What is the substance with the highest specific heat?

Question

I always learned that water has the highest specific heat, but I recently saw that hydrogen has a specific heat as high as $\pu{14 cal g^-1 °C^-1}$ and helium has a specific heat of $\pu{5 cal g^-1 °C^-1},$ which would be much higher than water? Is this true? and how can it be if there are so many “proofs” in nature, showing that water has the highest specific heat?

Answer 1

This may not be the absolute highest, but on a mass basis hydrogen gas has more than three times the specific heat as water under normal laboratory conditions. Diatomic gases under ambient conditions generally have a molar specific heat of about $\pu{7 cal mol^-1 K^-1},$ and one mole of hydrogen has only $\pu{2 g}$ mass. Thus $\pu{3.5 cal g^-1 K^-1}$ for hydrogen versus $\pu{1 cal g^-1 K^-1}$ for water.

Helium, contrary to the question, is $\pu{5 cal mol^-1 K^-1},$ not $\pu{7 cal g^-1 K^-1}.$

Answer 2

Since we are really interested in the heat effects of a liquid at somewhat normal temperatures. I am going to disregard the extremes displayed by diatomic gaseous elements and look at liquids at stp. For years water was considered the champion, but I reasoned that the more massive heavy water would show an even greater resistance to the transfer of heat motion. Not only is duterium based water higher but it appears that tritium based water is even higher.