Volkswagen and rivals plug away at solid-state battery puzzle
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 [January 16, 2024] By
Eric Onstad and Paul Lienert
LONDON/DETROIT (Reuters) - Volkswagen, whose drive to develop a
"solid-state" electric car battery with U.S. startup QuantumScape has
been dogged by delays, is casting its net wider in pursuit of the
potentially game-changing technology.
The German auto giant is holding talks with France's Blue Solutions,
which already produces solid-state batteries for Daimler electric buses,
about adapting the design for cars, a source with direct knowledge of
the discussions told Reuters.
VW and Blue Solutions aim to reach a joint development agreement in the
coming months, according to the source who asked not to be identified as
the talks are private.
Volkswagen's move to widen its options in the field points to the array
of technical hurdles holding back wider development of solid-state
technology, seen by its backers as the "holy grail" of EV batteries,
promising longer driving ranges and shorter charging times than
traditional lithium-ion packs.
VW said its venture with QuantumScape was on track and declined to
comment when asked about any discussions with Blue Solutions.
A spokesperson for Blue Solutions, a unit of French conglomerate Bollore,
confirmed that it was working on a battery for passenger cars and said
it had signed development deals with BMW and another company, and was in
talks with a third, but declined to identify the others.
VW, Toyota, BMW and other global automakers are vying to crack the
conundrum of solid-state batteries, which remain technically elusive
despite decades of research and billions of dollars of investment.
"A lot of promises haven't been delivered and several automakers and
investors have been burnt," said Rory McNulty at consultancy Benchmark
Mineral Intelligence. "There's loads of really good verified data and
technology, but can they (the industry) do it reliably, at scale?"
Blue Solutions, for its part, faces stiff challenges to radically bring
down the four-hour charging time required by its current batteries,
which is feasible for buses parked overnight in depots. The company's
spokesperson told Reuters it was working on a passenger car battery with
a charging time of 20 minutes, and aimed to construct a "gigafactory"
for it by 2029.
The sector's lack of commercial success has dampened market enthusiasm;
the amount of global venture capital deal activity in solid-state
battery companies fell 72% last year to $146 million, according to data
from PitchBook.
"Investor interest in solid state batteries has waned. They are
questioning whether the risk of solid state is worth it," Ibex Investors
partner Jeff Peters said.
QUANTUMSCAPE: STILL A LOT OF WORK
Solid state ideally envisions replacing the liquid electrolyte though
which the electrical charge passes in lithium-ion EV batteries with a
solid substitute, thus reducing a fire hazard and shrinking the size of
battery packs, and using lithium metal for its negative terminal to
boost performance.
Gauging precisely the right combination of chemicals and materials so
they don't react adversely with each other is a minefield, though.
QuantumScape's venture with its top shareholder VW, which has invested
$300 million in the startup, is an example how solid-state technology
has failed to live up to its initial promise.
The development deal signed in 2018 envisaged solid-state powering
Volkswagen EVs by 2025, enabling the e-Golf to more than double its
range to 750 km. When QuantumScape subsequently went public via a
reverse merger with a special purpose acquisition company in New York in
2020, it said it was aiming for commercial battery production in 2024.
[to top of second column] |
A new Volkswagen ID.3 electric car is seen in a fully automatic
high-bay-rack for delivery by the German automaker at the "Autostadt"
in Wolfsburg, Germany, September 11, 2020. REUTERS/Annegret Hilse/File
Photo
Yet mass commercial production remains a distant prospect, even
after QuantumScape shipped its first prototypes to VW and other
prospective customers in late 2022, the start of what is typically a
multi-year process of testing and certification.
Furthermore, the battery isn't pure solid state since it uses a
liquid electrolyte though uses ceramic to separate the positive and
negative terminals.
"We still have a lot of work to do," QuantumScape's CEO Jagdeep
Singh told Reuters. "The prototype is meant to show the core
functionality is there, not that the cell is fully ironed out in
terms of all the different defects that can be introduced during the
production process."
QuantumScape's shares, which hit a peak of $132.70 in December 2020,
have since sunk to $7.37, giving the company a market value of about
$3.6 billion. It has not said when it expects high-volume commercial
production. Goldman Sachs said this was likely in the latter part of
the decade.
QuantumScape said in a regulatory filing to the U.S. Securities and
Exchange Commission last October that it had missed
commercialization timeline milestones envisaged in the 2018 deal
with VW, and that the German automaker thus had the right to
terminate the joint venture should it choose to.
TOYOTA FLAGS BREAKTHROUGH
Volkswagen and QuantumScape aren't the only players that have pared
their ambitions as they grapple with the technical complexities of
solid state.
Toyota, the world's biggest automaker ahead of VW, had targeted a
2025 production startup date for its solid-state batteries, but said
in June it now does not expect to produce the cells at scale before
2027 or 2028.
The Japanese company nonetheless said it had achieved a technical
breakthrough, without providing details beyond a projected driving
range of 750 miles or more and charging time of 10 minutes.
Several other companies have plans to roll out solid-state batteries
including Chinese battery leader CATL, LG Energy Solution, Solid
Power, ProLogium, Honda and Nissan. (see accompanying FACTBOX)
EV market leader Tesla is an industry outlier in not having detailed
any solid-state battery development plans.
A key issue solid-state scientists have been grappling with is the
impact of introducing lithium metal for the anode.
Lithium metal can dramatically lift performance, but often sparks
reactions with the solid compounds, including creating dendrites,
spiky formations that create cracks and imperfections and can
ultimately short-circuit a battery.
Battery makers, automakers and researchers have tried using a
variety of substances for the solid electrolyte in three main
categories: polymers, sulfides and oxides.
Some companies have already rolled out partial versions of
solid-state batteries that offer some benefits of the technology.
China's EV firms Nio and Seres have both launched EV models with
"semi-solid-state" batteries which have both solid and gel-like
electrolyte components but do not use lithium metal anodes.
(Reporting by Eric Onstad in Lodnon and Paul Lienert in Detroit;
Additional reporting by Ben Klayman in Detroit and Zoey Zhang in
Shanghai; Editing by Veronica Brown and Pravin Char)
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