Here Are All of the Stocks That Stand To Benefit if LK-99 Is Confirmed To Be the Miracle Room-Temperature Superconductor

Backendman August 01, 2023

LK-99 Room-Temperature Superconductor

Room-temperature superconductors, those that do not offer any electrical resistance at ambient temperatures, are all the rage these days, given fast-paced developments on this front and the game-changer characteristics of any breakthrough that does materialize. Just recently, LK-99 has been touted as the most promising candidate to unlock the long-held utopian dream of a world dominated by room-temperature superconductors. Should this claim pass scientific rigor, veritable fortunes could be made within seconds.

LK-99: Where is the Proof of Room-Temperature Superconductivity?

Last week, we had examined the likelihood of a nitrogen-doped lutetium hydride compound as the first viable candidate for room-temperature superconductivity. On the 22nd of July 2023, a research team hailing from Korea University rocked the scientific world by claiming that LK-99, a gray-black compound of lead, copper, phosphorus, and oxygen, formally known as copper-substituted lead phosphate apatite, exhibited superconductivity characteristics at temperatures above 400 kelvins (126.85 degrees Celsius or 260 degrees Fahrenheit).

The South Korean team has submitted two preprint papers (here and here), claiming that the electrical resistivity of LK-99 dropped sharply at around 378 kelvin (220 degrees Fahrenheit), almost reaching the zero-bound at 333 Kelvin (140 degrees Fahrenheit).

The Meissner effect refers to the expulsion of magnetic fields as a superconductor transitions toward its superconducting state. The South Korean team has claimed that it observed this effect in LK-99, even going so far as to release a video of the copper-substituted lead phosphate apatite levitating at room temperature and pressure.

Another paper, submitted on the 31st of July, attempted to perform density functional theory calculations on LK-99, managing to identify “correlated isolated flat bands at the Fermi level,” which are a hallmark of superconducting crystals.

What’s more, a team at the Huazhong University of Science and Technology has already claimed the replication of the Meissner effect on LK-99, as shown in the above Xeet/tweet.

Another X account has followed the South Korean team’s footsteps to allegedly make the LK-99.

There are certain caveats, however. Some scientists have raised early flags regarding a data plot that details LK-99’s magnetic properties and is contained in both of the original papers submitted by the South Korean team. Both plots are sourced from the same dataset and, therefore, should be identical. However, one of the data plots has a y-axis that is 7,000 times larger than the other. While these discrepancies do not discredit the South Korean team’s findings on their own, they do entail the need for caution.

Which Investments Benefit if LK-99 Does Turn Out to be the Miracle Room-Temperature Superconductor?

If LK-99 does end up passing scientific rigor, it can change the world as we know it, transforming everything from electricity transmission and transportation to electronics and nuclear fusion. Here are the investment themes that stand to benefit the most:

  • Commodities, especially lead and copper futures.
  • Lead is a byproduct of Zinc mining, so companies such as Teck Resources (NYSE: TECK) stand to benefit.
  • Stocks of companies that produce phosphate fertilizers, such as Coromandel International (NSE: COROMANDEL), also stand to benefit.
  • VanEck Rare Earth ETF (REMX).
  • Top electrical wire manufacturers such as Sumitomo Electric Industries Ltd. (TYO: 5802) and Dacon Systems.
  • Producers of medical imaging equipment such as General Electric (NYSE: GE) and Siemens Healthineers (ETR: SHL).

Do you think LK-99 is about to transform our world as we know it? Let us know your thoughts in the comments section below.

Written by Rohail Saleem


Refference- https://wccftech.com
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