They lose efficiency over time, and I expect 10yr old ones are far less efficient to start with compared to what is available now.

They don't just stop working though as far as I'm aware.

Mine are coming up to 25 years old. They were 190w when new (modern stuff is easily 400w +) .... I still struggle to see the economic benefit to replace them with new ones.

This is a snapshot of the yearly output from my panels in kwh, judge for yourself

Panel failures are not exactly unknown.
I don't have any stats to hand, but a mate of a mate does work for solar farms and they change out duff strings of panels from time to time.
There's a chap with all his solar data online, in Newquay, Cornwall, I think one string of his failed quite early on.

I'd guess a fair number of the failures are wiring or poor installation.
If you've got active hardware like micro-inverters or optimisers out in the rain, these will have failure rates.
Storm damage may be a risk?

People using panels on boats give them a hard life and see more failures as you'd expect.

The failure rate of well installed panels is probably 'quite small' but certainly is not zero.

Then you've got people upgrading to more powerful arrays.

People I was at college with have bolted panels to satellites and flung them into space, where they are very reliable, because they never get touched by oiks with white vans.....

Mine are 13 years old now, and aren't significantly down on what they produced when new.
An ideal summers day gets me about 23-24 KWH compared to 26 at their best, and I'll see about 3.3 KW rather than 3.6 as a peak.

The installers advised that they'd still be producing about 85% of new values after 20 years so that seems on track, and it's been more than offset by the increasing FIT rates. They did say it was more likely that the inverter may fail in that period, but it had a 10 year warranty on it and will almost certainly explode now I've tempted fate.

Panels have definitely got more efficient over the years as mine were 250w but I think a similar size now might be 400w, so it's not out of the question that it's cost effective to replace an older installation, especially if you are getting batteries installed at the time.

Interesting responses.

The panels were filthy tbh, looked like lichen all over them.

Not quite sure I'd want to be raising capital for replacement of 10-15 or so solar panels being replaced.

Re reading the 1st line, you are right. I did. I'd add they are still not far more efficient - they've got better, but the changes are not big. Not like someone has posted above.

The real changes have been "back contact" panels where all the metal conductor strips are moved to the back , so you gain all that space on the front (which can be quite significant) - more silicone = more power in the same space. That and some very high quality cells like Sunpower. But the efficiency gains of actual silicon haven't changed a huge amount.

There is a real chance the OPs neighbour bought polysilicon panels back in the day as they were the affordable option whereas mono panels are significantly more efficient per quare metre - poly panels are not common these days.