Yeah, I don't believe that for a moment.
The statement is hyperbolic, but the sentiment is there.
Everything else being equal, spreading your data across more devices increases the probability of failure. An AID-0 array of 16x1TB drives is almost certainly more prone to failure than one 16TB drive.
In the case of SSDs, unlike HDDs, it's not like the larger ones have higher data density. They just have more NAND chips. I have more confidence in SSDs since we've increased chip capacity by stacking cells, instead of using smaller cells. The primary problem with large SSDs is when they fail, you lose a lot of data.
It's probably more complex than that. The failure of an SSD is some function of the failure rates of the controller and the individual NAND chips. Since drives in any given generation use similar density NAND chips, an individual NAND chip is not more likely to fail based on the size of the drive. However, larger drives use proportionally more NAND chips. If the controlling factor is the failure rate of the NAND chips, then a 16TB drive probably has about the same reliability as 16 1 TB drives. If controller failure is the controlling factor, then the larger drive is more reliable.
There are more PCBs, more solder joints, more of pretty much everything to fail (except perhaps for NAND chips).
I can't say I have a ton of experience with RAID setups, or with dealing with drive failures (though today Samsur's drive finally bit the dust, kind of surprising considering how low-hours of a unit it was, but there you go I suppose) but I given the language in use here I assume rebuilding the array does take an awful lot of time, so maybe they're onto something for the moment. Is nVMe RAID a thing yet? I imagine that would make the sting of failure much less of a problem.