I guess a ESD degraded LED could work okay, but may fail suddenly in use or have a shortened life time. Someone here mentioned the nichia test, but I could not find the document.
I did some of my own experimenting by holding a LED by one lead with pliers ,shuffling my feet across the rug and touching the other lead to a light switch screw. There is a tiny, faint snap of discharge and it always affected the white LED in the following manner:
Some LEDs would no longer light at normal operating current. These would also now conduct in reverse bias. Apparently ESD causes a conducting "channel" to form. I found that giving them a quick burst of high current at forward bias, 100ma or even a full 6v (no resister, very quick burst so not to burn it), will "remove" the conducting channel and the LED is restored to normal operation (most of the time). Some lost their ability to light at currents in the hundreds of microamp range.
I'm interested in the nature of this ESD induced conduction "channel" and the Nichia article.
I did some more tests by shaking them around in a non antistatic bag and a few other experiments with low static fields.
So far, I've reached the following conclusions of indium gallium nitride blue LEDs (white with phosphor):
They can be degraded/destroyed by improper handling due to static discharge. Although they may be recovered, the longevity of the degraded LED is unknown. I don't have the equipment to check the luminosity of the restored LED, but it seems full brightness visually.
Since the LEDs have a small reverse leakage current, weaker induced static charges simply conduct and even the potential across the leads causing no harm.
It is the sudden snap of static discharge at the higher currents that damage them, so it is important to use a grounding strap on your wrist before handling them. Using antistatic bags does not seem to be necessary due to the reverse leakage as described.
