I agree with the contention that the Carbon "plated" on the cathode
is from CO2 contamination either from the atmosphere and/or possibly from
from the electrolyte-electrode chemicals. De-ionized D2O or H2O will absorb
atmospheric CO2 in seconds.
CO2 released at the anode can mix with the (H2,
At 7:29 AM 11/26/4, Frederick Sparber wrote:
I agree with the contention that the Carbon plated on the cathode
is from CO2 contamination either from the atmosphere and/or possibly from
from the electrolyte-electrode chemicals. De-ionized D2O or H2O will absorb
atmospheric CO2 in seconds.
Yes. It
At 1:39 PM 11/25/4, Robin van Spaandonk wrote:
In reply to Jones Beene's message of Wed, 27 Oct 2004 08:13:03 -0700:
Hi,
[snip]
An extraordinary paper was presented at ICCF-10 entitled
Comment On Carbon Production In Deuterium-Metal Systems by
DAN CHICEA, Visiting Research Associate Professor at
In reply to Jones Beene's message of Wed, 27 Oct 2004 08:13:03 -0700:
Hi,
[snip]
An extraordinary paper was presented at ICCF-10 entitled
Comment On Carbon Production In Deuterium-Metal Systems by
DAN CHICEA, Visiting Research Associate Professor at
Portland State.
An extraordinary paper was presented at ICCF-10 entitled
Comment On Carbon Production In Deuterium-Metal Systems by
DAN CHICEA, Visiting Research Associate Professor at
Portland State.
http://www.lenr-canr.org/acrobat/ChiceaDcommentonc.pdf
The experiment reveals that when titanium, palladium or
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