On a side note, it's interesting to me that emerging memory technologies currently seem to be mainly focused on addressing the "from-DRAM-to-disk" part of the memory hierarchy.
That is, as you mentioned, not directly competing with DRAM, and consistently on the same side of the 1 microsecond dividing line between memory and storage; as in:
As far as the other side of the line is concerned, I think I've only seen proposals for hybrid-cache architectures (HCA) -- other than http://link.springer.com/chapter/10.1007%2F978-1-4419-9551-3... -- with a hybrid approach (e.g., combining SRAM/eDRAM/STT-RAM/PCRAM) probably making sense due to latency/endurance/bandwidth trade-offs.
If anything, there seems to be more development on the DRAM interface itself -- with multiple candidates for the (or a) DDR4's successor, so far involving Wide I/O (Samsung), Hybrid Memory Cube (Intel, Micron), High Bandwidth Memory (SK Hynix, AMD, Nvidia): http://www.extremetech.com/computing/197720-beyond-ddr4-unde...
It's fairly recent development, though, and it remains to be seen how is it going to fare.
Other than the above, there doesn't really seem to be much progress around competing with/improving SRAM. However, this may become increasingly important, since some of the technological process scaling issues apply to SRAM, too.
That is, as you mentioned, not directly competing with DRAM, and consistently on the same side of the 1 microsecond dividing line between memory and storage; as in:
http://www.rambusblog.com/2015/10/15/mid-when-memory-and-sto... (note SCM placed between DRAM and SSD)
http://semiengineering.com/the-memory-and-storage-hierarchy/
As far as the other side of the line is concerned, I think I've only seen proposals for hybrid-cache architectures (HCA) -- other than http://link.springer.com/chapter/10.1007%2F978-1-4419-9551-3... -- with a hybrid approach (e.g., combining SRAM/eDRAM/STT-RAM/PCRAM) probably making sense due to latency/endurance/bandwidth trade-offs.
If anything, there seems to be more development on the DRAM interface itself -- with multiple candidates for the (or a) DDR4's successor, so far involving Wide I/O (Samsung), Hybrid Memory Cube (Intel, Micron), High Bandwidth Memory (SK Hynix, AMD, Nvidia): http://www.extremetech.com/computing/197720-beyond-ddr4-unde...
(Latency and bandwidth improvements seem promising, http://semiengineering.com/which-memory-type-should-you-use/)
One interesting development I've seen involves reducing SRAM's footprint, by moving from 6T (6-transistors) cell to a 1T (one-transistor) one: http://www.eetimes.com/document.asp?doc_id=1328453
It's fairly recent development, though, and it remains to be seen how is it going to fare.
Other than the above, there doesn't really seem to be much progress around competing with/improving SRAM. However, this may become increasingly important, since some of the technological process scaling issues apply to SRAM, too.