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Joby Aviation Inc. (NYSE: JOBY) is closing in on its dream of launching electric air taxis. The California-based company has spent years building its all-electric, vertical take-off and landing (eVTOL) aircraft, designed for fast, quiet, and convenient city travel.

Air Taxis: The Future of Fast, Clean, and Congestion-Free Urban Travel

Air taxis are small electric or hybrid aircraft that take off and land vertically, ideal for short city hops, airport transfers, and reaching remote areas. Target users include executives, business travelers, and emergency services. Countries like the U.S., Germany, and the UAE are investing heavily in supporting infrastructure.

A report highlighted that the global air taxi market, valued at USD 1.32 billion in 2024, is projected to hit USD 7.74 billion by 2033 at a 21.72% CAGR, driven by eVTOL technology, urban mobility demand, and congestion-free travel needs.

air taxi JOby
Source: Renub Research

Growth is fueled by advances in batteries, lightweight materials, and electric propulsion, making aircraft cleaner and more efficient, plus worsening city traffic that air taxis can bypass—cutting multi-hour trips to just 15–20 minutes.

This August, Joby made a series of bold moves that pushed it closer to commercial operations, from a high-profile acquisition and defense partnership to major FAA progress and manufacturing growth. Investors noticed, sending the stock near record highs.

Blade Deal Unlocks Instant Market Access and Growth

One of the month’s biggest headlines came on August 4, when Joby announced plans to acquire Blade Air Mobility’s passenger business for up to $125 million in cash or stock.

The deal is a game-changer. Blade brings premium infrastructure, including dedicated terminals at major New York airports and a strong presence in Southern Europe. More importantly, it comes with a loyal customer base — more than 50,000 passengers flew Blade in 2024.

By absorbing Blade’s passenger operations, Joby gains instant market access without the time and expense of building from scratch. The acquisition is expected to slash infrastructure costs, speed up customer acquisition, and put Joby ahead of competitors in key urban corridors.

The transaction is set to close in the coming weeks, pending customary approvals. Once complete, Blade’s passenger services will continue under Joby’s ownership, setting the stage for a smooth integration.

Defense Partnership Opens a New Revenue Stream

Joby revealed another major move, a collaboration with defense contractor L3Harris.

The partnership will develop a gas turbine hybrid variant of Joby’s existing eVTOL aircraft for low-altitude defense missions. The design aims to combine Joby’s manufacturing expertise with L3Harris’ deep defense technology capabilities.

Flight testing is set to begin this fall, with operational demonstrations planned during government exercises in 2026.

This venture signals Joby’s ambition to be more than just a commercial passenger service. By stepping into the defense sector, Joby diversifies its revenue streams and showcases its aircraft’s versatility for both civilian and military use.

FAA Certification Moves Into Final Stages

On August 6, Joby shared a crucial regulatory update. It has started final assembly of its first FAA-approved electric air taxi, a major step toward Type Inspection Authorization (TIA) flight testing. This stage needs FAA-approved test plans, a certified design, and proven manufacturing — all of which Joby has achieved, with over 50% of its test plans already accepted.

The aircraft, developed over years of testing, will fly with Joby pilots in 2025, followed by FAA pilots. Structural and systems tests have confirmed its strength and readiness.

Joby’s in-house design and manufacturing have boosted development and improved quality. With new facilities in California and Ohio, backed by Toyota, the company will soon be able to build up to 24 aircraft a year.

Cash-Rich and Backed by Toyota, Joby Eyes Massive Growth Ahead

  • Joby’s balance sheet is strong, ending Q2 2025 with $991 million in cash, cash equivalents, and marketable securities.

The company also closed the first $250 million tranche of a $500 million strategic investment from Toyota, one of Joby’s largest and most influential partners.

For 2025, Joby expects to use between $500 million and $540 million in cash, excluding the Blade acquisition. Revenue remains small, just $59,600 expected for Q2, but growth projections are huge, with a forecasted 900% year-on-year increase from a low base.

JoeBen Bevirt, founder and CEO of Joby, said,

“This is a pivotal moment. Regulatory progress around the world is unlocking market access, our commercialization strategy is taking hold, and we’re now focused on scaling production to meet real demand—a challenge we’re fully committed to and working hard to deliver on.” 

JOBY Stock Surge Reflects Growing Investor Confidence

Joby’s recent string of announcements sent its stock soaring. In the past month alone, shares have jumped more than 70% due to heavy trading. Year-to-date, the stock has risen 142%, surpassing its market capitalization of $14 billion.

However, volatility remains. Analyst price target changes and insider sales have caused swings, but the long-term outlook hinges more on regulatory milestones than short-term earnings.

JOBY
Source: Yahoo Finance

Manufacturing Expansion Doubles Output

To meet growing demand, Joby expanded its Marina, California, manufacturing facility to 435,000 square feet. This upgrade will double production capacity to 24 aircraft per year.

Meanwhile, its newly renovated Dayton, Ohio, site is ramping up to produce and test key aircraft components. Over time, Dayton could scale to build up to 500 aircraft annually, making it a cornerstone of Joby’s manufacturing strategy.

International Partnerships Boost Global Reach

Joby is not just looking at U.S. cities. The company also announced an expanded partnership with ANA Holdings in Japan.

The two companies plan to deploy over 100 Joby air taxis starting in Tokyo, creating an urban air mobility ecosystem complete with dedicated vertiports and operational support. The partnership will leverage Toyota’s network and government cooperation to fast-track development.

Joby also signed new agreements with Abdul Latif Jameel and ANA to explore deploying approximately 300 aircraft in other markets.

What’s Next for Joby Aviation?

With the Blade acquisition, defense partnership, FAA certification progress, and global expansion, Joby is executing on multiple fronts at once.

The next 12 months will be critical. If Joby completes certification on schedule, ramps production, and integrates Blade’s passenger network, it could be one of the first eVTOL companies to operate at scale.

For now, investors are betting big that Joby’s head start, strategic partnerships, and strong balance sheet will translate into a dominant position in the fast-emerging air taxi market.

Joby Aviation isn’t just inching toward launch; it’s accelerating. From New York to Dubai to Tokyo, the pieces are falling into place for a global eVTOL network. If all goes according to plan, 2026 could be the year flying taxis move from concept to reality.

The post JOBY Aviation Stock Soars on Blade Acquisition and Electric Air Taxi Commercial Launch Plans appeared first on Carbon Credits.

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McKibben opts for a small-tent climate movement

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A few months ago I went to a climate change forum at the Center for Brooklyn History. The panel I attended, “Confronting Climate Change: Understanding Deniers,” featured the prominent climate activist, Bill McKibben.

Bill McKibben. Courtesy https://billmckibben.com/.

I was curious to hear McKibben’s take on climate change deniers. I don’t regard the true deniers as a big problem – they’re only 11-15% of our country, according to most polls. Rather, I wondered if McKibben would label as “climate deniers” people who agree that climate change is a significant problem but disagree with his framing and his proposed solutions. I have worked for decades on energy and climate matters as an energy lawyer. Now, more than ever, I believe that to address climate change we need to build a big tent.

In the Q&A I tested where McKibben is on this by asking if he would label as a climate denier someone who subscribes to the main tenets of climate change science yet holds that natural gas has a role to play as a bridge fuel. (Our exchange starts at 1:12:45 of the video.)

This could have been a chance for McKibben to make clear that such a view isn’t climate denialism, even if he feels it’s misguided. But he punted, saying “I don’t care whether they’re deniers or not.” For good measure, he threw in his long-standing refrain that swapping coal for natural gas makes climate change worse, despite coal’s far higher carbon content per unit of energy.

674-MW methane-powered generating station, Salem, MA.

As you can hear in the recording, McKibben’s claim that gas is worse than coal draws on the work of Cornell scientist Robert Howarth. Yet McKibben didn’t mention that Howarth’s work is controversial and disputed by many scientists. The crux of the dispute is whether methane’s impact on warming should be measured with a 20-year or 100-year time frame.

Methane is a relatively short-lived greenhouse gas, with a lifetime of around 10 years, versus the 100-year life applicable to carbon dioxide. But each ton of methane is far more potent while in the atmosphere, trapping roughly 100 times as much heat as a ton of CO2. These cross-cutting facts about atmospheric methane — shorter life but greater potency than CO2 — have resulted in two opposing camps: one insisting on a 20-year timeframe for greenhouse gas accounting, the other adhering to the established 100-year frame. This matters because with a 20-year timeframe, generating electricity with natural gas (which, chemically speaking, is essentially all methane) is more damaging to climate than coal-fired electricity.

McKibben blew past this dispute. To hear him at the Center for Brooklyn History, one would have no inkling that there’s an active disagreement over which timeframe to use, that there are staunch climate activists who favor the 100-year time frame, and that the Intergovernmental Panel on Climate Change  (IPCC) generally uses the 100-year timeframe.

McKibben’s latest (2025) book. Published by W.W. Norton & Company.

McKibben also insisted that a discussion about natural gas’s potential role in mitigating climate change as a replacement for coal is irrelevant because solar “is now our cheapest resource.” McKibben’s claim, of course, suffuses “Here Comes the Sun,” his 2025 book that extols solar power as the cheapest solution for all of our energy needs. But this too is questionable, because it’s based on cost comparisons between solar farms and natural gas power plants (or nuclear power plants) that fail to consider that electricity supply and delivery is a complex system of wires and plants rather than individual power plants. Based on his remarks, McKibben is choosing to ignore studies such as the comprehensive 2025 report from the Clean Air Task Force that concluded that plant-level cost comparison “is a good metric to track historical technology cost evolution [but] is not an appropriate tool to use in the context of long-term planning and policymaking for deep decarbonization.” And the task force is not alone in finding that when electricity is treated as a system, solar loses its place as the cheapest low-carbon resource.

The dogmatism McKibben displayed at the Brooklyn meeting was unfortunate. We’re in a time when efforts to combat climate change are in retreat. A unified front is required to turn the tide. Instead of doubling down on absolutist positions, activists like McKibben who seem convinced that the solution to climate change is all-renewables, end of discussion, should be seeking common ground with others who want climate action but believe that nuclear power and natural gas must also play a role.

NYC Climate March, Sept 17, 2023. Photo: C. Komanoff.

Climate change activists need to build a bigger tent, rather than call anyone who disagrees with their positions a climate change denier. It is striking that McKibben stuck to his guns after saying in the same talk that the most important goal for everyone right now is to help climate change realists win more House and Senate seats in this year’s midterms. As some have noted, an absolutist position on natural gas appears less likely to achieve that win and politicians are following that advice.

Will McKibben evolve? He has demonstrated that he knows how to build a national climate movement centered around issues like divestment. Given the current political situation, he should focus on building an even bigger tent by welcoming all of the 85% who believe that we need to address climate change but do not agree with his ideological positions.

Rich Miller is an energy lawyer who has worked for a variety of stakeholders and now gives walking tours in lower Manhattan on the history of electricity. 

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Rebranding ‘Balcony Solar’ as ‘Guerrilla Solar’ won’t lift its climate value.

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Image generated with Claude. Why have we juxtaposed a bicycle with balcony solar? Read on.

First it was Plug-In Solar. Then it was Balcony Solar. Now it’s Guerrilla Solar, at least according to Inside Climate News, which yesterday proclaimed that The ‘Guerrilla Solar’ Era Has Arrived.

“It,” of course, is Modular solar panels. They’re the hot new photovoltaic solution: cheap enough to buy at Home Depot, easy to hang or prop to catch maximum rays, and small enough to fit on a balcony (if you’ve got one) and plug into your “home grid.” But, alas, too meager a generator of electricity to be more than a bit player in decarbonizing most U.S. homes.

How do I know? I’ve done the math.

A standard, lower-end 220-watt balcony solar array will produce 337 kilowatt-hours a year, or 28 kWh a month averaged over the course of a year. That’s for a 220W unit measuring 3.5 feet by 3.5 feet. (220W x 1/1000 x 17.5% x 8760 hours per year = 337 kWh. Calculation assumes a 17.5% full-year capacity factor, which is arguably generous for New York, where I live. )

Our balcony solar mashup. Top: an install in Germany. Bottom: Home Depot advert.

A typical U.S. home consumes 10,500 kWh a year, or 28 to 29 kWh per day, says Solartech, drawing on U.S. Energy Information Administration data. That puts a home’s daily power needs on par with a balcony solar unit’s monthly output. In effect, once each month the balcony array gifts a homeowner or renter a bit more than day’s full complement of electricity. And earth’s atmosphere gets the same respite: a 3 percent reduction in carbon emissions caused by the home’s electricity usage.

(The 3 percent figure could also be calculated directly by dividing 337 kWh per year of solar production by 10,500 kWh per year to run the home. For bigger or smaller arrays, just prorate your assumed wattage by my 220W; for 440W, say, double my figures.)

Balcony Solar metrics

Why write about balcony solar if it’s so inconsequential? CTC’s mission includes puncturing would-be climate balloons before they ascend too far. In the same vein, we practice quantification to make clear what does and doesn’t move the climate needle. (More on that further below.)

The best way to depict balcony solar’s climate value is to express it in terms of tangible metrics. We’ve selected two. Both assume the basic, lower-end PV array I assumed at the top: a 3.5 foot-square array whose peak output is 220 watts.

1. It would take 50 million 220W balcony solar units (bsu’s) to restore the climate benefit we destroyed in 2020-2021 when we shut the high-performing Indian Point nuclear power plant 32 miles from Midtown Manhattan.

2. A single person cutting back their driving by a mile a day would provide the same climate benefit over the course of a year as a single 220W bsu.

(Calculations in sidebar. Now you know why we led with images of an urban dweller as cyclist and balcony solar user.)

Yes, it’s dense — as befits a sidebar. The numbers tell a story. Follow the color co-ordination.

Ponder that: It would take fifty million smallish bsu’s to level up to the fossil fuel carbon emissions that Indian Point was keeping at bay by supplying the New York City area year in and year out with abundant carbon-free power. Deploying that many balcony solar units would entail 10 bsu’s for each of the 5 million households in the MTA’s service territory. (The Metropolitan Transportation Authority provides subway, bus and commuter rail transit in the five boroughs and seven suburban counties.) Or, if those same households upgraded to 1100-watt bsu’s, collectively they would still make up only half of the lost Indian Point power.

The second comparison, involving driving, is perhaps trickier to grasp but more interesting, since it relates to people’s behavior. Living differently isn’t part of public discourse, at least not in the USA, and especially when what’s being served up is using less. But “reducing,” as we might call it (remember “Reduce, Reuse, Recycle”? or, “Insulate, then Insolate”?) is just as potent for cutting emissions as switching to renewables — even more so when the reducing means driving less, considering the multitude of benefits that accrue from diminishing cars’ imprints on our communities. Still, staying on topic: driving just one fewer mile per day brings about the same shrinkage in carbon emissions as deploying one 220W solar array.

What Balcony Solar boosters are really saying

To be fair, our friends at Inside Climate News and, yes, The New York Times appear to be trying to modulate their balcony solar enthusiasm.

ICN‘s Dan Gearino, whom we cited up front, said he looked to Germany, the birthplace of balcony solar, to see if the units made sense for U.S. households. His takeaway: “It may make more sense financially to spend the cost of plug-in solar on insulation, air sealing or other basic measures to reduce energy use.” Hooray: insulate before you insolate.

Gearino helpfully interviewed renewables guru (and U.S. emigré) Craig Morris, who currently heads Germany’s plug-in solar trade association, Bundesverband Steckersolar. To Morris, balcony solar’s main advantages are that it provides power without taking up land, and that it affords people a way to “become participants in the transition to clean energy.” Behold, guerrilla solar. That, in turn, bolsters “the political consensus that supports the transition.” But Morris also made clear that widespread adoption of plug-in solar would only meet “about 2 percent of Germany’s electricity demand.”

Morris’s “about 2 percent” feels right for Germany. But not for the U.S., where widespread adoption of virtually any individual carbon alternative seems forever out of reach, and where the energy pie is so much larger — think giant fridges, freezers for beer, steroidal homes bursting with piles of powered toys, not to mention industrial and institutional electricity use that Morris correctly excluded from his figure.

Don’t forget to micro-dose. NYT headline + image for David Wallace-Wells’ guest essay (see text). Image by Rui Pu.

Both Gearino and Morris seem more measured than climate journalist Robinson Meyer, founding editor of Heatmap and frequent contributor to The Times, where he wrote about balcony solar in mid-June.

“New zero-carbon power kits will allow Americans to make their own energy choices,” declares the callout to the print version of Meyer’s NYT guest essay, The Tiny Solar Panel That Could Change America. (The even more expansive print headline invites us to “Forget Roofs. Backyard Solar Is the Next Frontier.”)

Wallace-Wells is of two minds. He calls balcony solar “a small way that apartment- and condo-dwelling Americans can take ownership of their energy choices and cut down their pollution on the margins.” No quarrel there, thanks to his qualifiers “small” and “on the margins.” Earlier, though, he opines that balcony solar units “have the potential to change how Americans understand and consume energy,” But read further and you’ll again see Wallace-Wells cautioning that “Balcony solar will play one small role in [the] drama” of transiting to the new world of clean, abundant energy.

Any such caveats are welcome these days, amid widespread solar hoopla. Still, it doesn’t seem to be in Wallace-Wells’ toolkit — or that of Inside Climate News and other mainstream climate journalists — to tutor their audiences as to the  true limits of balcony solar and other panaceas. Just like it wasn’t in their field of vision a decade ago to lay out the true stakes of shutting Indian Point as Riverkeeper was singing its siren song.

What’s Next for NY Balcony Solar

Meantime, as Canary Media reported recently (and helpfully), New Yorkers concerned with climate and affordability are waiting for NY Gov. Kathy Hochul to sign the recently passed SUNNY (Solar Up Now New York) Act legalizing balcony and other plug-in solar. It would be head-spinning (and politically suicidal) if she didn’t, given near-universal support ranging from Con Edison to DSA Assembly Member Emily Gallagher, who told Canary Media, “This is the most popular bill I’ve [ever] worked on.”

My guess is that Hochul is waiting for the right moment, and perhaps the right “package,” that can advance and not undercut her push to launch five large new nuclear power plants around the state — one to be built by the public New York Power Authority, the others to be constructed and operated privately. A little bit of math, a la what we offered here a la Indian Point, might help her out.

The governor also must manage the veritable hot potato of her deferred implementation of the landmark 2019 Community Leadership and Climate Protection Act. She might do well to consider jettisoning the act’s unwieldy cap-and-invest centerpiece in favor of a straight-up carbon tax (with the revenues distributed pro rata to the state’s households) in its place. That, far more than balcony (or guerrilla) solar, could blow open the door to the “innovations and technologies we cannot yet imagine” that Wallace-Wells fantasized about in his Times essay.

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The new SBTi Corporate Net-Zero Standard: what it means for business

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On 11 June 2026, the Science Based Targets initiative (SBTi) published the most substantial revision of its flagship corporate framework since its introduction. The SBTi Corporate Net-Zero Standard Version 2.0 takes effect on 1 February 2027 and reshapes the way companies approach their net-zero targets.

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