Your concerns about file corruption and so-on should probably be handled in layers. Where are the errors occurring? Is it getting corrupted in transit? Then you need a more robust communication protocol with some form of error detection or correction. And this is something you would solve for the general case of transmitting bytes, not something specific to your file format. Any solution that can guarantee that bytes-over-sent == bytes-over-received is going to work for you out-of-the-box and allow you not to worry about that problem any more in the rest of your code.
Likewise, if the file corruption is happening in storage, then store it with higher error-detection and error correction. Whatever internal structure your file(s) have, they're still just a sequence of bytes. Error correcting codes such as Reed-Soloman work to make sure errors in sequences of bytes can be detected and corrected to some definable threshold percentage of arbitrarily corrupt data. CD-ROMs use this to be able to store data such that even big scratches on the disc, which DO interfere with reading by the laser, but allow you to read the original data anyway.
Note that error-correction and compression are kind of at odds with each other. Error correction (efficiently) uses redundancy to detect and recover from errors. Compression works only by eliminating redundancy of the compressed data - if there is no redundancy in the file, compression doesn't work - that's why you can't compress an already-compressed file.
If you've got crappy, failing hard-drives then replace the drives! That's not normal! Or use fault-tolerant RAID configurations.
With that corruption issue out of the way, you can focus on the still complex way of storing the data
Realize that file formats are layered. You can create a new file format on top of XML just as you encode XML as a plaintext file. For your purposes at least, XML isn't a file format, it's just a "medium".
You should decide the abstract idea of WHAT needs to be stored before you can worry about encoding that in a binary format vs XML vs some other custom text-based format. And if it's text-based, you can later worry about ASCII vs Unicode (and what flavor!).
Microsoft Office can be used to illustrate this concept. (The following used to be true, if it isn't still). You can save a word document as a binary .docx or an xml-based .docx. They both contain the same information (we hope) but one is in XML and one is in their custom binary format. The binary format has the SAME data - just encoded differently. AND ... just because you have a program that can read XML doesn't mean that it can do any meaningful Word-like operation on that XML data. You could maybe, because you could infer something about the structure of the document to find and change "Sincerely," to "Thank you," in your letter but the XML editor program would have no such feature to automate that change since it doesn't understand the DOCX file-format. That's just like opening an XML document in Notepad - pain.
Further, other Office files, like InfoPath use the .cab compression format (like .zip), just with a different file extension. There's a lot of stuff that you can just rename to .cab and then explore. For InfoPath, you'll see all the component files within.
I'm just trying to illustrate that you should break the problem down into independent concerns and solve one at a time rather than trying to do it all at once. The benefit is a simpler format and probably that you don't have to write it all yourself because general solutions exist for many of the layers you need.