Charged EVs | Maxwell’s Teflon-fibrilizing electrode process could save Tesla big bucks on battery manufacture

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Maxwell’s Teflon-fibrilizing electrode process could save Tesla big bucks on battery manufacture


Tesla has completed the acquisition of Maxwell Technologies, a company that’s known for its pioneering work with supercapacitors. However, Electrek’s Fred Lambert and others have noted that Tesla’s interest in Maxwell probably has less to do with supercapacitors than with the company’s “dry electrode” technology.

Randy Carlson, in an article posted on Seeking Alpha, provides a wealth of technical detail about this process. It has to do with fibrilization, which Carlson compares to what happens when you step on a wad of chewing gum on the sidewalk (lifting your shoe fibrilizes the gum, converting it from a blob into a set of stringy bits called fibrils).

Maxwell’s electrode process works by fibrilizing bits of
PTFE (Teflon) mixed with particles of active electrode material, resulting in a
self-supporting film of anode or cathode material. The film is then laminated
to a current collector foil to make an anode or cathode, which is wound up with
separator film to form a battery cell.

As Carlson explains, the really cool thing about Maxwell’s process is that it makes electrodes without using solvent. His article describes the technical advantages of this in delicious detail, and battery boffins will want to read it in its entirety. Here we’ll just note that the solvents used in conventional Li-ion battery manufacturing are toxic and difficult to work with, and require the use of large and expensive electrode coating machines.

Maxwell’s dry electrode process is far simpler, and the
company has already used it commercially to make its supercapacitors. If Tesla
(and Panasonic) can get Maxwell’s process up and running, they might save loads
of money, time and factory space. The process also offers the possibility of
improving battery capacity and cycle life by adding extra lithium to the
electrodes.

The potential for improved battery performance and cost
savings leads Carlson to a not-unreasonable speculation. Tesla and Panasonic recently
announced that they were freezing
expansion plans
for the Nevada Gigafactory, and the pessimistic press
assumed that financial problems were the reason. “Another and perhaps more
interesting explanation may be that Panasonic sees spending more on what’s
about to become an obsolete battery-making process as a waste of resources,”
Carlson writes.

Source: Seeking Alpha










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