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President Joe Biden’s plan for electric vehicles (EVs) to comprise roughly half of U.S. sales by 2030 is a clear indication that the U.S. is making strides in decarbonizing its transportation systems, which currently account for nearly half of total U.S. emissions.
Though this kind of federal support is critical in accelerating the mass adoption of EVs, we must face the impending need to rehabilitate the ailing U.S. electric infrastructure that millions currently rely on, namely the capabilities of the power grid.
As society converts to an all-electric future and demand rises for EVs, a challenge our modern world will face is how to charge the increasing number of vehicles without overstressing the grid past its capacity. While some predict EVs will overload the power grid, others have found methods that support our energy infrastructure, including solutions such as wireless charging, vehicle-to-grid (V2G) integration or more efficient methods of utilizing renewable energy sources, to name a few.
Amid warranted concerns about the unstable grid, there is an urgent need to find solutions that can reinforce this critical infrastructure to avoid pushing the grid to its limits.
According to the recent IPCC climate change report, extreme heat waves that previously only struck once every 50 years are now expected to happen once per decade or more frequently due to global warming and anthropogenic emissions. While this has already been seen in this past year through record-breaking heat waves and extreme fires in the Pacific Northwest, utilities, operators and industry experts continue to express concern about whether current energy systems will be able to withstand increasing temperatures from climate change.
And it’s not just heat: In February, a cold snap in Texas crippled energy infrastructure and left millions without power. These numbers will only continue to increase as temperatures rise and the grid overworks itself to meet electricity needs.
In addition to fluctuating temperatures impacting the grid, many are also concerned about its ability to support the increasing number of EVs expected to hit the market in the coming years. With reports indicating that transportation electrification will likely require a doubling of U.S. generation capacity by 2050, there is a need for flexible EV charging options that can increase flexibility and load times during peak charging hours. However, as it currently stands, the U.S. power grid is only capable of supporting 24 million EVs until 2028 一 well under the required number of EVs needed to successfully curb road transport emissions.
Despite these challenges, one thing that industry experts have pointed out is that EVs have the potential to play a massive role in managing demand as well as aid in stabilizing the grid when necessary. However, as EVs are more widely adopted across the U.S., utilities need to ask themselves critical questions such as when people will likely charge their vehicles, how many users are charging their vehicles and when, what types of chargers are in use, and what types of vehicles are charging (such as passenger vehicles or medium- to heavy-duty fleets) to determine the additional demand for electricity and how they must upgrade their grids.
With long lead times for grid infrastructure upgrades paired with an increasing number of individuals and companies looking to electrify their vehicles, municipalities across the U.S. are desperately searching for methods to implement the necessary charging infrastructure to stay ahead of the rising EV tide while simultaneously ensuring the grid’s stability. However, a recent analysis by the ICCT estimates that with the current number of U.S. EV chargers at 216,000, the country will need 2.4 million public and workplace chargers by 2030 if it wants to meet its goals.
To address this concerning lack of charging infrastructure, cities have begun to explore charging options outside of the traditional, stationary station to not only speed up the adoption of the necessary charging infrastructure, but to protect the grid as well. One of these options is dynamic charging, otherwise known as wireless or in-motion charging.
On one hand, some argue wireless electric vehicle charging will pose an additional strain on existing grid infrastructure by increasing demand variability due to fragmented charging duration caused by charging lane layouts and traffic. On the other hand, many argue that wireless charging actually decreases the demand on the power grid due to the fact that energy demand is spread over time and space throughout the day, rather than being confined to stationary chargers’ charging period between 2 p.m. and 7 p.m., which enables a reduction in required grid connections and upgrades.
Additionally, wireless charging can be deployed in locations where conductive (plug-in) charging solutions cannot — such as roads, directly under commercial facility loading docks, at exit and entry points to facilities, under taxi queues, at bus stations and terminals, etc., which means that wireless technology can charge EVs at regular intervals throughout the day with “top-up” charging.
This method also enables more efficient utilization of renewable solar energy, produced and utilized predominantly during daylight hours, meaning limited additional energy storage devices are required, unlike conductive EV charging stations, which can typically only be used in the evening and nighttime hours and require energy storage.
These benefits indicate that cities and utilities alike can capitalize on efficient energy utilization strategies such as wireless charging to spread energy demand over time and space — adding additional flexibility and protection to the grid. While this method can and should be applied to passenger EVs, using it to power medium- to heavy-duty fleet vehicles will allow for a much faster transition to electric in these challenging-to-electrify fleet segments.
While passenger EVs pose challenges of their own to the grid, large-scale fleet charging will be a monumental task if utilities don’t get ahead of the transition. Wireless charging offers a cost-effective solution to operators looking to transition to meet carbon reduction goals, with projected numbers of electric commercial and passenger fleets making up 10%-15% of all fleet vehicles by 2030. Let’s take a closer look at an example comparison between plugging in large vehicles versus wireless charging and the impact both have on the grid:
Wireless electric roads accompanied by solar panel fences adjacent to the road may be the ultimate solution for decentralizing power generation and eliminating stress on the grid. According to industry calculations, approximately 0.6 miles of this electric fence solution could provide between 1.3-3.3 MW of power. This combination of solar generation coupled with wireless charging infrastructure embedded into the road can support anywhere between 1,300 to 3,300 buses per day independent of power grid supply (assuming an average speed of 50 mph and accounting for seasonal variations in solar radiation).
Furthermore, because wireless electric roads are a shared platform for all EVs, this same road would also charge trucks, vans and passenger vehicles without placing additional pressures on the grid.
Although wireless charging is still relatively new to the market, the benefits are beginning to become glaringly self-evident. Amid increasing concerns about outdated grid infrastructure in the face of widespread transport electrification efforts, rising temperatures and extreme weather conditions, innovative charging methods can provide an optimal solution.
From distributing EV charging throughout the day to avoid overloads to being able to support the energy capacity needs of both passenger vehicles and large fleets simultaneously, technologies such as wireless charging will become critical resources in adapting to an all-electric decarbonized future.
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Thousands of electric vehicle charging stations will be built around the country over the next decade. ChargerHelp!, founded in January 2020 by Kameale C. Terry and Evette Ellis, wants to make sure they stay up and running.
The idea for the on-demand repair app for EV charging stations came to Terry when she was working at EV Connect, where she held a number of roles including director of programs and head of customer experience. She noticed long wait times to fix non-electrical issues at charging stations due to the industry practice to use electrical contractors.
“When the stations went down we really couldn’t get anyone on site because most of the issues were communication issues, vandalism, firmware updates or swapping out a part — all things that were not electrical,” Terry said in an interview with TechCrunch earlier this year.
After Terry quit her job to start ChargerHelp!, she joined the Los Angeles Cleantech Incubator, where she developed a first-of-its-kind EV Network Technician Training Curriculum. Shortly after, Terry and Ellis were accepted into Elemental Excelerator’s startup incubator and have landed contracts with major EV charging network providers like EV Connect and SparkCharge.
The company uses a workforce-development approach to hiring, meaning that they only hire in cohorts. Workers receive full training, earn two safety licenses, are guaranteed a wage of $30 an hour and receive shares in the startup, Terry said.
We’re excited to announce that Kameale Terry will be joining us at TC Sessions: Mobility 2021, a one-day virtual event that is scheduled June 9. We’ll be covering a lot of ground with Terry, from how she developed her EV repair curriculum to what she sees in the company’s future.
Each year TechCrunch brings together founders, investors, CEOs and engineers who are working on all things transportation and mobility. If it moves people and packages from Point A to Point B, we cover it. This year’s agenda is filled with leaders in the mobility space who are shaping the future of transportation, from EV charging to autonomous vehicles to urban air taxis.
Among the growing list of speakers are Rimac Automobili founder Mate Rimac, Revel Transit CEO Frank Reig, community organizer, transportation consultant and lawyer Tamika L. Butler and Remix/Via co-founder and CEO Tiffany Chu, who will come together to discuss how (and if) urban mobility can increase equity while still remaining a viable business.
Other guests include Motional’s President and CEO Karl Iagnemma, Aurora co-founder and CEO Chris Urmson, GM‘s VP of Global Innovation Pam Fletcher, Scale AI CEO Alexandr Wang, Joby Aviation founder and CEO JoeBen Bevirt, investor and LinkedIn founder Reid Hoffman (whose special purpose acquisition company just merged with Joby), investors Clara Brenner of Urban Innovation Fund, Quin Garcia of Autotech Ventures and Rachel Holt of Construct Capital, Zoox co-founder and CTO Jesse Levinson.
We also recently announced a panel dedicated to China’s robotaxi industry, featuring three female leaders from Chinese AV startups: AutoX’s COO Jewel Li, Huan Sun, general manager of Momenta Europe with Momenta, and WeRide’s VP of Finance Jennifer Li.
Don’t wait to book your tickets to TC Sessions: Mobility as prices go up at the door. Grab your passes right now and hear from today’s biggest mobility leaders.
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Volkswagen AG is gearing up to seize the top spot as the world’s largest electric vehicle manufacturer with plans announced Monday to have six 40 gigawatt hour (GWh) battery cell production plants in operation in Europe by 2030.
To get there, the automaker put in a 10-year, $14 billion order with Swedish battery manufacturer Northvolt — and that’s only one of the six planned factories. A second plant in Germany will commence production in 2025.
The company also announced serious investments in charging infrastructure across China, Europe and the United States. It aims to grow its fast-charging network in Europe to 18,000 stations with its partner IONITY, 17,000 charging points in China through its joint venture CAMS New Energy Technology, and to increase the number of fast-charging stations in the United States by 3,500.
The company called their first dedicated battery event “Power Day” in a clear nod to Tesla’s Battery Day. During the event, executives detailed novel battery chemistries that they said will reduce costs by up to 50%. The unified prismatic cell design, which the company dubbed the Unified Premium Battery, will be rolled out in 2023 and will be used across 80% of its EV models. The Audi Artemis, a luxury sedan, will be the first vehicle to be equipped with the unified battery, will be rolled out in 2024.
Volkswagen’s ultimate goal is to develop and deploy a solid-state battery cell, which the company anticipates for the middle of the decade. VW has made significant investments in solid-state battery manufacturer QuantumScape. Volkswagen’s head of battery cell and system Frank Blome called solid-state “the end-game” for lithium-ion battery cells. Shedding the additional weight of a traditional battery, solid-state batteries boast a 30% increase in range and a significantly faster charging time.
Scania AB, VW’s brand of heavy-duty trucks and buses, also has plans to increase its share of EVs. Departing from other major heavy-duty players that have opted for hydrogen fuel cells, company representatives on Monday said that it is unequivocally possible to electrify the heavy-duty transportation sector.
Looking to the battery’s end-of-life, VW said it will be able to recycle up to 95% of the battery through a process called hydrometallury.
This story has been updated with additional information.
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A little over 13 years ago, Shai Agassi, a promising software executive who was in line to succeed the chief executive at SAP, then one of the world’s mightiest software companies, left the company he’d devoted the bulk of his professional career to and started a business called Better Place.
That startup promised to revolutionize the nascent electric vehicle market and make range anxiety a thing of the past. The company’s pitch? A network of automated battery swapping stations that would replace spent batteries with freshly charged ones.
Agassi’s company would go on to raise nearly $1 billion (back when that was considered a large sum of money) from some of the world’s top venture capital and growth equity firms. By 2013 it would be bankrupt and one of the many casualties of the first wave of cleantech investing.
Now serial entrepreneurs John de Souza and Khaled Hassounah are reviving the battery swapping business model with a startup called Ample and an approach that they say solves some of the problems that Better Place could never address at a time when the adoption of electric vehicles is creating a far larger addressable market.
In 2013, there were 220,000 electric vehicles on roads, according to data from Statista, a number which had grown to 4.8 million by 2019.
Ample has actually raised approximately $70 million from investors, including Shell Ventures, the Spanish energy company Repsol and the Moore Strategic Ventures, a venture firm that is the privately held investment firm of Louis M. Bacon, founder of the multibillion-dollar hedge fund, Moore Capital Management. That includes a $34 million investment first reported back in 2018, and a later round from investors including Japan’s energy and metals company, Eneos Holdings that closed recently.
“We had a lot of people that either said, I somehow was involved in that and was suffering from PTSD,” said de Souza, of the similarities between his business and Better Place. “The people who weren’t involved read up about it and then ran away.”
For Ample, the difference is in the modularization of the battery pack and how that changes the relationship with the automakers that would use the technology.
“The approach we’ve taken… is to modularize the battery and then we have an adapter plate that is the structural element of the battery that has the same shape of the battery, same bolt pattern and same software interface. Even though we provide the same battery system… it’s the same as replacing the tire,” said Hassounah, Ample’s co-founder and chief executive. “Effectively we’re giving them the plate. We don’t modify the car whatsoever. You either put a fixed battery system or an Ample battery plate. We’re able to work with the OEMS where you can make the battery swappable for the use cases where this makes a lot of sense. Without really changing the same vehicle.”
Ample’s currently working with five different OEMs and has validated its approach to battery swapping with nine different car models. One of those OEMs also brings back memories of Better Place.
It’s clear that the company has a deal with Nissan for the Leaf thanks to the other partnership that Ample has announced with Uber. Ample’s founders declined to comment on any OEM relationships.
It’s clear that Ample is working with Nissan because Nissan is the company that inked a deal with Uber earlier this year on zero-emission mobility. And Uber is the first company to use Ample’s robotic charging stations at a few locations in the Bay Area, the company said. This work with Nissan echoes Better Place’s one partnership with Renault, another arm of the automaker, which proved to be the biggest deal for the older, doomed, battery swapping startup.
Ample says it only takes weeks to set up one of its charging pods at a facility and that the company’s charging drivers on energy delivered per mile. “We achieve economics that are 10% to 20% cheaper than gas. We are profitable on day one,” said Hassounah.
Uber is the first step. Ample is focused on fleets first and is in talks with multiple, undisclosed municipalities to get their cars added to the system. So far, Ample has done thousands of swaps, according to Hassounah, with just Uber drivers alone.
The cars can also be charged at traditional charging facilities, Hassounah said, and the company’s billing system knows the split between the amount of energy it delivers versus another charging outlet, Hassounah said.
“So far, in the use cases that we have, for ridesharing it’s individual drivers who pay,” said de Souza. With the five fleets that Ample expects to deploy with later this year the company expects to have the fleet managers and owners pay for charging.
Some of the inspiration for Ample came from Hassounah’s earlier experience working at One Laptop per Child, where he was forced to rethink assumptions about how the laptops would be used, the founder said.
“Initially I worked on the keyboard display and then quickly realized the challenge was in the field and developed a framework for creating infrastructure,” Hassounah said.
The problem was the initial design of the system did not take into account lack of access to power for laptops at children’s homes. So the initiative developed a charging unit for swapping batteries. Children would use their laptops over the course of the day and take them home, and when they needed a fresh charge, they would swap out the batteries.
“There are fleets that need this exact solution,” said de Souza. But there are advantages for individual car owners as well, he said. “The experience for the owner of a vehicle is after time the battery degrades. With ours as we put new batteries in the car can go further and further over time.”
Right now, OEMs are sending cars without batteries and Ample is just installing their charging system, said Hassounah, but as the number of vehicles using the system rises above 1,000, the company expects to send their plates to manufacturers, who can then have Ample install their own packs.
Currently, Ample only supports level one and level two charging, but won’t offer fast charging options for the car makers it works with — likely because that option would cannibalize the company’s business and potentially obviate the need for its swapping technology.
At issue is the time it takes to charge a car. Fast chargers still take between 20 and 30 minutes to charge up, but advances in technologies should drive that figure down. Even if fast charging ultimately becomes a better option, Ample’s founders say they view their business as an additive step to faster electric vehicle adoption.
“When you’re moving 1 billion cars, you need everything… We have so many cars we need to put on the road,” Hassounah said. “We think we need all solutions to solve the problem. As you think of fleet applications you need a solution that can match gas in charge and not speed. Fast charging is not available in mass. The challenge will not be can the battery be charged in five minutes. The cost of building chargers that can deliver that amount of power is prohibitive.”
Looking beyond charging, Ample sees opportunities in the grid power market as well, the two founders said.
“Time shift is built into our economics… that’s another way we can help,” said de Souza. “We use that as grid storage… we can do demand charge and now that the federal mandate is there to feed into the grid we can help stabilize the grid by feeding back energy. We don’t have a lot of stations to make a significant impact. As we scale up this year we will.”
Currently the company is operating at a storage capacity of tens of megawatts per hour, according to Hassounah.
“We can use the side storage to accelerate the development of swapping stations,” de Souza said. “You don’t have to invest an insane amount of money to put them in. We can finance the batteries in multiple ways as well as utilize other sources of financing.”
Ample co-founders John de Souza and Khaled Hassounah. Image Credit: Ample
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, legal, PR, marketing and brand building. Each session also has audience participation built-in — there’s ample time included in each for audience questions and discussion.
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Shell’s plan to roll out 500,000 electric charging stations in just four years is the latest sign of an EV charging infrastructure boom that has prompted investors to pour cash into the industry and inspired a few companies to become public companies in search of the capital needed to meet demand.
Since the beginning of the year, three companies have been acquired by special purpose acquisition vehicles and are on a path to go public, while a third has raised tens of millions from some of the biggest names in private equity investing for its own path to commercial viability.
The SPAC attack began in September when an electric vehicle charging network ChargePoint struck a deal to merge with special purpose acquisition company Switchback Energy Acquisition Corporation, with a market valuation of $2.4 billion. The company’s public listing will debut February 16 on the New York Stock Exchange.
In January, EVgo, an owner and operator of electric vehicle charging infrastructure, agreed to merge with the SPAC Climate Change Crisis Real Impact I Acquisition for a valuation of $2.6 billion — a huge win for the company’s privately held owner, the power development and investment company LS Power. LS Power and EVgo management, which today own 100% of the company, will be rolling all of its equity into the transaction. Once the transaction closes in the second quarter, LS Power and EVgo will hold a 74% stake in the newly combined company.
One more deal soon followed. Volta Industries agreed to merge this month with Tortoise Acquisition II, a tie-up that would give the charging company named after battery inventor Alessandro Volta a $1.4 billion valuation. The deal sent shares of the SPAC company, trading under the ticker SNPR, rocketing up 31.9% in trading earlier this week to $17.01. The stock is currently trading around $15 per share.
Not to be outdone, private equity firms are also getting into the game. Riverstone Holdings, one of the biggest names in private equity energy investment, placed its own bet on the charging space with an investment in FreeWire. That company raised $50 million in a new round of funding earlier this year.
“The writing is on the wall and the investors have to take the time. There’s been a flight out of the traditional investment opportunities in markets,” said FreeWire chief executive Arcady Sosinov, in an interview. “There’s been a flight out of the oil and gas companies and out of the traditional utilities. You have to look at other opportunities… This is going to be the largest growth opportunity of the next 10 years.”
FreeWire deploys its infrastructure with BP currently, but the company’s charging technology can be rolled out to fast food companies, post offices, grocery stores or anywhere people go and spend somewhere between 20 minutes and an hour. With the Biden administration’s plan to boost EV adoption in federal fleets, post offices actually represent another big opportunity for charging networks, Sosinov said.
“One of the reasons we find electrification of mobility so attractive is because it’s not if or how, it’s when,” said Robert Tichio, a partner at Riverstone in charge of the firm’s ESG efforts. “Penetration rates are incredibly low… compare that to Norway or Northern Europe. They have already achieved double-digit percentages.”
A recent Super Bowl commercial from GM featuring Will Farrell showed just how far ahead Norway is when it comes to electric vehicle adoption.
“The demands on capital in the electrification of transport will begin to approach three quarters of a trillion annually,” Tichio said. “The short answer to your question is that the needs for capital now that we have collectively, politically, socially economically come to a consensus in terms of where we’re going and we couldn’t say that 18 months ago is going to be at a tipping point.”
Shell already has electric vehicle charging infrastructure that it has deployed in some markets. Back in 2019 the company acquired the Los Angeles-based company Greenlots, an EV charging developer. And earlier this year Shell made another move into electric vehicle charging with the acquisition of Ubitricity in the U.K.
“As our customers’ needs evolve, we will increasingly offer a range of alternative energy sources, supported by digital technologies, to give people choice and the flexibility, wherever they need to go and whatever they drive,” said Mark Gainsborough, executive vice president, New Energies for Shell, in a statement at the time of the Greenlots acquisition. “This latest investment in meeting the low-carbon energy needs of US drivers today is part of our wider efforts to make a better tomorrow. It is a step towards making EV charging more accessible and more attractive to utilities, businesses and communities.”
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California Governor Gavin Newsom issued an executive order on Wednesday requiring sales of all new passenger vehicles be zero-emission by 2035.
The new order would be a huge boost for electric vehicles, and vehicles using alternative fuels like hydrogen, and could boost a sector that’s already surging in California.
As an announcement from the California governor’s office indicates, the transportation sector is responsible for more than half of all of California’s carbon pollution, 80% of smog-forming pollution and 95% of toxic diesel emissions.
“This is the most impactful step our state can take to fight climate change,” said Governor Newsom, in a statement. “For too many decades, we have allowed cars to pollute the air that our children and families breathe. Californians shouldn’t have to worry if our cars are giving our kids asthma. Our cars shouldn’t make wildfires worse – and create more days filled with smoky air. Cars shouldn’t melt glaciers or raise sea levels threatening our cherished beaches and coastlines.”
After the order, the California Air Resource Board will develop regulations that will mandate 100% of sales of passenger cars and trucks are zero-emission by 2035.
Setting the 2035 target would achieve reductions in greenhouse gases above 35% and an 80% improvement in oxides of nitrogen emissions from cars.
The board will also develop regulations that require operations of medium and heavy-duty vehicles to be fully zero-emission by 2045, where feasible.
Under the order, state agencies in partnership with the private sector will be required to accelerate deployment of affordable fueling and charging options. The order also requires broad accessibility to zero-emission vehicles, according to a statement.
What it won’t require is for Californians who own gasoline-powered cars to give them up or deny car owners the ability to sell their gas-powered cars in the used car market.
With the initiative, California is joining 15 countries that have already committed to phasing out gas-powered cars, according to a statement.
Built into the order is an assumption that zero-emission vehicles will be cheaper and better than fossil fuel-powered cars, but there are significant hurdles — and opportunities before the market gets there.
There’s going to need to be a massive buildout of charging stations and fueling stations for electric and hydrogen powered vehicles. New charging technologies will need to be put in place to enable faster charging, and new financing models will need to be put in place to ensure the kind of accessibility the California government is requiring.
All of these opportunities should have startups champing at the bit, and several companies, like the new electric vehicle manufacturers launching to compete with Tesla, the new charging technology developers and others, will have Newsom to thank for the sudden boost in their valuations.
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Ford has revealed the official name of its forthcoming EV SUV, which has a Mustang lineage and will be officially revealed on November 17 in LA. The new vehicle is called the Mustang Mach-E, and following its official unveiling (hosted by Idris Elba, by the way), you’ll be able to actually sign up online and reserve one by putting down a $500 deposit.
The reservation system will include access to a limited “First Edition” set of cars, about which Ford says it will provide details during the launch event. The deposit is also fully refundable, in case you get cold feet, and people who put down deposits will later get the opportunity to actually configure their vehicle prior to delivery. During the reservation process, you also select your preferred Ford dealer, presumably for eventually picking up the car.
Ford’s teases of the vehicle so far suggest a crossover-style electric SUV, and Ford has put up some collateral material on the web with a few additional clues about what it will offer, including a targeted EPA range rating of “at least” 300 miles, and a charging rate of around 47 miles in just 10 minutes with a 150kW DC fast charger, with two years of free charging across Ford’s EV charger network included.
Below, you can see all the hints and glimpses of the car we’ve gotten from Ford so far, and you can probably fill in the gaps via imagination and reference to the existing Ford Mustang, but November 17 will finally reveal all, and we’ll definitely have coverage here on TC to satisfy your curiosity.
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Since the launch of its first electric scooter in 2015, Gogoro co-founder and CEO Horace Luke has frequently been asked when the startup is going to expand beyond Taiwan. In its home country, Gogoro’s two-wheel vehicles, with their distinctive swappable battery system, are now the top-selling electric scooters.
But Luke says the company has always seen itself as a platform company, with the ultimate goal of providing a turnkey solution for energy-efficient vehicles. Now with the launch of GoShare*, its new vehicle-sharing platform, and partnerships with manufacturers such as Yamaha, Gogoro is ready to go global.
Founded by Luke, HTC’s former chief innovation officer, and chief technology officer Matt Taylor in 2011, Gogoro develops most of its technology in-house, including scooter motors, telematics units, backend servers and software. GoShare’s pilot program will launch next month in Taoyuan City, where Gogoro’s research and development center is located, with the goal of expanding with partners into cities around the world over the next year, starting in Europe, Australia and Southeast Asia.
“Gogoro has always been out with a thesis that we will be a platform enabler,” Luke told Extra Crunch during an interview in the company’s Taipei City headquarters. “Now you’ve seen the transformation of the company. Doing something this big, like what Gogoro is doing, takes time.”
Since the release of Gogoro’s first Smartscooter in 2015, the company says it has become the best-selling brand of electric two-wheel vehicles in Taiwan, holding a 17 percent share of the country’s vehicle market, including gas vehicles.
Last year, the company began licensing its technology to manufacturers Yamaha, Aeon and PGO to produce scooters that run on Gogoro’s batteries and charging infrastructure. It also has a partnership with Coup, the European electric-scooter sharing startup that plans to increase its fleet to more than 5,000 scooters on the streets of Paris, Berlin, Madrid and Tübingen this year, and is seeking similar deals with other vehicle-sharing services, as well as local governments that want to reduce traffic and pollution (the GoShare pilot program is being launched in collaboration with Taoyuan City’s government).
GoShare’s platform is meant to be a “very robust and cost-effective, very worry-free solution for municipalities and entrepreneurs,” Luke says. Parts of the system can be licensed separately or packaged as a turnkey solution that can be deployed in as little as two weeks.
The company describes GoShare as a “mobility solution.” When asked if this means the platform can be used for other electric vehicles, including cars, Luke says “just think of us as batteries and a motor.”
“It’s just like computers and processing ram,” he adds. “It can be any form factor. It just happens to be that the two-wheel form factor is the one we’re working on and focusing on at the moment.”
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Electric cars are better for the environment than fossil fuel-burning vehicles, but they still rely on the grid, which can be variously dirty or clean depending on what sources it uses for its energy. The new Lightyear One is a prototype vehicle that would improve that by collecting the power it needs to run from the sun.
Lightyear, a startup from the Netherlands born as Stella, has come a long way since it won a Crunchie award in 2015, with a vehicle that now looks ready for the road. The Lightyear One prototype vehicle unveiled today has a sleek, driver-friendly design and also boasts a range of 450 miles on a single charge – definitely a first for a car powered by solar and intended for the actual consumer market.
© Twycer / www.twycer.nl
The startup says that it has already sold “over a hundred vehicles” even though this isn’t yet ready to hit the road, but Lightyear is aiming to begin production by 2021, with reservations available for 500 additional units for the initial release. You do have to pay €119,000 up front (around $136,000 USD) to secure a reservation, however.
Lightyear One isn’t just a plug-in electric with some solar sells on the roof: Instead it’s designed from the ground up to maximize performance from a smaller-than-typical battery that can directly grab sun from a roof and hood covered with 16 square feet of solar cells, embedded in safety glass designed with passenger wellbeing in mind. The car can also take power directly from regular outlets and existing charging stations for a quick top-up, and again because it’s optimized to be lightweight and power efficient, you can actually get around 250 miles on just one night of charging from a standard (European) 230V outlet.
The car should supplement existing electric cars for buyers who are more conscious of range anxiety and nervous about having enough charge, the company says. It still have to actually enter production, however, and even when it does it’ll be a fairly expensive and small batch product, at least at first. But it’s an impressive feat nonetheless, and a potential new direction for EVs of the future.
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Electric-vehicle chargers, heads-up displays for soldiers and the Costco of weed were some of our favorites from prestigious startup accelerator Y Combinator’s Winter 2019 Demo Day 1. If you want to take the pulse of Silicon Valley, YC is the place to be. But with more than 200 startups presenting across two stages and two days, it’s tough to keep track.
You can check out our write-ups of all 85 startups that launched on Demo Day 1, and come back later for our full index and picks from Day 2. But now, based on feedback from top investors and TechCrunch’s team, here’s our selection of the top 10 companies from the first half of this Y Combinator batch, and why we picked each.
Looking around corners is one of the most dangerous parts of war for infantry. Ravn builds heads-up displays that let soldiers and law enforcement see around corners thanks to cameras on their gun, drones or elsewhere. The ability to see the enemy while still being behind cover saves lives, and Ravn already has $490,000 in Navy and Air Force contracts. With a CEO who was a Navy Seal who went on to study computer science, plus experts in augmented reality and selling hardware to the Department of Defense, Ravn could deliver the inevitable future of soldier heads-up displays.
Why we picked Ravn: The AR battlefield is inevitable, but right now Microsoft’s HoloLens team is focused on providing mid-fight information, like how many bullets a soldier has in their clip and where their squad mates are. Ravn’s tech was built by a guy who watched the tragic consequences of getting into those shootouts. He wants to help soldiers avoid or win these battles before they get dangerous, and his team includes an expert in selling hardened tech to the U.S. government.

It’s difficult to know if a business’ partners have paid their taxes, filed for bankruptcy or are involved in lawsuits. That leads businesses to write off $120 billion a year in uncollectable bad debt. Middesk does due diligence to sort out good businesses from the bad to provide assurance for B2B deals, loans, investments, acquisitions and more. By giving clients the confidence that they’ll be paid, Middesk could insert itself into a wide array of transactions.
Why we picked Middesk: It’s building the trust layer for the business world that could weave its way into practically every deal. More data means making fewer stupid decisions, and Middesk could put an end to putting faith in questionable partners.

Convictional helps direct-to-consumer companies approach larger retailers more simply. It takes a lot of time for a supplier to build a relationship with a retailer and start selling their products. Convictional wants to speed things up by building a B2B self-service commerce platform that allows retailers to easily approach brands and make orders.
Why we picked Convictional: There’s been an explosion of D2C businesses selling everything from suitcases to shaving kits. But to drive exposure and scale, they need retail partners who’re eager not to be cut out of this growing commerce segment. Playing middleman could put Convictional in a lucrative position, while also making it a nexus of valuable shopping data.

Dyneti has invented a credit card scanner SDK that uses a smartphone’s camera to help prevent fraud by more than 50 percent and improve conversion for businesses by 5 percent. The business was started by a pair of former Uber employees, including CEO Julia Zheng, who launched the fraud analytics teams for Account Security and UberEATS. Dyneti’s service is powered by deep learning and works on any card format. In the two months since it launched, the company has signed contracts with Rappi, Gametime and others.
Why we picked Dyneti: Cybersecurity threats are growing and evolving, yet underequipped businesses are eager to do more business online. Dyneti is one of those fundamental B2B businesses that feels like Stripe — capable of bringing simplicity and trust to a complex problem so companies can focus on their product.

The “Airbnb for electric-vehicle chargers,” ampUp is preparing for a world in which the majority of us drive EVs — it operates a mobile app that connects a network of thousands of EV chargers and drivers. Using the app, an electric-vehicle owner can quickly identify an available and compatible charger, and EV charger owners can earn cash sharing their charger at their own price and their own schedule. The service is currently live in the Bay Area.
Why we picked ampUp: Electric vehicles are inevitable, but reliable charging is one of the leading fears dissuading people from buying. Rather than build out some massive owned network of chargers that will never match the distributed gas station network, ampUp could put an EV charger anywhere there’s someone looking to make a few bucks.

Flockjay operates an online sales academy that teaches job seekers from underrepresented backgrounds the skills and training they need to pursue a career in tech sales. The 12-week bootcamp offers trainees coaching and mentorship. The company has launched its debut cohort with 17 students, 100 percent of whom are already in job interviews and 40 percent of whom have already secured new careers in the tech industry.
Why we picked Flockjay: Unlike coding bootcamps that can require intense prerequisites, killer salespeople can be molded from anyone with hustle. Those from underrepresented backgrounds already know how to expertly sell themselves to attain opportunities others take for granted. Flockjay could provide economic mobility at a crucial juncture when job security is shaky.

Twenty million international contractors work with U.S. companies, but it’s difficult to onboard and train them. Deel handles the contracts, payments and taxes in one interface to eliminate paperwork and wasted time. Deel charges businesses $10 per contractor per month and a 1 percent fee on payouts, which earns it an average of $560 per contractor per year.
Why we picked Deel: The destigmatization of remote work is opening new recruiting opportunities abroad for U.S. businesses. But unless teams can properly integrate these distant staffers, the cost savings of hiring overseas are negated. As the globalization megatrend continues, businesses will need better HR tools.

There has been a pretty major trend toward services that make it easier to build web pages or mobile apps. Glide lets customers easily create well-designed mobile apps from Google Sheets pages. This not only makes it easy to build the pages, but simplifies the skills needed to keep information updated on the site.
Why we picked Glide: While desktop website makers is a brutally competitive market, it’s still not easy to make a mobile site if you’re not a coder. Rather than starting from a visual layout tool with which many people would still be unfamiliar, Glide starts with a spreadsheet that almost everyone has used. And as the web begins to feel less personal with all the brands and influencers, Glide could help people make bespoke apps that put intimacy and personality first.

The platform, co-founded by former Uber product manager Minh Tri Pham, turns documents into structured data a computer can understand to accurately automate document processing workflows and take away the need for human data entry. Docucharm’s API can understand various forms of documents (like paystubs, for example) and will extract the necessary information without error. Its customers include tax prep company Tributi and lending business Aspire.
Why we picked Docucharm: Paying high-priced, high-skilled workers to do data entry is a huge waste. And optical character recognition like Docucharm’s will unlock new types of businesses based on data extraction. This startup could be the AI layer underneath it all.

Flower Co provides memberships for cheaper weed sales and delivery. Most dispensaries cater to high-end customers and newbies that want expensive products and tons of hand-holding. In contrast, Flower Co caters to long-time marijuana enthusiasts who want huge quantities at low prices. They’re currently selling $200.000 in marijuana per month to 700 members. They charge $100 a year for membership, and take 10 percent on product sales.
Why we picked Flower Co: Marijuana is the next gold rush, a once-in-a-generation land-grab opportunity. Yet most marijuana merchants have focused on hyper-discerning high-end customers despite the long-standing popularity of smoking big blunts of cheap weed with a bunch of friends. For those who want to make cannabis consumption a lifestyle, and there will be plenty, Flower Co could become their wholesaler.

Atomic Alchemy – Filling the shortage of nuclear medicine
Yourchoice – Omni-gender non-hormonal birth control
Prometheus – Turning CO2 into gas
Lumos – Medical search engine for doctors
Heart Aerospace – Regional electric planes
Boundary Layer Technologies – Super-fast container ships
Additional reporting by Kate Clark, Greg Kumparak and Lucas Matney
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