One thing to remember: You can't pull extra resolution out of nowhere. When you scale up an image, you can have either a blurry, smooth image, or you can have a sharp, blocky image, or you can have something in between. Better algorithms, that appear to have better performance with specific types of subjects, make certain assumptions about the contents of the image, which, if true, can yield higher apparent performance, but will mess up if those assumptions prove false; there you are trading accuracy for sharpness.
There are several good algorithms out there for zooming specific types of subjects, including pixel art,
faces, or text.
More general algorithms for sharpening images include unsharp masking, edge enhancement, and others, however all of these are assume specific things about the contents of the image, for instance, that the image contains text, or that a noisy area would still be noisy (or not) at a higher resolution.
A low-resolution polka-dot pattern, or a sandy beach's gritty pattern, will not go over very well, and the computer may turn your seascape into something more reminiscent of a mosh pit. Every zoom algorithm or sharpening filter has a number of costs associated with it.
In order to correctly select a zoom or sharpening algorithm, more context, including sample images, are absolutely necessary.