https://gab.com/boxoffrogs https://www.bitchute.com/channel/6Slcf1bDEBd8/ https://rumble.com/c/c-2352810 https://odysee.com/@HNiCC:1

In response The Mac to his Publication

Except it's not silver iodine... it's aluminum, strontium, and beryllium... all much cheaper and much more toxic.

https://gab.com/boxoffrogs https://www.bitchute.com/channel/6Slcf1bDEBd8/ https://rumble.com/c/c-2352810 https://odysee.com/@HNiCC:1

In response Mr. Boxoffrogs to his Publication

Weather made here...

In response Mr. Boxoffrogs to his Publication

Silver nanoparticles produce a stronger plasmon resonance than gold nanoparticles it can be due to the large reflectivity from the metal surface. TEM images indicate that change in the size of nanoparticles with increasing the laser fluence is in good agreement with the Mie theory.

https://gab.com/boxoffrogs https://www.bitchute.com/channel/6Slcf1bDEBd8/ https://rumble.com/c/c-2352810 https://odysee.com/@HNiCC:1

In response The Mac to his Publication

The list of common ferrous metal properties include: Durable Good tensile strength Good electrical conductivity Low corrosion resistance Silver in colour Recyclable Usually magnetic Ferrous metals can include a wide range of different alloying elements, including chromium, nickel, manganese, molybdenum, and vanadium, manganese. Are we going down a climate change rabbit hole here? Silver is too expensive. They are using exactly the metals found in the rainwater samples, appearing as Aluminum, Beryllium and Strontium. It has killed several species of plants in my yard both here and in Maryland where I lived when this program began. https://youtu.be/Zbkwjno7TLY

In the End - Rush - YouTube

Baltimore Skies last few months highlights. :-)

In response Mr. Boxoffrogs to his Publication

hold on..

In response The Mac to his Publication

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In response The Mac to his Publication
In response The Mac to his Publication
In response The Mac to his Publication

Coal is the most abundant and readily combustible energy resource being used worldwide. However, its structural characteristic creates a perception that coal is only useful for producing energy via burning. Here we report a facile approach to synthesize tunable graphene quantum dots from various types of coal, and establish that the unique coal structure has an advantage over pure sp2-carbon allotropes for producing quantum dots.

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