For sata/sas with PLP there really has not been a lot of advancements in the enterprise space.
Well, no, there hasn't been. Basically there was a point where SATA hit the approximately-6Gbps mark, the SATA-IO (the industry org) couldn't be arsed to figure out how to make it go faster, and NVMe became more attractive for the ability to go to multiples-faster rather than to just the next presumed SATA tier of 12Gbps. SAS has made that jump, but primarily for SAS expanders and disk shelf capabilities. While there are lots of both HDD and SSD's capable of 12Gbps, the demand just isn't there. 24Gbps SAS (and a few SSD's) exist, but it really seems like a dead end technology except perhaps for disk shelf attachment.
SAS now sits between SATA 6Gbps and NVMe (PCIe3 and 4) as this weird niche product that isn't likely to see ginormous uptake, so the amount of advancements in the space is not that great. SATA SSD is now bulk storage, NVMe SSD is performance storage, the people who used to be excited about ~6Gbps SATA SSD's half a decade ago moved on to NVMe and then to Optane and even lands beyond. In 6Gbps-land, you're just going to see boring iterative products like the Samsung 850 Evo -> 860 -> 870. The occasional unicorn like the 8GB 870 QVO will still make a mild splash now and then (and reinforces that SATA SSD is headed for bulk storage). And SAS SSD ... well... uh I dunno. I can't see a serious mainstream use case.
There's still the stuff like the
Nimbus 3.5" 100TB SSD, for the cost of a halfway decent car, or
Samsung's 30TB PM1643a 2.5" drive for about $8K. Of the two, the Samy makes some sense if you wanted to load up a Supermicro
SSG-2028R-NR48N with 50 of them and cram 1.5PB of storage into 2U. This seems like it makes 30PB in one rack an achievable goal... if you can afford $8 million.
I'm sorry if that's depressing or distressing, but I feel like it's the most honest answer to your question.
