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Opportunity knocks: Exhibit at TC Sessions: Mobility 2021

No matter what slice of the mobility market you’ve claimed as your own — AVs, EVs, data mining, AI, dockless scooters, robotics or the batteries that will charge and change the world — you won’t find a better place to showcase your extraordinary tech and talent than TC Sessions: Mobility 2021.

Buy a Startup Exhibitor Package and virtually plant your early-stage mobility startup in front of a global audience that’s focused exclusively on one of the most complex, rapidly evolving industries. TC Sessions: Mobility, which takes place on June 9, features the top minds and makers, draws thousands of attendees, fosters collaborative community and creates a networking environment ripe with opportunities.

Pro tip: This package is for pre-Series A, early-stage startups only.

The Startup Exhibitor Package costs $380, and it comes with four all-access passes to the event. But wait (insert infomercial voice here), there’s more!

Your virtual expo booth features lead-generation capabilities. You can highlight your pitch deck, run a video loop and/or host live demos. Network with CrunchMatch, our AI-powered platform, to find and connect with the people who can help move your business forward. CrunchMatch lets you host private video meetings — pitch investors, recruit new talent or grow your customer base.

You’ll have access to all the presentations, panel discussions and breakout sessions, too. And video-on-demand means you won’t miss out.

Here’s a peek at just some of the agenda’s great programming you and, thanks to those extra passes, your team can attend — or catch later with VOD:

  • EV Founders in Focus: We sit down with the founders poised to take advantage of the rise in electric vehicle sales. This time, we will chat with Kameale Terry, co-founder and CEO of ChargerHelp! a startup that enables on-demand repair of electric vehicle charging stations.
  • Will Venture Capital Drive the Future of Mobility? Clara Brenner, Quin Garcia and Rachel Holt will discuss how the pandemic changed their investment strategies, the hottest sectors within the mobility industry, the rise of SPACs as a financial instrument and where they plan to put their capital in 2021 and beyond.
  • Driving Innovation at General Motors: GM is in the midst of sweeping changes that will eventually turn it into an EV-only producer of cars, trucks and SUVs. But the auto giant’s push to electrify passenger vehicles is just one of many efforts to be a leader in innovation and the future of transportation. We’ll talk with Pam Fletcher, vice president of innovation at GM, one of the key people behind the 113-year-old automaker’s push to become a nimble, tech-centric company.

TC Sessions: Mobility 2021 takes place June 9. Buy a Startup Exhibitor Package and set yourself up for global exposure and networking success. Show us your extraordinary tech and talent!

Is your company interested in sponsoring or exhibiting at TC Sessions: Mobility 2021? Contact our sponsorship sales team by filling out this form.

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Subaru’s first electric vehicle is called the Solterra and it’s due out in 2022

For Subaru diehards holding out for an electric vehicle, the wait is almost over. The Japanese automaker just announced new details about its first-ever EV, which is set to hit the streets in 2022.

Subaru will call its first EV the Solterra, a fitting name for a brand synonymous with outdoor adventures and you know, the sun and the Earth. Also fittingly, Subaru’s first full-fledged EV will be an SUV that ships with the manufacturer’s well-regarded all-wheel-drive capabilities.

The Solterra is built on a new platform the company is developing in partnership with Toyota, which the latter company will use for its impossibly named bZ4X crossover (bZ stands for “beyond zero,” apparently).

Subaru has only released two teaser images so far, but given that the new SUV will share DNA with the Toyota bZ4X, Subaru’s offering will likely look like a toned-down, less aggressively styled version of Toyota’s forthcoming futuristic electric crossover.

Other than that, we don’t know a whole lot. If the Solterra winds up looking a lot like the BZ4X, you can expect a sort of squashed RAV4, maybe somewhere between a Crosstrek and a Forester in size.

Subaru’s first proper EV will join the plug-in hybrid Crosstrek, which the company began selling in 2014 — currently its only option for climate-conscious drivers. The Solterra will go on sale next year in the U.S., Canada, China, Europe and Japan.

 

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Ford, BMW lead Solid Power’s $130M Series B round

A Solid Power manufacturing engineer holds two 20 ampere hour (Ah) all solid state battery cells for the BMW Group and Ford Motor Company. The 20 ampere hour (Ah) all solid state battery cells were produced on Solid Power’s Colorado-based pilot production line. Source: Solid Power.

Solid state battery systems have long been considered the next breakthrough in battery technology, with multiple startups vying to be the first to commercialization. Automakers have been some of the top investors in the technology, each of them seeking the edge that will make their electric vehicles safer, faster and with increased range.

Ford Motor Company and BMW Group have put their money on battery technology company Solid Power.

The Louisville, Colorado-based SSB developer said Monday its latest $130 million Series B funding round was led by Ford and BMW, the latest signal that the two OEMs see SSBs powering the future of transportation. Under the investment, Ford and BMW are equal equity owners, and company representatives will join Solid Power’s board.

Solid Power received additional investment in the round from Volta Energy Technologies, the venture capital firm spun out of the U.S. Department of Energy’s Argonne National Laboratory.

Solid state batteries are so named because they lack a liquid electrolyte, as Mark Harris explained in an Extra Crunch article earlier this year. Liquid electrolyte solutions are usually flammable and at risk of overheating, so SSBs are considered to be generally safer. The real value of SSBs versus their lithium-ion counterparts is the energy density. Solid Power says its batteries can provide as much as a 50% to 100% increase in energy density compared to rechargeable batteries. Theoretically, electric vehicles with more energy-dense batteries can travel longer distances on a single charge.

This latest round of investment will help Solid Power boost its manufacturing to produce battery cells with the company’s highest ampere hour (Ah) output yet. Under separate joint development agreements with Ford and BMW, it will deliver to the OEMs 100 Ah cells for testing and vehicle integration from 2022.

Until this point, the company has been manufacturing cells with 2 Ah and 20 Ah output. “Hundreds” of 2 Ah battery cells were validated by Ford and BMW late last year, Solid Power said in a statement. Meanwhile, it is currently producing 20 Ah solid state batteries on a pilot basis with standard lithium-ion equipment.

As opposed to the 20 Ah pilot-scale cells — which are composed of 22-layers at 9×20 cm — these 100 Ah cells will have a larger footprint and even more layers, Solid Power spokesman Will McKenna told TechCrunch. (“Layers” refers to the number of double-sided cathodes, McKenna explained — so the 20 Ah cell has 22 cathodes and 22 anodes, with an all-solid electrolyte separator in between each, all in a single cell.)

Unlike Solid Power’s manufacturing, traditional lithium-ion batteries must undergo electrolyte filling and cycling in their production processes. Solid Power says these additional steps account for 5% and 30% of capital expenditure in a typical GWh-scale lithium-ion facility.

This isn’t the first time Solid Power has landed investments from the automakers. The company’s $20 million Series A in 2018 attracted capital from BMW and Ford, as well as Samsung, Hyundai, Volta and others. It’s part of a new wave of companies that have attracted the attention of OEMs. Other notable examples include Volkswagen-backed QuantumScape and General Motors, which has put its money on SES.

Ford is also independently researching advanced battery technologies and is planning to open a $185 million R&D battery lab, the company said last week.

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Volvo AB and Daimler Trucks team up in hydrogen fuel cell joint venture

Competitors Volvo AB and Daimler Trucks are teaming up to produce hydrogen fuel cells for long-haul trucks, which the companies say will lower development costs and boost production volumes. The joint venture, which is called cellcentric, aims to bring large-scale “gigafactory” production levels of hydrogen fuel cells to Europe by 2025.

While the two companies are teaming up to produce the fuel cells via the cellcentric venture, all other aspects of truck production will remain separate. The location of the forthcoming gigafactory will be announced next year. The companies also did not specify the production capacity of the forthcoming factory.

Even as Volvo AB and Daimler Trucks used ambition-signaling terms like “gigafactory” — a term popularized by Tesla due to the giga capacity of its factories — executives added a few cautionary caveats to their goal. Europe’s hydrogen economy will depend in part on whether the European Union can produce a policy framework that further drives down costs and invests in refueling stations and other infrastructure, executives noted in a media briefing. In other words, manufacturers like Daimler and Volvo that are looking to invest in hydrogen face a “chicken and the egg” problem: boosting fuel cell production only makes sense if it occurs in tandem with the buildout of a hydrogen network, including refueling stations, pipelines to transport hydrogen and renewable energy resources to produce it.

“In the long run, I mean, this must be a business-driven activity as everything else,” Volvo CTO Lars Stenqvist told TechCrunch. “But in the first wave, there must be support from our politicians.”

Together with other European truck manufacturers, the two companies are calling for a buildout of hydrogen refueling stations around Europe of around 300 by 2025 and around 1,000 by 2030.

The Swedish and German automakers suggested policies such as a tax on carbon, incentives for CO2-neutral technologies or an emissions trading system could all help ensure cost-competitiveness against fossil fuels. Heavy-duty trucking will only compose a fraction of hydrogen demand, around 10%, Stenqvist pointed out, with the rest being used by industries such as steel manufacturing and the chemical industry. That means the push for hydrogen-supportive policies will likely be heard from other sectors, as well.

One of the biggest challenges for the new venture will be working to decrease inefficiencies associated with converting hydrogen to electricity. “That’s the core of engineering in trucking, to improve the energy efficiency of the vehicle,” Stenqvist said. “That has always been in the DNA of engineers in our industry … energy efficiency will be even more important in an electrified world.” He estimated that the cost of hydrogen would need to be in the range of $3-4 per kilogram to make it a cost-effective alternative to diesel.

Volvo is also making investments in battery electric technologies and Stenqvist said he sees potential use cases for internal combustion engines (ICE) run on renewable biofuels. He is in agreement with Bosch executives who said earlier this month that they see a place for ICE in the future. “I’m also convinced that there is a place for the combustion engines for a long period of time, I don’t see any end, I don’t see any retirement date for the combustion engines,” he said.

“From a political side, I think it would be completely wrong to ban a technology. Politicians should not ban — should not approve technologies — they should point out the direction, they should talk about what they want to achieve. And then it’s up to us as engineers to come up with the technical solutions.”

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GM partners with 7 charging networks ahead of electric vehicle push

GM revealed Wednesday a four-part plan meant to handle all the steps of charging an electric vehicle, including finding a public charger and paying for the power, as the automaker seeks ways to attract customers to the 30 EVs it plans to launch by 2025.

The so-called Ultium Charge 360 plan — named after the underlying electric vehicle platform and batteries of its upcoming EVs — aims to handle the access, payment and customer service components of charging an electric vehicle at home and on the road. As part of the plan, which the company’s chief EV officer Travis Hester said will be rolling out over the next 18 months, GM has signed agreements with seven third-party charging network providers, including Blink Charging, ChargePoint, EV Connect, EVgo, FLO, Greenlots and SemaConnect. Using their GM vehicle brand mobile app, EV drivers will be able to see real-time information, including location and whether a charger is being used, from nearly 60,000 charging plugs throughout the U.S. and Canada. These functions will be rolled into the existing brand apps GM has created for owners of its Chevrolet, Cadillac and GMC vehicles.

The first GM and EVgo sites are now live in Washington, California and Florida. GM said each site is capable of delivering up to 350 kilowatts and averages four chargers per site. GM and EVgo are on track to have about 500 fast-charging stalls live by the end of 2021, according to the automaker.

Hester noted the plan isn’t just about how many third-party networks it partners with. (Although it should be noted that Electrify America is not on its list of partners announced Wednesday.)

“We know how critical the charging infrastructure is to our customers and how it plays a hugely significant role in EV adoption and experienced EV owners know that this is much more complicated than just a simple network quantity issue,” Hester said in a media briefing Wednesday.

For instance, the GM app will provide information on how to find stations along a route and initiate and pay for charging, Hester said. GM will continue to update the mobile app. GM is also planning to offer charging accessories and installation services for their home charger. The company said Wednesday it will cover standard installation of Level 2 charging capability for eligible customers who purchase or lease a 2022 Bolt EUV or Bolt EV in collaboration with Qmerit.

There were some gaps in the announcement, notably whether there would be Plug and Charge capabilities. Plug and Charge is a technology standard that allows the driver of an EV to pull up to a station, plug in and power up their EV without having to launch an app to begin the charging process or to pay for it. Instead, the vehicle is able to communicate with the charging infrastructure and the payment is integrated into that process. Alex Keros, the lead architect for EV infrastructure at GM, said the company wasn’t making any announcements around Plug and Charge, but noted that the company knows “that enabling that seamless experience is going to be an important part of that customer experience.”

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Ford to open new lab to develop next-gen lithium-ion and solid-state batteries

Ford Motor Company will open a $185 million R&D battery lab to develop and manufacture battery cells and batteries, a first step toward the automaker possibly making battery cells in-house. The facility comes as yet another signal to consumers and other automakers that the auto giant is no longer hedging its bets on the transition to battery electric vehicles.

Company executives declined to provide a timeline on when Ford might scale its battery manufacturing, but it is clear that the company intends this facility to lay the groundwork for such a future.

The Ford Ion Park will be based in southeast Michigan and will be home to more than 150 employees across battery technology development, research and manufacturing. The facility will likely be around 200,000 square feet and will open at the end of 2022. The facility will be supported by Ford’s batteries benchmarking test laboratories in nearby Allen Park, Michigan, which is already testing battery cell construction and chemistries. Also nearby are Ford’s product development center in Dearborn and Ford’s battery cell assembly and e-motor plant in Rossville.

The new facility will be led by Anand Sankaran, who is currently Ford’s director of electrified systems engineering. He described it as a “learning lab” to create both “lab-scale and pilot-scale assembly of cells,” including next-gen lithium-ion and solid-state batteries.

Ford is thinking about the transition to BEVs in phases, Hau Thai-Tang, Ford’s chief product platform and operations officer, explained. In this first phase, when BEVs are being largely purchased by early adopters, Ford’s working with external supplier partners. The company is now preparing for phase two, when Ford will bring more products to market and BEVs will take more of the market share. “So in preparation for that next transition into the second phase, we want to give Ford the flexibility and the optionality to eventually vertically integrate,” Thai-Tang said.

“Our plan to lead the electric revolution will certainly be dependent on the progress that we make on battery energy density, as well as cost,” Thai-Tang told reporters Tuesday.

“The formation of the Ford Ion Park team is a key enabler for Ford to vertically integrate and manufacture batteries in the future,” Thai-Tang said. “This will help us better control our supply and deliver high-volume battery cells with greater range, lower cost and higher quality.”

This would be a huge boost for domestic manufacturing of battery cells, which is dominated by companies based in Asia, such as Panasonic (Tesla’s main supplier), South Korea-based LG Chem and SK Innovation, Ford’s current battery cell supplier. Executives said the global pandemic and the semiconductor shortage have highlighted the importance of having a localized and domestically controlled supply chain.

“We know in terms of batteries, it’s a very capital-intensive business to be in,” Thai-Tang said. “The best tier one suppliers in the world spend a large amount of their revenue on R&D spending, and then the capital expenditure required to build and stand up battery plants is quite high. So as we think about this, the scale and volume that we would need to have dedicated sites for Ford is a big consideration, and we’ve talked about how bullish we see this transition happening. We’re at a point where now, there’s sufficient scale for us to entertain having greater levels of vertical integration at some point.”

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Tesla wants to make every home a distributed power plant

Tesla CEO Elon Musk wants to turn every home into a distributed power plant that would generate, store and even deliver energy back into the electricity grid, all using the company’s products.

While the company has been selling solar and energy storage products for years, a new company policy to only sell solar coupled with the energy storage products, along with Musk’s comments Monday, reveal a strategy that aims to scale these businesses by appealing to utilities.

“This is a prosperous future both for Tesla and for the utilities,” he said. “If this is not done, the utilities will fail to serve their customers. They won’t be able to do it,” Musk said during an investor call, noting the rolling blackouts in California last summer and the more recent grid failure in Texas as evidence that grid reliability has become a bigger concern.

Last week, the company changed its website to prevent customers from only buying solar or its Powerwall energy storage product and instead required purchasing a system. Musk later announced the move in a tweet, stating “solar power will feed exclusively to Powerwall” and that “Powerwall will interface only between utility meter and house main breaker panel, enabling super simple install and seamless whole house backup during utility dropouts.”

Musk’s pitch is that the grid would need more power lines, more power plants and larger substations to fully decarbonize using renewables plus storage. Distributed residential systems — of course using Tesla products — would provide a better path, in Musk’s view. His claim has been backed up in part by recent studies from the Massachusetts Institute of Technology, which found that the U.S. can reach a zero-carbon grid by more than doubling its transmission capacity, and another from Princeton University showing that the country may need to triple its transmission systems by 2050 to reach net-zero emissions.

Musk is imagining a radically different electricity grid system than the one we have today, which is centrally controlled and run by grid operators, independent organizations such as the California Independent System Operator or the Electric Reliability Council of Texas. It’s a vision that is riddled with bureaucratic and logistical challenges. Utilities and regulatory policy would need to solve how to handle a large influx of so-called “distributed energy resources,” such as solar panels on residential roofs, which may run contrary to utilities’ long-established business models.

It’s important to note that whether renewables-plus-storage will be alone sufficient to decarbonize the energy grid is a contentious question. Many experts believing that the land use demands, storage requirements and intermittency issues of renewables may make their role as the country’s primary electricity generator a pipe dream. But Musk has long been bullish on the renewables-plus-storage model, tweeting last July that “physics favors electric transport, batteries for stationary storage & solar/wind for energy generation.”

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Hyundai invests in teleoperations startup Ottopia as part of $9M round

After spending much of his career in mission-critical environments, including the Israeli Air Force, Israeli Intelligence and leading development of a cybersecurity product at Microsoft, Amit Rosenzweig turned his attention to autonomous vehicles.

It was a technology that he soon recognized would need what every other mission-critical system requires: humans. 

“I understood that there are so many edge cases that will not be solved purely by AI and machine learning, and there must be some kind of human-in-the-loop intervention,” Rosenzweig said in a recent interview. “You don’t have any mission-critical system on the planet — not nuclear power plants, not airplanes — without human supervision. A human must be in the loop or present in some way for autonomous mobility to exist, even in 10 or probably 20 years from now.”

That “human in the loop” conclusion led Rosenzweig to found teleoperations startup Ottopia in 2018. (His brother, Oren Rosenzweig is also in the autonomous vehicle business via the lidar company he co-founded, Innoviz.) Ottopia’s first product is a universal teleoperation platform that allows a human operator to monitor and control any type of vehicle from thousands of miles away. Ottopia’s software is combined with off-the-shelf hardware components like monitors and cameras to create a teleoperations center. The company’s software also includes assistive features, which provide “path” instructions to the AV without having to remotely control the vehicle.

Since launching, the small 25-person company has racked up investors and partners such as BMW, fixed-route AV startup May Mobility and Bestmile. Ottopia said Friday that it has raised $9 million from Hyundai Motor Group as well as Maven and IN Venture, the Israel-focused venture capital arm of Sumitomo Corporation. Existing investors MizMaa and Israeli firm NextGear also participated.

Hyundai and IN Venture also gained board seats. Woongjun Jang, who heads up Hyundai’s autonomous driving center, and IN Venture managing partner Eyal Rosner, are now on Ottopia’s board.

Ottopia has raised a total of $12 million to date, and Rosenzweig has already set his sights on a larger round to help fund the company’s growth.

For now, Rosenzweig is focused on doubling his workforce to 50 people by the end of the year and opening an office in the United States. Rosenzweig said the company is also expanding into other applications of its teleoperations software, including defense, mining and logistics. However, most of Ottopia’s resources will continue to be dedicated to automotive, and specifically the deployment of autonomous cars, trucks and shuttles.

“The motivation is really simple — it’s simple but it’s hard to do — and that’s to make affordable autonomous transportation closer to reality,” Rosenzweig said. “The problem of course is that when an AV does not have any kind of backup or any kind of safety net in the form of teleoperations and it gets stuck, passengers are going to get anxious, ‘what’s going on, why, why is this not moving’.”

The other problem, Rosenzweig noted, is that AVs need to be combined with an efficient transit service. That’s where he sees his newest partner, on-demand shuttle and transit software company Via, coming in.

Under the partnership, which was also announced this week, Via will offer autonomous vehicle fleets that combine its fleet management software with Ottopia’s teleoperations platform. Via is not developing its own self-driving software system. In November 2020, Via announced it had partnered with May Mobility to launch an autonomous vehicle platform that integrates on-demand shared rides, public transportation and transit options for passengers with accessibility needs.

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Tesla owners can now see how much solar or coal is powering their EVs

Tesla owners can now see exactly what kind of energy is powering their electric vehicles. TezLab, a free app that’s like a Fitbit for a Tesla vehicle, pushed out a new feature this week that shows the energy mix — breaking down the exact types and percentages of fossil fuels and renewable energy — coming from charging locations, including Superchargers and third-party networks throughout the United States.

“We’re tracking the origin of data as it relates to energy, so we know if you’re in Tucson or Brooklyn (or any location) where the energy is coming from and what the mix of that energy looks like,” Ben Schippers, the CEO and co-founder of TezLab explained in a recent interview. “As a result, we can see how much carbon is being pushed out into the atmosphere based on your charge, whether you’re charging at home, or whether you’re charging at a Supercharger.”

ElectricityMap, a project from Tomorrow, provided the energy data, which TezLab then folded into its consumer-facing app. Once downloaded, the app knows when and where a Tesla owner is plugging in. The energy mix feature builds off of an existing program on the app that gave owners more general information on how dirty or clean their charge is.

Image Credits: TezLab

Take Tesla’s Linq High Roller Supercharger in Las Vegas, a V3 Supercharger that is supposed to support a peak rate of up to 250 kilowatts and has been heralded for its use of Tesla solar panels and its Powerpack batteries to generate and store the power needed to operate the chargers.

According to TezLab’s data, 1.7% of the energy is from solar. The primary source of renewable energy is actually hydro at 65.6% — courtesy of the Hoover Dam. The remaining energy mix from the Supercharger is about 33% natural gas.

Tesla’s Supercharger in Hawthorne, California, which was one of the first to have solar panels, has an energy mix of 0.2% solar, 5.5% nuclear,13.3% natural gas, 27% coal and 49.9% wind.

The top 10 “cleanest” Superchargers — a list that includes Centralia, Leavenworth, Moses Lake and Seattle, Washington — achieved that goal thanks to hydroelectric power. Superchargers with the most solar energy are all located in the same power grid in California. Superchargers in Barstow, Oxnard, Cabazon, San Diego, Mojave, Inyokern, San Mateo, Seaside and Santa Ana, California all have 22.7% solar and 15% wind energy. The remaining mix at these locations is 0.2% battery storage, 2.9% biomass, 5.6% geothermal, 6.3% hydro, 6.6% nuclear and 40% natural gas.

TezLab was born out of HappyFunCorp, a software engineering shop that builds apps for mobile, web, wearables and Internet of Things devices for clients that include Amazon, Facebook and Twitter, as well as an array of startups. HFC’s engineers, including co-founders Schippers (who is now chairman of the company’s board) and William Schenk, were attracted to Tesla largely because of its software-driven approach. The group was particularly intrigued at the opportunity created by the openness of the Tesla API. The Tesla API is technically private. But the endpoints are accessible to outsiders. When reverse-engineered, it’s possible for a third-party app to communicate directly with the API.

TezLab launched in 2018 with some initial features that let owners track their efficiency, total trip miles and use it to control certain functions of the vehicle, such as locking and unlocking the doors and heating and air conditioning. More features have been added, mostly focused on building community, including one that allows Tesla owners to rate Supercharger stations.

All of that data is aggregated and anonymous. TezLab has said it won’t sell that data. It does post on its website insights gleaned from that data, such as a breakdown of model ownership, the average trip length and average time between plugging in.

As other electric vehicles come to market, TezLab is adding those to the app, including the Ford Mustang Mach-E.

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Grab a group discount and take your team to TC Sessions: Mobility 2021

Mobility mavens, June 9 will be here before you know it, and that means it’s time to get your strategy ducks in a row for TC Sessions: Mobility 2021. You want to make the most of your time at this one-day virtual event featuring interactive presentations with the mobility industry’s top movers, shakers and startup dream makers, amirite?

Take your team to increase your ROI. Right now, you can grab a group discount — at the early-bird price — when you buy a block of four or more tickets to TC Sessions: Mobility. Don’t procrastinate. At $70 per pass, you’ll save a couple hundred bucks — but only if you make your purchase by May 5, at 11:59 pm (PT).

Like the old expression says, if you want to go fast, go alone. If you want to go far, go together. You’ll cover more ground and discover more opportunities with your whole team at your side.

TC Sessions: Mobility 2021 will feature an incredible lineup of speakers, presentations, fireside chats and breakouts all focused on the current and future state of mobility — like EVs, micromobility and smart cities for starters — and the investment trends that influence them all.

Investors like Clara Brenner (Urban Innovation Fund), Quin Garcia (Autotech Ventures) and Rachel Holt (Construct Capital) — all of whom will grace our virtual stage. They’ll have plenty of insight and advice to share, including the challenges that startup founders will face as they break into the transportation arena.

You’ll hear from CEOs like Starship Technologies’ Ahti Heinla. The company’s been busy testing delivery robots in real-world markets. Don’t miss his discussion touching on challenges ranging from technology to red tape and what it might take to make last-mile robotic delivery a mainstream reality.

Taking your team also makes you a highly efficient networking unit. Find ad hoc opportunities in the virtual platform’s chat feature or use CrunchMatch, our AI-powered platform, to zero in on the people best aligned with your business goals. Schedule virtual product demos, pitch investors or recruit new talent.

Here’s what Rachael Wilcox, a creative producer at Volvo Cars, told us about her networking experience at TC Sessions: Mobility 2020:

I didn’t think I’d network on a virtual platform but, it turns out, it’s a lot easier to network with more people. Folks just felt more comfortable reaching out. I had conversations with people I probably wouldn’t have met otherwise, and that was an unexpected benefit.

TC Sessions: Mobility 2021 takes place on June 9, but if you want to take your team — and save 25% in the process — it’s now o’clock. Buy your group discount passes before the early-bird price disappears on May 5 at 11:59 pm (PT). Grab your cohort and go!

Is your company interested in sponsoring or exhibiting at TC Sessions: Mobility 2021? Contact our sponsorship sales team by filling out this form.

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