Josiah said:
question about fusion snipped
I know you are keen and want to make positive suggestions. But it's necessary to do this sort of thing with more knowledge. It's hard for me to give you an example because I don't know what subjects you are familiar with so you would see things from my point of view.
But imagine a 9 year old child asking "why can't the gas in a car be special gas that makes it go faster?"
Here is a very intro-level article on fusion. Scroll down and you will see a graph that shows that fusion really gets going at a few 100 million degrees K. No material structure is going to hold that.
https://en.wikipedia.org/wiki/Nuclear_fusion
So there are a number of approaches that people are pursuing. One is magnetic confinement. There are a number of variations on the theme of a magnetic torus that will, it is hoped, confine the plasma long enough to get useful amounts of energy.
https://en.wikipedia.org/wiki/Tokamak
Another approach is intertial confinement.
https://en.wikipedia.org/wiki/Inertial_confinement_fusion
The basic idea is to blast a target with lasers, and heat it fast enough that it does not have time to fly apart before some fusion takes place.
There are some other approaches. The folks at General Fusion are working on an interesting approach of using collapsing metal to compress a "smoke ring" of plasma. There are a lot of engineering challenges, but it's interesting. At the very least it will be an interesting research tool if they can even get it to pulse once an hour.
https://generalfusion.com/https://en.wikipedia.org/wiki/General_Fusion
There are several other potential methods that you can read about in the first wiki article I linked.
Most of these approaches are looking at producing very hot and very high pressure plasma. A very few are doing other interesting things such as trying to use muons or even more exotic materials.