This approach minimizes the most expensive operation on a disk drive, moving the reader head. Disk speeds are rated by two basic mechanical constraints. One is how fast the platters spin which sets an upper bound on the data transfer speed. That's fixed. And how fast the read head can be moved to another track. The seek time, a fat dozen milliseconds to move it by one track is typical. A very long time in cpu cycles. Which makes the order in which you access disk data very important. Constantly jumping the reader head back-and-forth between the directory records and the file data clusters like you did originally is very expensive.
To what degree the data on the disk is fragmented is also very important, the reason defrag utilities exist. A drive that sees a high rate of files getting created and deleted tends to get fragmented quicker. The higher the fragmentation rate, the more disk seeks you'll need to read data from the drive.
By reading the directory entries first you can avoid a lot of seeks. They are localized in an area of the drive called the MFT, physically close to each other so far fewer long seeks. You'll read them again when you actually start copying the files, but this time they come from the file system cache. Stored in RAM when you scanned the directories the first time. So no need for an expensive seek back to the MFT.
Also notably the reason why SSDs work so much better than mechanical drives, they have a very low seek time.