Its probably best to make sure we understand the physics behind this comparison This gets the comparison away from opinion and anecdote and onto a solid technical footing. From a mechanical engineering POV (which is my training) the comparison is pretty simple. It is based on energy storage capacity and the efficiency of energy conversion to motive power. These factors dictate how much power you can extract and thus dictate speed and range.
The difference between an electric and IC outboard is primarily a difference in how the energy is stored and then converted to propulsion. An electric motor is more efficient at energy conversion, about 90%, than an IC engine at 20-35% (I use 25% in calculations). An Otto cycle engine will vary efficiency depending on load, they're most efficient at full power. An electric doesn't care much.
However this is only half the story, the other half is energy storage. In this batteries suffer. The best current batteries, Li-Ion, have 50-250Wh/kg of energy density with 100Wh/kg appearing to be typical of what's on the market (higher density get into cooling requirements). This looks good compared to lead acid which are 30-50kWh/kg. However, gasoline is the equivalent of 9444 Wh/kg. There is an additional confounding since you can't pull all the energy out of a battery as you can with a liquid fuel. So using round numbers you need about 250lb of battery for each equivalent gallon of gasoline (depending on how far down you can pull the battery this could increase a bit, if batteries improve some it goes down a bit)
The comparison that drives range and speed is the available energy times the efficiency of energy conversion. Based on this gasoline provides 10-25 times more available propulsion energy per unit weight of energy storage than state of the art batteries, even with the lower efficiency of the IC engine. The higher number is actually more realistic today without cooled batteries.
None of this is intended to dismiss E-outboards out of hand but to allow one to make a comparison on an equivalent basis. Based on the physics it is impossible to say an e-outboard is equivalent to an IC outboard overall. The limitation on going up on power for a e-outboard is fundamentally the battery weight. The equivalent of a 6 gallon tank of gas that is 50lb becomes about 450lb (compensating for energy conversion efficiency of the motors otherwise you're at 1500lb). Hence the tendency for e-outboards to be lower power since then you can keep the battery weight compatible with the capacity of the dingy and the ability to bring the battery aboard the main vessel for charging. Obviously this comparison will continue to improve as battery technology evolves with solid state being the next horizon, we'll have to see what that brings us.
