Title is a reference to Resistance imagery about how Israeli soldiers will enter Gaza alive but leave it in coffins - the same is true for American soldiers in the Middle East if the regional war expands.

The image is of the Fattah-1 Iranian hypersonic ballistic missile, which its creators boast can overcome any missile defense system on the planet, has a range of 1400 kilometers (and thus Iran can strike Israel), and has a terminal impact velocity of Mach 13.


Dozens of American soldiers have been injured and 3 have been killed on a base in the Middle East. There has been confused reports about whether the attack was on Syrian territory or Jordan's - the Al-Tanf base is in Syria, but Tower-22 in Jordan is another base that helps supply Al-Tanf, and Tower-22 is the one that is alleged to have been hit. These is the first confirmed deaths of American troops since the conflict began, though it's not likely that this is actually the first deaths after hundreds of drone/missile strikes throughout the region on American bases, unless you think American soldiers are having extremely timely heart attacks just after a missile hits.

The attack is certainly impactful, though it does also have considerably symbolism. Courtesy of John Helmer:

The operational success of the strike for the attackers is strategic. Tower-22 is a logistics, supply, and rear guard post for the Al-Tanf base which US troops are operating thirty kilometres north across the border in Syria. The attack demonstrates that both Tower-22 and Al-Tanf, Jordan and Syria, are newly vulnerable to weapons which the US forces have failed to detect and neutralize. Just as significantly, the massive US airbase called Muwaffaq Salti, 230 kilometres west across Jordan, is also vulnerable now.

It indicates that Iran now possesses Russian expertise in countering American equipment:

“This is a significant accomplishment,” one of the sources said. “Was the bypassing of the US air defence system at Tower-22 pulled off with Russian assistance? US bases generally rely on the C-RAM [Counter Rocket, Artillery and Mortar] system. It was sent to Ukraine last year where the Russians have been learning to defeat it. What now of American EW [electronic warfare]? They’ve been doing a fair job of knocking drones down up to now. It seems a ‘coincidence’ that, not a week after the meetings in Moscow with Arabs and Iranians, we see this success. It’s a success the circumstances of which, we can be sure, Biden and Austin are not keen to advertise.”

I am putting my take on the table right now: I am 99% certain that the US won't attack Iran directly. I think we are still quite a while away from that being a possibility. Much more likely is that Iranian officials in Iraq or Syria will be hit by a retaliatory strike, as Israel has done recently. It is a significant escalation nonetheless. And it comes as Israel seems to be gearing up for a suicidal war with Hezbollah.


The Country of the Week is Iran! Feel free to chime in with books, essays, longform articles, even stories and anecdotes or rants. More detail here.

Updates continue to be AWOL - but I am cooking something. Hopefully.

The bulletins site is here!
The RSS feed is here.
Last week's thread is here.

Israel-Palestine Conflict

If you have evidence of Israeli crimes and atrocities that you wish to preserve, there is a thread here in which to do so.

Sources on the fighting in Palestine against Israel. In general, CW for footage of battles, explosions, dead people, and so on:

UNRWA daily-ish reports on Israel's destruction and siege of Gaza and the West Bank.

English-language Palestinian Marxist-Leninist twitter account. Alt here.
English-language twitter account that collates news (and has automated posting when the person running it goes to sleep).
Arab-language twitter account with videos and images of fighting.
English-language (with some Arab retweets) Twitter account based in Lebanon. - Telegram is @IbnRiad.
English-language Palestinian Twitter account which reports on news from the Resistance Axis. - Telegram is @EyesOnSouth.
English-language Twitter account in the same group as the previous two. - Telegram here.

English-language PalestineResist telegram channel.
More telegram channels here for those interested.

Various sources that are covering the Ukraine conflict are also covering the one in Palestine, like Rybar.

Russia-Ukraine Conflict

Examples of Ukrainian Nazis and fascists
Examples of racism/euro-centrism during the Russia-Ukraine conflict

Sources:

Defense Politics Asia's youtube channel and their map. Their youtube channel has substantially diminished in quality but the map is still useful. Moon of Alabama, which tends to have interesting analysis. Avoid the comment section.
Understanding War and the Saker: reactionary sources that have occasional insights on the war.
Alexander Mercouris, who does daily videos on the conflict. While he is a reactionary and surrounds himself with likeminded people, his daily update videos are relatively brainworm-free and good if you don't want to follow Russian telegram channels to get news. He also co-hosts The Duran, which is more explicitly conservative, racist, sexist, transphobic, anti-communist, etc when guests are invited on, but is just about tolerable when it's just the two of them if you want a little more analysis.
On the ground: Patrick Lancaster, an independent and very good journalist reporting in the warzone on the separatists' side.

Unedited videos of Russian/Ukrainian press conferences and speeches.

Pro-Russian Telegram Channels:

Again, CW for anti-LGBT and racist, sexist, etc speech, as well as combat footage.

https://t.me/aleksandr_skif ~ DPR's former Defense Minister and Colonel in the DPR's forces. Russian language.
https://t.me/Slavyangrad ~ A few different pro-Russian people gather frequent content for this channel (~100 posts per day), some socialist, but all socially reactionary. If you can only tolerate using one Russian telegram channel, I would recommend this one.
https://t.me/s/levigodman ~ Does daily update posts.
https://t.me/patricklancasternewstoday ~ Patrick Lancaster's telegram channel.
https://t.me/gonzowarr ~ A big Russian commentator.
https://t.me/rybar ~ One of, if not the, biggest Russian telegram channels focussing on the war out there. Actually quite balanced, maybe even pessimistic about Russia. Produces interesting and useful maps.
https://t.me/epoddubny ~ Russian language.
https://t.me/boris_rozhin ~ Russian language.
https://t.me/mod_russia_en ~ Russian Ministry of Defense. Does daily, if rather bland updates on the number of Ukrainians killed, etc. The figures appear to be approximately accurate; if you want, reduce all numbers by 25% as a 'propaganda tax', if you don't believe them. Does not cover everything, for obvious reasons, and virtually never details Russian losses.
https://t.me/UkraineHumanRightsAbuses ~ Pro-Russian, documents abuses that Ukraine commits.

Pro-Ukraine Telegram Channels:

Almost every Western media outlet.
https://discord.gg/projectowl ~ Pro-Ukrainian OSINT Discord.
https://t.me/ice_inii ~ Alleged Ukrainian account with a rather cynical take on the entire thing.


  • voight [he/him, any]
    ·
    10 months ago

    🪨👷‍♀️👷‍♂️🪨👷‍♂️🛑⛏️👶⛔️👼💥🚙🔋🚘

    Cobalt-free batteries could power cars of the future — Anne Trafton | MIT News

    Publication Date:

    https://web.archive.org/web/20240122233612/https://news.mit.edu/2024/cobalt-free-batteries-could-power-future-cars-0118

    MIT researchers have now designed a battery material that could offer a more sustainable way to power electric cars. The new lithium-ion battery includes a cathode based on organic materials...

    ...instead of cobalt or nickel (another metal often used in lithium-ion batteries).

    In a new study, the researchers showed that this material, which could be produced at much lower cost than cobalt-containing batteries, can conduct electricity at similar rates as cobalt batteries. The new battery also has comparable storage capacity and can be charged up faster than cobalt batteries, the researchers report.

    “I think this material could have a big impact because it works really well,” says Mircea Dincă, the W.M. Keck Professor of Energy at MIT. “It is already competitive with incumbent technologies, and it can save a lot of the cost and pain and environmental issues related to mining the metals that currently go into batteries.”

    Dincă is the senior author of the study, which appears today in the journal ACS Central Science. Tianyang Chen PhD ’23 and Harish Banda, a former MIT postdoc, are the lead authors of the paper. Other authors include Jiande Wang, an MIT postdoc; Julius Oppenheim, an MIT graduate student; and Alessandro Franceschi, a research fellow at the University of Bologna.

    Alternatives to cobalt

    Most electric cars are powered by lithium-ion batteries, a type of battery that is recharged when lithium ions flow from a positively charged electrode, called a cathode, to a negatively electrode, called an anode. In most lithium-ion batteries, the cathode contains cobalt, a metal that offers high stability and energy density.

    However, cobalt has significant downsides. A scarce metal, its price can fluctuate dramatically, and much of the world’s cobalt deposits are located in politically unstable countries. Cobalt extraction creates hazardous working conditions and generates toxic waste that contaminates land, air, and water surrounding the mines.

    “Cobalt batteries can store a lot of energy, and they have all of features that people care about in terms of performance, but they have the issue of not being widely available, and the cost fluctuates broadly with commodity prices. And, as you transition to a much higher proportion of electrified vehicles in the consumer market, it’s certainly going to get more expensive,” Dincă says.

    Because of the many drawbacks to cobalt, a great deal of research has gone into trying to develop alternative battery materials. One such material is lithium-iron-phosphate (LFP), which some car manufacturers are beginning to use in electric vehicles. Although still practically useful, LFP has only about half the energy density of cobalt and nickel batteries.

    Another appealing option are organic materials, but so far most of these materials have not been able to match the conductivity, storage capacity, and lifetime of cobalt-containing batteries. Because of their low conductivity, such materials typically need to be mixed with binders such as polymers, which help them maintain a conductive network. These binders, which make up at least 50 percent of the overall material, bring down the battery’s storage capacity.

    About six years ago, Dincă’s lab began working on a project, funded by Lamborghini, to develop an organic battery that could be used to power electric cars. While working on porous materials that were partly organic and partly inorganic, Dincă and his students realized that a fully organic material they had made appeared that it might be a strong conductor.

    This material consists of many layers of TAQ (bis-tetraaminobenzoquinone), an organic small molecule that contains three fused hexagonal rings. These layers can extend outward in every direction, forming a structure similar to graphite. Within the molecules are chemical groups called quinones, which are the electron reservoirs, and amines, which help the material to form strong hydrogen bonds.

    Those hydrogen bonds make the material highly stable and also very insoluble. That insolubility is important because it prevents the material from dissolving into the battery electrolyte, as some organic battery materials do, thereby extending its lifetime.

    “One of the main methods of degradation for organic materials is that they simply dissolve into the battery electrolyte and cross over to the other side of the battery, essentially creating a short circuit. If you make the material completely insoluble, that process doesn’t happen, so we can go to over 2,000 charge cycles with minimal degradation,” Dincă says.

    Strong performance

    Tests of this material showed that its conductivity and storage capacity were comparable to that of traditional cobalt-containing batteries. Also, batteries with a TAQ cathode can be charged and discharged faster than existing batteries, which could speed up the charging rate for electric vehicles.

    To stabilize the organic material and increase its ability to adhere to the battery’s current collector, which is made of copper or aluminum, the researchers added filler materials such as cellulose and rubber. These fillers make up less than one-tenth of the overall cathode composite, so they don’t significantly reduce the battery’s storage capacity.

    These fillers also extend the lifetime of the battery cathode by preventing it from cracking when lithium ions flow into the cathode as the battery charges.

    The primary materials needed to manufacture this type of cathode are a quinone precursor and an amine precursor, which are already commercially available and produced in large quantities as commodity chemicals. The researchers estimate that the material cost of assembling these organic batteries could be about one-third to one-half the cost of cobalt batteries.

    Lamborghini has licensed the patent on the technology. Dincă’s lab plans to continue developing alternative battery materials and is exploring possible replacement of lithium with sodium or magnesium, which are cheaper and more abundant than lithium.

    • carpoftruth [any, any]M
      ·
      10 months ago

      Certainly mining cobalt and other base metals can be pretty environmentally nasty, but I wish articles like this didn't just breeze past comparable issues with alternatives. This article describes organic battery compounds, which to the lay person may suggest biological matter, but really its hydrocarbons. Big petrochemical refineries are not without environmental risk either.

      Anyway cool to see. I suspect a lot of the current lithium supply panic will evaporate as alternatives like this become more advanced. Not everything needs to be ultra high end in terms of battery storage capacity.

      • voight [he/him, any]
        ·
        10 months ago

        Good to note. I'm not a petrochemical engineer & have no knowledge of the industry but maybe eventually they can make that shit entirely out of renewable stuff with sludge magic idk