Create a 11 pages page paper that discusses stability of methane clathrate hydrates under pressure.
For many years, Ammonia has been viewed as an extra-terrestrial space in both the moons and comets, outer and interstellar planets, and the network of ammonia, water, and methane has been studied by many scientists. Ammonia’s primary role has been that of being an anti-freeze agent for the formation of clathrate hydrate and ice and being a modifier in stabilizing the solid ice and the phases of methane clathrate as a thermodynamic inhibitor (Barbieri 57).
 .Even though ammonia is a molecule made of methane, it should be noted that it is suitable for housing the clathrate hydrate cages. There are, however, issues that may bar ammonia from being used as an ideal guest for the clathrate hydrate cages, such as the assumption that guests need to hydrophobic for them to be combined into the clathrate. It has been previously observed that many stoichiometric non-clathrate stages of water and ammonia are obtained when it cools in the aqueous solution of ammonia. Initial experimental work regarding the linkage of water and ammonia and water. Ammonia and methane showed evidence of ammonia enculturation. Still, when keenly analyzed again, the high pressure of the ammonia monohydrate and low pressure of the ammonia dehydrate reveal the presence of standard structural features with semi-clathrate structures and canonical clathrate (Heriot-Watt 113).
In recent years, there have been molecular simulations and structural analyses conducted. They have indicated that few guest molecules responsible for creating powerful hydrogen bonds with the water compound in the clathrate hydrate lattice can produce stable phases. It has led to a section of scientists considering ammonia as a potential guest molecule for a clathrate. Additionally, research that was conducted earlier coupled with computational studies think that in the gaseous state, water creates dodecahedral cages surrounding ammonia ions and ammonia, and these structures may be used to point to a tendency that is geometrical in nature of the clathrate hydrate structures being attracted to the ammonium and ammonia molecules.