Technology

microgeneration purely in DC only really makes sense in stuff like campers and RV's where you're going to be using primarily nearby, low power consumption devices.

AC is still better, plus modern switching technology while still fairly expensive, is considerably more efficient now. If you're doing AC you also get a number of other benefits, notably, literally every existing appliance and device uses and works with AC voltages, the entire standard around electricity and home wiring is based on AC mains, all of the accessible hardware is also produced for AC mains, not that you can't use it for something else, it's just not intended for that.

Certain appliances will use induction motors, and similar other tech (clocks for example, often use the frequency of the power grid to keep time) based directly on the AC sinewave. You could still run them on DC, it's just significantly sillier. Plus transmission efficiency is a BIG loss in DC (even now with modern solid state switching components, it's still just, not ideal), granted thats less of a problem on a micro grid scale, it's still a concern and potential restriction, nothing beats the simplicity and reliability of a simple wire wound iron core transformer. There are a handful of other technical benefits, and drawbacks as well, but fairly minor.

Having a dedicated DC supply side might be nice for a home environment, but the question is what do you standardize on? DC/DC voltage conversion is fairly efficient as it is already. Converting from AC/DC is incredibly easy and not particularly inefficient at lower power consumption, it's more of a problem with higher draw devices. But you can easily get around that by using a higher voltage to convert down from.