions of electric vehicles in the next few years.
It’s no longer just about securing a supply of cells. The string of partnerships and joint ventures show that automakers are taking a more active role in the development and even production of battery cells.
Automakers are taking a more active role in the development and even production of battery cells.
And the deals don’t appear to be slowing down. Just this week, Mercedes-Benz announced its $47 billion plan to become an electric-only automaker by 2030. Securing its battery supply chain by expanding existing partnerships or locking in new ones to jointly develop and produce battery cells and modules is a critical piece of its plan.
Mercedes, like other automakers, is also focused on developing and deploying advanced battery technology. In addition to setting up eight new battery plants to supply its future EVs, the German automaker said it was partnering with Sila Nano, the Silicon Valley battery chemistry startup that it has previously invested in, to increase energy density, which should in turn improve range and allow for shorter charging times.
“This follows a trend that we’ve seen of automakers realizing how critical the battery is and taking more control of the production of the cells in order to ensure their own supply,” Sila Nano CEO Gene Berdichevsky said in a recent interview. “Like if you’re VW, and you say, ‘We’re going to go 50% electric by whatever year,’ but then the batteries don’t show up, you’re bankrupt, you’re dead. Their scale is so big that even if their cell partners have promised them to deliver, automakers are scared that they won’t.”
Tesla, BMW and Volkswagen were early adopters of the battery joint-venture strategy. In 2014,Tesla and Panasonic signed an agreement to build a large battery manufacturing plant, or a gigafactory as everyone is now calling it, in the U.S. and have worked together since. BMW began working with Solid Power in 2017 to create solid-state batteries for high-performance EVs that could potentially lower costs by requiring less safety features than lithium-ion batteries.
In addition to its partnership with Northvolt, VW is also in talks with suppliers to secure more direct access to supplies like semiconductors and lithium so it can keep its existing plants running at full speed.
Now the rest of the industry is moving to work with battery companies, to share knowledge and resources and essentially become the manufacturer.
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Pivot Bio makes fertilizer — but not directly. Its modified microorganisms are added to soil and they produce nitrogen that would otherwise have to be trucked in and dumped there. This biotech-powered approach can save farmers money and time and ultimately may be easier on the environment — a huge opportunity that investors have plowed $430 million into in the company’s latest funding round.
Nitrogen is among the nutrients crops need to survive and thrive, and it’s only by dumping fertilizer on the soil and mixing it in that farmers can keep growing at today’s rates. But in some ways we’re still doing what our forebears did generations ago.
“Fertilizer changed agriculture — it’s what made so much of the last century possible. But it’s not a perfect way to get nutrients to crops,” said Karsten Temme, CEO and co-founder of Pivot Bio. He pointed out the simple fact that distributing fertilizer over a thousand — let alone ten thousand or more — acres of farmland is an immense mechanical and logistical challenge, involving many people, heavy machinery and valuable time.
Not to mention the risk that a heavy rain might carry off a lot of the fertilizer before it’s absorbed and used, and the huge contributions of greenhouse gases the fertilizing process produces. (The microbe approach seems to be considerably better for the environment.)
Yet the reason we do this in the first place is essentially to imitate the work of microbes that live in the soil and produce nitrogen naturally. Plants and these microbes have a relationship going back millions of years, but the tiny organisms simply don’t produce enough. Pivot Bio’s insight when it started more than a decade ago was that a few tweaks could supercharge this natural nitrogen cycle.
“We’ve all known microbes were the way to go,” he said. “They’re naturally part of the root system — they were already there. They have this feedback loop, where if they detect fertilizer they don’t make nitrogen, to save energy. The only thing that we’ve done is, the portion of their genome responsible for producing nitrogen is offline, and we’re waking it up.”
Other agriculture-focused biotech companies like Indigo and AgBiome are also looking at modifying and managing the plant’s “microbiome,” which is to say the life that lives in the immediate vicinity of a given plant. A modified microbiome may be resistant to pests, reduce disease or offer other benefits.
It’s not so different from yeast, which as many know from experience works as a living rising agent. That microbe has been cultivated to consume sugar and produce a gas, which leads to the air pockets in baked goods. This microbe has been modified a bit more directly to continually consume the sugars put out by plants and put out nitrogen. And they can do it at rates that massively reduce the need for adding solid fertilizer to the soil.
“We’ve taken what is traditionally tons and tons of physical materials, and shrunk that into a powder, like baker’s yeast, that you can fit in your hand,” Temme said (though, to be precise, the product is applied as a liquid). “All of a sudden managing that farm gets a little easier. You free up the time you would have spent sitting in the tractor applying fertilizer to the field; you’ll add our product at the same time you’d be planting your seeds. And you have the confidence that if a rainstorm comes through in the spring, it’s not washing it all away. Globally about half of all fertilizer is washed away… but microbes don’t mind.”
Instead, the microbes just quietly sit in the soil pumping out nitrogen at a rate of up to 40 pounds per acre — a remarkably old-fashioned way to measure it (why not grams per square centimeter?), but perhaps in keeping with agriculture’s occasional anachronistic tendencies. Depending on the crop and environment, that may be enough to do without added fertilizers at all, or it might be about half or less.
Whatever the proportion provided by the microbes, it must be tempting to employ them, because Pivot Bio tripled its revenue in 2021. You might wonder why they can be so sure only halfway through the year, but as they are currently only selling to farmers in the northern hemisphere and the product is applied at planting time early in the year, they’re done with sales for the year and can be sure it’s three times what they sold in 2020.
The microbes die off once the crop is harvested, so it’s not a permanent change to the ecosystem. And next year, when farmers come back for more, the organisms may well have been modified further. It’s not quite as simple as turning the nitrogen production on or off in the genome; the enzymatic pathway from sugar to nitrogen can be improved, and the threshold for when the microbes decide to undertake the process rather than rest can be changed as well. The latest iteration, Proven 40, has the yield mentioned above, but further improvements are planned, attracting potential customers on the fence about whether it’s worth the trouble to change tactics.
The potential for recurring revenue and growth (by their current estimate they are currently able to address about a quarter of a $200 billion total market) led to the current monster D round, which was led by DCVC and Temasek. There are about a dozen other investors, for which I refer readers to the press release, which lists them in no doubt a very carefully negotiated order.
Temme says the money will go toward deepening and broadening the platform and growing the relationship with farmers, who seem to be hooked after giving it a shot. Right now the microbes are specific to corn, wheat and rice, which of course covers a great deal of agriculture, but there are many other corners of the industry that would benefit from a streamlined, enhanced nitrogen cycle. And it’s certainly a powerful validation of the vision Temme and his co-founder Alvin Tamsir had 15 years ago in grad school, he said. Here’s hoping that’s food for thought for those in that position now, wondering if it’s all worth it.
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As more consumers embrace plant-based diets and sustainable food practices, Rise Gardens is giving anyone the ability to have a green thumb from the comfort of their own home.
The Chicago-based indoor, smart hydroponic company raised $9 million in an oversubscribed Series A round, led by TELUS Ventures, with existing investors True Ventures and Amazon Alexa Fund and new investor Listen Ventures joining in. The company has a total of $13 million in venture-backed investments since Rise was founded in 2017, founder and CEO Hank Adams told TechCrunch.
Though he began in 2017, Adams, who has a background in sports technology, said he spent a few years working on prototypes before launching the first products in 2019. Rise’s IoT-connected systems are designed to grow vegetables, herbs and microgreens year-round.
Customers can choose between three system levels and get started with their first garden for about $300.
There is a “kind of joyousness” in being able to grow something, but people are looking for assistance because they don’t want to get into a hobby that will become demanding or stressful, Adams said. As a result, Rise’s accompanying mobile app monitors water levels and plant progress, then alert users when it’s time to water, fertilize or care for their plants.
“People are paying attention to food, and they care about what they eat,” he added. “Then the global pandemic played a part in this, with people leaning into growing their own food.”
In fact, customers leaned into growing food so much that Rise Gardens saw its sales eclipse seven figures in 2020, and gardens sold out three times during the year. Customers purchased close to 100,000 plants and have harvested 50,000.
The company estimates it helped keep more than 2,000 pounds of food from being wasted and saved 250,000 gallons of water since launching in 2019.
The concept of an indoor farm is not new. Incumbents include AeroGarden, AeroGrow, which was acquired by Scotts-Miracle Gro last November, and Click & Grow. Rise is among a new crop of startups that have raised funds that include Gardyn.
However, Rise Gardens is differentiating itself from those competitors by making its gardens from powder-coated metals and glass and are designed to be a focal point in the room. It is also offering ways for people to experiment with their gardens.
“We wanted something that would be flexible because once you have mastered a hobby, you will get bored,” he added. “You can start at one level and they swap out tray lids to grow more densely. We have a microgreens kit you can add, or add plant supports for tomatoes and peppers. You can also build a trellis to vine snap peas.”
Adams will focus the Series A dollars into product development, inventory, manufacturing, expansion into new markets and building up the team, especially in the areas of customer service and marketing. Rise has about 25 employees and plans to bring on another eight this year.
In addition, Rise Gardens’ products will soon be available on Amazon — its first channel outside of its website. The company is also expanding into schools in what Adams calls “version 2.0” of the school garden.
When Rich Osborn, president and managing partner of TELUS Ventures, evaluated the indoor garden space, he told TechCrunch that Adams and his team rose to the top of the list because of their background, data experience and syndication with Amazon.
Not only was consumer demand there for these kinds of products, but the sustainability and social impact created from these kinds of investments couldn’t be overemphasized, he said.
Nishan Majarian, co-founder and CEO of TELUS Agriculture, said he sees a future where there is a spectrum of food growth, and crop management will be at the plant level.
“Ever since Climate Corp. was acquired by Monsanto, there has been a massive influx into agriculture to get to the next billion-dollar exit,” Majarian added. “Agrifood is the last segmented supply chain. Every crop is different, every market is different. That makes it local, complex and fertile soil — pun intended — for startups who get capital to solve those issues and scale.”
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The increasing regulation of ESG (environmental, social, governance) disclosure reporting may have started in the public markets, but will almost certainly have downstream effects for private market actors — for founders, companies and investors.
Since his confirmation as the chair of the U.S. Securities and Exchange Commission in April, Gary Gensler has made reforming ESG disclosures concerning climate change risk and human capital a top priority. The SEC’s regulatory agenda confirms as much. And Gensler is not alone in his focus on ESG at the federal level.
President Joe Biden issued an executive order encouraging regulators to assess climate-related financial risk. At the end of March, Treasury Secretary Janet Yellen wrote on Twitter that “our future livelihoods … depend on the financial sector to build a more sustainable and resilient economy.” Congress is considering measures that would require increased ESG disclosures, including the Improving Corporate Governance Through Diversity Act, the Diversity and Inclusion Data Accountability and Transparency Act and the Climate Risk Disclosure Act.
This renewed federal focus on ESG issues will bolster the SEC’s effort to create disclosure practices for public companies and mutual funds. Regardless of whether these federal policies around ESG come to pass, they reflect a momentum that will almost certainly impact private markets:
In his confirmation hearing before the Senate in early March, Gensler said, “Markets — and technology — are always changing. Our rules have to change along with them.”
The federal government is moving to increase regulation around ESG disclosure requirements with the goals of establishing greater transparency and metrics for public companies.
The federal government is moving to increase regulation around ESG disclosure requirements with the goals of establishing greater transparency and metrics for public companies. These requirements are a response to the changing markets — demands from consumers, scrutiny from investors and a general insistence for higher corporate standards from society at large.
Private markets aren’t immune to these forces. Already, three-quarters of investors in a 2020 survey said it was very important to measure the success of sustainability initiatives, but they also said there’s been a lack of clarity on how to define and measure outcomes.
To be sure, private markets are not headed toward full-scale adoption of ESG regulations. They will not be subject to the same reporting or disclosures framework as their public counterparts. Not today, and possibly not for some time.
But we may begin to see private investors, funds and companies adapting to get ahead of ESG regulation and position themselves to effectively operate in a new — albeit adjacent — regulatory environment. In their case, the rules may not change — but the game could.
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Revel is turning to an app that gamifies energy use to keep its fleet of more than 3,000 electric mopeds charged without putting a strain on New York City’s power grid.
Electricity is the key ingredient for the Brooklyn-based startup, which has more recently expanded beyond shared electric mopeds and into e-bike subscriptions, fast-charging infrastructure and even an all EV ride-hailing service. It’s not just about accessing power; managing when that power is tapped will be essential for Revel to keep its operational costs as low as possible.
That’s where Logical Buildings comes in. The software company has developed GridRewards, an app that helps customers lower their monthly energy consumption and earn cash rewards in the process. The app’s “virtual power plant” software will help Revel dynamically adjust the charging schedule of its fleet to support NYC’s electrical grid resilience, according to a statement from the companies.
“As we continue to expand our electric mobility products, we plan to be an asset to the grid rather than a liability,” said Paul Suhey, Revel COO & co-founder, in a statement. “Our EV infrastructure and charging operations can play a major role in helping NYC transition to a cleaner electric grid.”
EV adoption and shared micromobility services are on the rise, so many industry players are finding ways to transfer energy between batteries and the grid. EV battery swapping company Ample says its swapping stations can be used to generate backup power in case of an emergency, and even Ford’s new pickup truck, the F-150 Lighting, can power your home in the event of an outage.
In Revel’s case, the company hopes to provide services to the grid like “demand response” operations, where charging stations shed a load when needed in order to provide immediate relief to the grid, something the company just did in NYC. During the heat wave of the week of June 28, the mobility company adjusted its fleet charging schedule to avoid peak demand times.
Revel says avoiding peak demand times also helps to create a cleaner grid because when energy is in high demand, the sources of power generation emit twice as much carbon dioxide per unit of electricity and 20 times as much nitrogen oxides.
Revel also owns a fleet of Teslas for an all-EV ridehailing service that has had to halt its services due to a cap placed on new for-hire vehicles in the city. But at present, the company will only be implementing this technology with its e-mopeds.
“As transportation electrifies, it is imperative that electric mobility companies schedule their charging operations to promote grid resiliency,” said David Klatt, Logical Buildings’ VP of operations, in a statement. “Revel is taking necessary steps to ensure it is a leader in intelligent charging operations, paving the way for the smooth electrification and decarbonization of NYC.”
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Oakland-based Mighty Buildings, which is on a quest to build homes using 3D printing, robotics and automation, has raised a $22 million extension to its Series B round of funding.
The additional capital builds upon a $40 million raise the company announced earlier this year, bringing its total funding since its 2017 inception to $100 million.
Mighty Building’s self-proclaimed mission is to create “beautiful, sustainable and affordable” homes.
The company claims to be able to 3D print structures “two times as quickly with 95% less labor hours and 10-times less waste” than conventional construction. For example, it says it can 3D print a 350-square-foot studio apartment in just 24 hours.
Execs say the new capital will go toward making supply chain improvements and moving up research and development timelines. The money will also go toward helping it achieve a new goal of achieving Net-Zero carbon neutrality by 2028 — which it says is 22 years ahead of the construction industry overall.
“As a founding team, we have long been passionate about solving productivity for construction in a sustainable way,” said co-founder and CEO Slava Solonitsyn. “We have spent four years figuring out what it takes to achieve that. We believe that we have a master plan now that can work.”
Since its launch, the company has produced and installed a number of accessory dwelling units (ADUs).
Sam Ruben, co-founder and chief sustainability officer of Mighty Buildings, said the new funds will also go toward kicking off development of the startup’s multistory offering. The multistory efforts will likely initially focus on two to three-story single family homes and townhouses with an eye toward expanding into low-rise apartment buildings. The company hopes to have at least a prototype multistory offering in late 2022 or early 2023, according to Ruben.
“Along with the sustainability improvements already captured by our new formula, this will allow us to develop our next-generation material to get us even closer to our goal of being carbon neutral by 2028,” Ruben said. “It will also give us opportunities to implement improvements in our existing design by reducing the impact of our foundations and other, nonprinted elements.”
Specifically, Mighty Buildings plans to speed up its carbon neutrality roadmap by building “high-throughput, sustainable” micro factories, forming strategic supply chain partnerships, accelerating “blue skies” technology research and developing new composite materials produced from recycled or bio-based feedstock.
The micro factories, according to the company, will be able to produce 200 to 300 homes per year in locations where housing gaps exist. Mighty Buildings plans to create single-family residential developments with its panelized “Mighty Kit System.”
Mighty Buildings has seen quarter over quarter growth in sales, Ruben said, with the company seeing a record of over $7 million in total contracted revenue in the second quarter.
The company is also excited about its new fiber-reinforced printing material, which is currently undergoing testing with certification expected to be completed later this year. Mighty Buildings claims that its new formula shows “over 50% improvement” in embodied carbon from its original material and a strength profile similar to reinforced concrete, with more than four times less weight.
The round extension was supported by a few new and existing investors including ArcTern Ventures, Core Innovation Capital, Decacorn Capital, Gaingels, Khosla Ventures, Klaff Realty, MicroVentures, Modern Venture Partners, Polyvalent Capital, Vibrato Capital and others.
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Carbon tracking is very much the new hot thing in tech, and we’ve previously covered more generalist startups doing this at scale for companies, such as Plan A Earth out of Berlin.
But there’s clearly an opportunity to get deep into a vertical sector and tailor solutions to it.
That’s the plan of Vaayu, a carbon tracking platform aimed specifically at retailers. It has now raised $1.57 million in pre-seed funding in a round led by CapitalT. Several angels also took part, including Atomico’s Angel Program, Planet Positive LP, Saarbrücker 21, Expedite Ventures and NP-Hard Ventures.
Carbon tracking for the retail fashion industry, in particular, is urgently needed. Unfortunately, the fashion industry remains responsible for 10% of annual global carbon emissions, which ads up to more than all international flights and maritime shipping combined.
Vaayu says it integrates with various point-of-sale systems, such as Shopify and Webflow. It then pulls in data on logistics, operations and packaging to monitor, measure and reduce their carbon emissions. Normally, retailers calculate emissions once a year, which is obviously far less accurate.
Vaayu was founded in 2020 by Namrata Sandhu (CEO), former head of Sustainability at fashion retailer Zalando, as well as Anita Daminov (CPO) and Luca Schmid (CTO). Vaayu currently has 25 global brand customers, including Missoma, Armed Angels and Organic Basics.
Commenting on the fundraise, Sandhu said: “We have only nine short years left to achieve the UN’s goal of reducing carbon emissions by 50% by 2030 and as the third-largest contributor to global emissions, retailers need to take action — and fast. Vaayu is here to help retailers measure, monitor, and reduce their carbon footprint at scale across the entire supply chain — something that I know from my own experience can be complex and expensive.”
Speaking to me over a call, Sandhu told me: “Putting the focus on retail basically allows us to automate the calculation, which means in three clicks you can get your carbon footprint right away. That then allows us to really get accurate data, and with that, we can basically do reductions specific to the business but using software, rather than any kind of manual intervention or a kind of ‘intermediate’ state where you need to put together an Excel sheet. Because we focus on retail we can automate the entire process and also automate the reductions.”
“We are delighted to be backed by female-led CapitalT who understood us and our vision right from the start. We look forward to developing Vaayu further in the coming months so we can reach as many retailers as possible and help put the brakes on the impending climate crisis,” she added.
Janneke Niessen, founding partner, CapitalT commented: “We are very excited to join Vaayu on their mission to reduce carbon emission for retailers worldwide. The Vaayu product is very scalable and its quick and easy implementation allows for fast adoption. We are confident that with this experienced team, Vaayu will soon be one of the fastest-growing climate tech companies in Europe and the world.”
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