[NewCandle] Role of Glass and Trioxin

[Keith Nagel]

Oops, hit the send button by mistake.

Triox is these guys?

http://www.macraesbluebook.com/search/company.cfm?company=686389

They're privately held.

Here's what US patents I could find assigned directly to Triox

5,385,874  Ceramic compositions  
5,302,258  Method and apparatus for separating oxygen from a gaseous mixture  

These three guys seem to be "it" in descending order...

Renlund; Gary M. (Salt Lake City, UT),
Syammach; Mustafa A. (Salt Lake City, UT) 
Mackerell; Richard R. (Salt Lake City, UT),

Gary Renlund has been around a bit, here's what he's been granted in the US.

7,172,813  Zinc oxide crystal growth substrate  
7,161,173  P-type group II-VI semiconductor compounds  
7,141,489  Fabrication of p-type group II-VI semiconductors  
6,672,219  Low observable ammunition casing  
5,441,610  Oxygen supply and removal method and apparatus  
5,385,874  Ceramic compositions  
5,302,258  Method and apparatus for separating oxygen from a gaseous mixture  
5,180,694  Silicon-oxy-carbide glass method of preparation and articles  
5,041,248  Process for making fine diameter ceramic fibers using a moldable ceramic composition  
4,981,820  Cellular silicon-oxy-carbide glass from foamed silicone resins  
4,571,414  Thermoplastic molding of ceramic powder  
4,551,496  Thermoplastic molding of sinterable silicon carbide  
4,551,436  Fabrication of small dense silicon carbide spheres  
4,530,808  Binder removal from thermoplastically formed SiC article  

And what was/is in the hopper.

20050287817 Low dielectric constant zinc oxide  
20050285138 Persistent p-type group II-VI semiconductors  
20050285119 Dynamic p-n junction growth  
20040235214 Fabrication of p-type group II-VI semiconductors  
20040234823 Zinc oxide crystal growth substrate  
20040232427 P-type group II-VI semiconductor compounds  
20040232412 Group II-VI semiconductor devices  
20040196538 Rare earth compounds having photo-luminescent properties and applications thereof  
20040159903 Compounds and solid state apparatus having electroluminescent properties  
20030127011 Low observable ammunition casing  

It does sound intriguing, but as you say a little kooky. Whatever his
battery is, you can bet it involves semiconductors (grin).

Thanks for the tip re: glass, Jones also complained of this in
his/their peroxide generating experiments. 

K.


-----Original Message-----
From: newcandle-bounces at ipdiscover.com
[mailto:newcandle-bounces at ipdiscover.com]On Behalf Of Nick Reiter
Sent: Thursday, February 08, 2007 3:52 PM
To: New energy for the new world.
Subject: [NewCandle] Role of Glass and Trioxin


Yet another wee update from the world of aluminum -
aluminum hydrolysis and bubbles after death... this
time in the form of a caveat for CF devotees on a
budget.

Last week, I set up a baseline version of Sam Faile's
twisted aluminum foil electrode - in - water reactor,
and set it running at 110VAC with all pristine
conditions and no water additives - distilled H2O
only, fresh from the roll foil, fresh mason jar.  In
theory, it should simply just have sat there as mega
resistor, possibly with some small 60 cy displacement
current I suppose.  Well, it took about 52 hours, but
I finally began to get a little conductivity, and some
hydrogen bubbling began to take off.  In about another
day it was behaving similar to the jar reactors Sam
had been running with before, with bubbling peaking a
good 3 to 4 hours after power off.  I chalked it up to
very slight leaching of aluminum ions from the foil,
cascading until the electrolysis was up to steam.

Sam, however, did a similar test but substituted an
alcohol cleaned polyethylene snap lock food tub for
the mason jar.  A week later, no electrolysis or
bubbles until he added a little electrolyte in the
form of some boric acid and table salt.

Moral of that experiment seems to be watch out for
soda lime glass as a contributor in exotic
electrolysis, anode glow, or cold fusion type
experiments.  I would not have thought it, but there
appears to be some potential after all for
contribution of ionic species from experimenter's
mason jars - even super cleaned fresh ones.  I would
presume that borosilicate or quartz would be more
inert.

In completely different news, the other day, an
unsolicited FAX showed up on the machine here at the
lab from a place calling itself Triox Technologies, in
Salt Lake City.  The sheet was a one page suspiciously
over-vague sales pitch for "Nuclear Magnetic Spin
power cells" that have been in development, and can as
of now put out up to 100volts DC at ten milliamps.  I
haven't given them a call yet, though a seemingly
legit phone number and address was provided, although
they don't appear to have a website.  A quick Google
sez there is such a place though, and their area of
business is supposed to be ceramic filters and solid
oxygen permeable conductors for fuel cells.  Nuclear
Magnetic Spin cells?  Salt Lake City?  Thats enough
there to start down a very surreal road.  Sounds like
bat country, though.  Anyone hear o' this outfit?

NR




 
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