These generally - as the article indicates - have the issue that they aren't just sensitive to CO2 but virtually anything else.
You could maybe get by with some sort of antibody coagulation stuff like in many rapid test strips, but these are to my knowledge not reversible.
nikolayasdf123 11 hours ago [-]
anyone can explain why this is such a big breakthrough?
vibration powered electricity generator is not new, neither is CO2 monitoring. so what's the big deal?
dfex 10 hours ago [-]
More concerning - can anyone explain why there is such a variation in the results from the DC powered unit vs. the TENG-powered one? The graph at the bottom of the report shows a difference of 30-50ppm between both units when they are sitting side by side on the bench.
callmemclovin 3 hours ago [-]
That's in the normal range of accuracy of modern CO2 sensors, for example SCD40 from Sensirion is described with an accuracy of ±50.0 ppm ±5.0 %m.v.
jtrueb 33 minutes ago [-]
That’s if the voltage supply was stable and within electrical specs for a sufficient period of time. We can see this is a snippet 2 hours into the discontinous collection.
3.6V is the maximum value that the nrf52832 SoC can handle. I would suspect the VDD is variable.
zipping1549 8 hours ago [-]
I skimmed the original article and it only mentions the graph and says that it's "comparable to DC powered unit". I'm guessing < 100ppm difference is somewhat acceptable?
dfex 5 hours ago [-]
You might be right - it's just odd that it's always showing "more" rather than similar amounts.
Also, according to Claude[1] a 50ppm difference is equivalent to around 25 years current atmospheric carbon increase.
[1] "What is the normal range for background CO2 concentrations in the air?"
strogonoff 4 hours ago [-]
It’s crazy to think that many people alive today experienced a 30% increase in ambient atmospheric carbon dioxide concentration within their lifetimes.
freeone3000 40 minutes ago [-]
Not odd at all that it’s always showing more — sensor error is often biased. This is within the listed range though.
devmor 3 hours ago [-]
You’re missing some deeply important context there, which is that those measurements are for outdoor atmospheric CO2 only.
Average indoor air quality ranges from 400-1000 ppm CO2, with adverse mental effects starting to appear close to 2000 ppm.
In that context, you can see why a 50 ppm difference is marginal. This is why asking an LLM is not generally a great idea for understanding something - you need to follow it up with more research.
mschuster91 58 minutes ago [-]
The power consumption is the thing, these sensors usually run in the low-digit milliwatt range... and they managed to get it to run on a power generation of 0.5 mW, making the combination of both possible at all.
nashashmi 3 hours ago [-]
A low powered co2 monitor is likely a big deal. And one that fits to specific power generation systems is even a bigger deal.
ChemSpider 2 hours ago [-]
The challenge with CO2 monitoring is the sensor, not the electronics. Sensor accurracy and service life are key information.
It is easy to create a low power chemical CO2 sensors with a service life of a few weeks/months. Obviously not pratical for real world applications. So critical data is missing in this press release.
Climate change deniers like to argue that our planet would warm up no matter what, even without the greenhouse gas emissions that humankind is releasing into Earth's atmosphere.
Maliverno, however, says that the geological record doesn't suggest that this would be the case.
"There have been several campaigns in the past when researchers drilled into the Antarctic ice sheets and took samples from deep below the surface, reaching layers that are up to 800,000 years old," Maliverno said. "They analyzed the concentrations of carbon dioxide trapped in those layers. There are tiny air bubbles in the ice, essentially samples of the atmosphere as it was back then, and they found that even during the interglacials, the maximum amount of carbon dioxide was nowhere near the amount that we see today."
Moreover, Maliverno added, computer modeling studies that tried to reproduce the current climate change using only natural variables, such as the Milankovitch cycles, couldn't match the rate of warming we see today.
rkrisztian 39 minutes ago [-]
Anyone can put up an article on the net and claim they are right. I think what we need is bringing back the forests.
TehCorwiz 24 minutes ago [-]
I didn't reply with that information for your benefit. I replied to add context for other readers.
Either you have a specific claim against this publisher, article, or point or you don't. This is a respected science oriented publisher with interviews of scientists talking about their research in their own field.
fuzzy2 43 minutes ago [-]
You do realize that indoor air quality is also a thing, right?
rkrisztian 38 minutes ago [-]
Just open the window?
nashashmi 12 minutes ago [-]
When? When the indicators tell you that the CO2 is high. CO2 monitor is also used in industrial processes where ventilation is difficult and equipment is heavy. The monitor tells you when to leave the area.
53 minutes ago [-]
noisy_boy 12 hours ago [-]
Tangential/Spoiler: I came to know about Kaist (Korea Advanced Institute of Science & Technology) in the Netflix series Devil's Plan (season 2) which had two of its students as the top three contestants.
You could maybe get by with some sort of antibody coagulation stuff like in many rapid test strips, but these are to my knowledge not reversible.
vibration powered electricity generator is not new, neither is CO2 monitoring. so what's the big deal?
3.6V is the maximum value that the nrf52832 SoC can handle. I would suspect the VDD is variable.
Also, according to Claude[1] a 50ppm difference is equivalent to around 25 years current atmospheric carbon increase.
* Pre-industrial (1700s): ~280 ppm
* 1958 (when systematic measurements began): ~315 ppm
* 2000: ~370 ppm
* 2015: ~400 ppm (milestone crossed)
* Current: ~420-425 ppm
[1] "What is the normal range for background CO2 concentrations in the air?"
Average indoor air quality ranges from 400-1000 ppm CO2, with adverse mental effects starting to appear close to 2000 ppm.
In that context, you can see why a 50 ppm difference is marginal. This is why asking an LLM is not generally a great idea for understanding something - you need to follow it up with more research.
It is easy to create a low power chemical CO2 sensors with a service life of a few weeks/months. Obviously not pratical for real world applications. So critical data is missing in this press release.
From the article:
Climate change deniers like to argue that our planet would warm up no matter what, even without the greenhouse gas emissions that humankind is releasing into Earth's atmosphere.
Maliverno, however, says that the geological record doesn't suggest that this would be the case.
"There have been several campaigns in the past when researchers drilled into the Antarctic ice sheets and took samples from deep below the surface, reaching layers that are up to 800,000 years old," Maliverno said. "They analyzed the concentrations of carbon dioxide trapped in those layers. There are tiny air bubbles in the ice, essentially samples of the atmosphere as it was back then, and they found that even during the interglacials, the maximum amount of carbon dioxide was nowhere near the amount that we see today."
Moreover, Maliverno added, computer modeling studies that tried to reproduce the current climate change using only natural variables, such as the Milankovitch cycles, couldn't match the rate of warming we see today.
Either you have a specific claim against this publisher, article, or point or you don't. This is a respected science oriented publisher with interviews of scientists talking about their research in their own field.