Industrial Heat are of course the great patenters
Clean Planet Ltd (Japan) updates
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Well, who has made any functional AR device based on a patent, of IH authorship or his own?
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No critical infos were related in Rossi's patents only in the Doral's patent where all was disclosed..
Now no one attempted seriously.
Well, who has made any functional AR device based on a patent, of IH authorship or his own?
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IH are also good at stealing IP. Are they still solvent?
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IH team was a Carl Page relation, did he help to link Rossi to them ?
Anyway, creating relationship between 2 entities doesn't mean that the partner you introduced will be proper or not (IH).
Now about generally Lenr, i'm fully confident that propose only an "heating system" won't be enough to interest most of investors.
If right, a mobile system as a car integration should be one way..A drone..etc
Serious investors needs to see not only preconcept but something more "real".. The only way to them, i think, to better evaluate how fast they could touch a payback.
IH are also good at stealing IP. Are they still solvent?
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IH are also good at stealing IP. Are they still solvent?
Yes. But spending very carefully.
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But spending very carefully.
Apropos CP
Magnetron sputtering and metallic glasses are a bit beyond both IH and AR..
The latest CP. paper mentioned a while back. mentions≈
.."Using magnetron sputter deposition, 6 layers of Ni (14 nm)/Cu (2 nm) bilayer were deposited on a 0.5-mm-thick Si (100) wafer, which was covered with a 10-nm-thick α-SiO2 layer. The substrate was commercially obtained. The base pressure of the deposition chamber was 6.5 × 10−5 Pa. Ar was supplied as the sputter gas at a rate of 0.12 mL/s and the pressure of the chamber was 0.14 Pa during the deposition. The sputtering conditions were 200 W for 184 s for Ni and 50 W for 82 s for Cu. For uniform deposition, the substrate was rotated at 20 rpm. Figure 1 shows the layered structure of the sample. The nominal atomic composition of the multilayer was Ni0.88Cu0.12"
A fascinating area is the random spacing/orientation in metallic glasses produced by magnetron sputtering..IMHO
there are distributions of atomic spacings and orientations which are improbable in orderly crystalline metals..
Plenty of potential research space and time there
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Metallic glasses are simply amorphous alloys which were cooled at 1000°C/s at least. To maintain this state they need too 5 different primary metals. However they can maintain this state only at common temperatures. Most of them above 200° will come back into a cristalline structure.
Display MoreApropos CP
Magnetron sputtering and metallic glasses are a bit beyond both IH and AR..
The latest CP. paper mentioned a while back. mentions≈
.."Using magnetron sputter deposition, 6 layers of Ni (14 nm)/Cu (2 nm) bilayer were deposited on a 0.5-mm-thick Si (100) wafer, which was covered with a 10-nm-thick α-SiO2 layer. The substrate was commercially obtained. The base pressure of the deposition chamber was 6.5 × 10−5 Pa. Ar was supplied as the sputter gas at a rate of 0.12 mL/s and the pressure of the chamber was 0.14 Pa during the deposition. The sputtering conditions were 200 W for 184 s for Ni and 50 W for 82 s for Cu. For uniform deposition, the substrate was rotated at 20 rpm. Figure 1 shows the layered structure of the sample. The nominal atomic composition of the multilayer was Ni0.88Cu0.12"
A fascinating area is the random spacing/orientation in metallic glasses produced by magnetron sputtering..IMHO
there are distributions of atomic spacings and orientations which are improbable in orderly crystalline metals..
Plenty of potential research space and time there
https://www.google.com.au/url?…Vaw3hk-AZRT6AxBwA9LCXd_Jm
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hydrogen stabilises some of them. a bit
Hydrogen-induced enhancement of thermal stability in VZr(H) metallic glassesPrediction of crystallization temperatures in metallic glasses is still an open question. Investigations of multi component alloys are common in the l…doi.org"The thermal stability is increased and oxygen uptake is reduced by alloying VxZr100–x with hydrogen. The crystallization temperature increases by up to 150 K in VxZr67–xH33 compared to the VxZr100–x alloys. Alloys with higher resistivity have higher thermal stability, which opens up the possibility of screening alloys through resistivity measurements to find the highest stability in a system [47].'
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Microsoft Word - 250410_CleanPlanet_PressRelease_Tokyo grant
TOKYO — April 10, 2025 — Clean Planet Inc. announced that it has been selected for the Innovation Promotion Project for Achieving Zero Emission Tokyo (Zero Emission Category) implemented by the Tokyo Metropolitan Government. The grant of \1 billion (approximately $6.8 million) will be used to advance and scale the company’s clean energy modules....
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Happy for them as they are one of the most relevant team involved in a serious Lenr techno.
Microsoft Word - 250410_CleanPlanet_PressRelease_Tokyo grant
TOKYO — April 10, 2025 — Clean Planet Inc. announced that it has been selected for the Innovation Promotion Project for Achieving Zero Emission Tokyo (Zero Emission Category) implemented by the Tokyo Metropolitan Government. The grant of \1 billion (approximately $6.8 million) will be used to advance and scale the company’s clean energy modules....
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Tokyo govt announcement
together with 3 other grants for plant growing, homewifi..cell therapy
the clean planet grant seems to. be the one most related to zero emission
its good thing that CP. has an office based in the metro area Chiyoda-ku
and not just in Tohoku
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Display More
Tokyo govt announcement
together with 3 other grants for plant growing, homewifi..cell therapy
the clean planet grant seems to. be the one most related to zero emission
its good thing that CP. has an office based in the metro area Chiyoda-ku
and not just in Tohoku
They say they will use these funds to develop a prototype. I thought they already had working prototypes?
量子水素エネルギー発熱装置のプロトタイプ開発
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funds to develop a prototype
Prototype development is an iterative process..
as in R8, R35, R36,R37, R40..you might have acquaintance with..
maybe ICCF26 will reveal more
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11:00-11:40 26a-3 Current Status of Research and Development of Condensed
Matter Nuclear Science in Japan.. Yasuhiro Iwamura
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Display More
Prototype development is an iterative process..
as in R8, R35, R36,R37, R40..you might have acquaintance with..
maybe ICCF26 will reveal more
"
11:00-11:40 26a-3 Current Status of Research and Development of Condensed
Matter Nuclear Science in Japan.. Yasuhiro Iwamura
Yeah fair enough. Things don’t always go as planned. I know this all too well. But I was just a bit surprised they didn’t update their website.
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