[moffkalast]

> 1330 megajoules of energy

Which would be about 370 kWh, at 8% efficiency at best that would be 30kWh, or about a kWh a year. The average phone uses about 2 kWh per year, so 2 grams + a suitably sized battery for spike draws could potentially hack it.

Of course the suggested smartphone use case is probably the single worst possible application for these things. We literally carry them on ourselves constantly, trash them every few years at most and usually keep them within range of a power outlet. Outer solar system cubesats, underwater gliders, arctic weather stations, etc. may be better ideas. Places where solar isn't viable.

[vlovich123]

> We literally carry them on ourselves constantly, trash them every few years at most and usually keep them within range of a power outlet.

I mean if we’re legit trashing the phone, is that radioactive material actually worse than all the other toxic materials in a phone including the lithium ion battery?

Saying “nuclear radiation scary” and leaving it at that doesn’t actually tell us as the radioactive material matters a lot (eg plutonium is chemically toxic separate from its radioactivity and while short half life radiation is more dangerous than long in the abstract, the specific decay products matter a lot).

Besides, the battery could easily retain its value well beyond the use of the phone which would encourage harvesting rather than trashing (if you force a standard battery connection there would probably be a large thriving secondary market).

[marcosdumay]

There isn't a lot of toxic material on a modern phone.

The thing about radioactive material is that you need very little of it to become a serious contaminant. But as the thread is about, you also actually need very little of it, so it really doesn't look that out of place.

Another issue is that radioactive material emits energy, what is harder to handle than inert contaminants. You don't want all of that trash with uncontrolled material to catch on fire.

That said, I do agree that our previous carelessness around things like lead and mercury were much more harmful. It's just that we are best careful with both, and the past actions do not excuse doing a harmful thing now just because it's less harmful.

[vlovich123]

> There isn't a lot of toxic material on a modern phone.

That “a lot of” is doing a lot of work in that sentence. By mass? By how toxic it is to humans or the environment?

This is pretty old and I know the industry has tried to eliminate a lot of them from the phones so I don’t know what the current state is: https://www.cbsnews.com/news/study-finds-phones-still-contai...

Here’s an article about research showing that toxic materials in screens are leeching out even during normal use: https://www.cbc.ca/news/canada/saskatoon/research-sask-chemi...

Finally, the chemical processes involved in the manufacturing of the phones themselves also involves large amounts of toxic materials which is still challenging to manage even if it’s centralized (it’s just an “over there” problem because we outsourced a lot of manufacturing).

As for the rest, it’s unsubstantiated hypothetical fears. Really the only risk you actually call out is fires but ignore that, for example, lithium ion batteries aren’t inert either and can also cause fires when damaged. You need to compare and contrast risks correctly, not just worry about hypothetical scenarios and use radiation as a scary boogeyman when it’s actually a significantly more nuanced topic.

As I said, if the battery remains useful, it improves the purchase price of a phone to be discarded because the battery can be recovered and resold for another device which improves the story vs traditional batteries that we basically trash after a few years.

[marcosdumay]

On your first link: "Overall, newer phones were less toxic than their older counterparts".

That's the thing, unless we have a very good reason, we should improve things, not make them worse.

Also, the stuff your second link talks about lasts for a decade or two at the environment, and then it's gone. While the fire risk of batteries lasts for a year or so.

A very good recycling program is a way to use make widespread use of those things. A very good protocol for handling them as trash is also one. But just landfilling them in mass isn't.

[vlovich123]

You have to take a systemic view. Fewer batteries going into the landfill and not needing any of the toxic industry involved in making those batteries could very well be a better trade off, especially since the battery can be reclaimed and repurposed elsewhere. I think this “it has to be an improvement on all fronts” attitude is actually harmful to making forward progress. And “less toxic” is also information-free because it’s not quantified nor is it a systemic analysis because that kind of analysis is quite hard to do. So yeah, it’s very possible that a radioactive battery is net better than chemical ones. It might bring new challenges but that’s true of all tech improvements.

[yterdy]

There are also probably ethical concerns wrt devices that can run a human lifetime without intervention. You gonna put weapons on any of those? (Someone wants to.)

[moffkalast]

> You gonna put weapons on any of those?

Quite right Mr. Bond, a fleet of wake homing betavoltaic glider torpedoes that once launched will disperse into the world's oceans and make them an unsailable for the next 50 years. People will have no choice but to move the world's freight with my heavy lift zeppelins or suffer the consequences. And speaking of consequences Mr. Bond... it seems your luck has run out for the last time.

[lazide]

Anyone who wants to won’t care about ethics. And anyone who wants to make money wouldn’t bother to consider someone repurposing an existing one for that purpose until it made such a big mess the gov’t got involved (generally).

That said, ITAR is a huge hassle, and threatening to put something on it would get a manufacturers attention.