At 500deg C, a D2 molecule with aD-D bond strength of 444 KJ/mole (4.6 eV/bond) reacts with liquid Lithium
which has a Li-Li bond strength of 107 KJ/mole (1.11 eV/bond) to form the two Li-D bonds
eachwith a bond strength of 240 KJ/mole.(2.5 eV/bond)
About even up when the energy of getting the
With the flurry of activity centered on Lithium Hydride and the
seven known Lithium-Tin Compounds forLithium Ionbattery technology,
one wonders if Lithium Hydride or Deuteride dissolved
in molten Tin could form a Li (x)H(y)Sn(z) phase that would
allow "plate out" of Hydrogen or Deuterium at
parber
To: vortex-l
Sent: 12/19/2005 7:15:51 AM
Subject: Re: Electrolysis of Ionic Hydrides-Deuterides?
With the flurry of activity centered on Lithium Hydride and the
seven known Lithium-Tin Compounds forLithium Ionbattery technology,
one wonders if Lithium Hydride or Deuteride dissolved
in m
This may be as good a Mills' hydrinoconfirmation as
any of his own experiments ;-)
Jones
- Original Message -
From:
Frederick Sparber
To: vortex-l
Sent: Monday, December 19, 2005 6:32
AM
Subject: Re: Electrolysis of Ionic
Hydrides-Deuterides
Electrolysis of the Ionic Hydrides or Deuterides results in the liberation
of hydrogen or deuterium at the Anode by loss of the electron from H-
or D- Anion.
Lithium Hydride (LiH) or Deuteride (LiD) forms at about 500 C and
melts with a vapor pressure of about 25 Torr at 680 C.
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