SiliconWizard and floobydust highlighted the problem I have with this kind of "research".
I know from experience how difficult it is to get
any kind of support for genuinely new, useful research. Those with their hands on the purse strings
need publicity. Here in Finland, they prefer to (exclusively) support research that is already being done elsewhere. Not to be first, or support or compete with others, but only so that they can say that the research they support is at the forefront of science.
Because the only metric used is the number of publications in high-ranking academic papers, the quality of said papers is in steep, continuous decline. Not only are an increasing fraction of papers being shown to be incorrect or invalid later, but even the experiments they claim to be based on are increasingly difficult to duplicate. Even in physical sciences, more than a quarter of papers end up being retracted or later shown incorrect. (In humanist "sciences", that fraction is already over half the papers; with many authors forming clusters that only refer to each other. Meta-analysis of the literature, especially directed graphs of the citations, shows a very dire picture of the "science".)
The experiment/demonstration in this
featured article is laughable. They didn't even use a standard commercial panel, only a tiny 153 cm² one (that's less than five inches square, or something like 9 cm by 17 cm). There is no
merit in this paper, only very good writing (as in how the statements are constructed to evoke emotions in the readers; psychology).
If this kind of crap is selected as a featured article, consider what kind of "scientific furor" would be raised if someone bought a commercial photovoltaic panel, say one or two square meters (I forgot what the size of the individual panels Dave uses is), and then combined one of the commercially available
solid-state battery technologies, by laminating a few cells on the underside of the panel, forming a combined solar cell battery. Pick a chemistry that is more or less safe (chemically, so avoid carcinogens and such) and benefits from the heat from the solar cell (say, adding mobility of charge carriers). You'll probably need a budget of say USD 1000 to get all you need, but it's all commercially available, and you only need to do a couple of days of research. Then, find yourself an accomplished scientific writer –– the ones at Stanford that helped those guys are
seriously good, just look at how not only is each sentence in the paper quite well constructed, but the entire paper has the classical structure, with all weaknesses visible, but cleverly side-stepped; consider the "orders of magnitude claim"! –– and become the sole author of a future featured paper in a leading journal.
That battery chemistry does not even need to be at all efficient, only good enough that you can show "orders of magnitude" improvement over the article in this thread, and gush about the rapid evolution in the technology and science in this field. (That is important, because that gives you the place to use the manipulative sentences and wording that will get you research grants in the future. The idea is not to put yourself at the forefront, but show that this is the field where grants should be directed at.)
See? There is almost nothing "scientific" about this. It is pure human social gaming, pure psychology, using already commercially available and perfectly well known technologies, to push a
narrative about "science". It is, in a very real sense, a
parody of real science.
Now, if somebody actually did some materials research on how to combine the solar cell with light weight solid-state battery technology that took advantage of the couple of degrees Kelvin/Celsius difference between the panel and ambient air – more during the daytime, so perhaps an opportunity in the charging (high difference) – discharging (low difference) chemistry? –,
that would be interesting. However, that kind of paper is exactly the kind that goes unpublished or ignored for years, because it takes sense and intelligence to realize its potential. If the University realizes its worth before publication, they'll partner with a company, so that instead of publishing the tech, they license the technology for a high fee instead.
It's just like the situation with patents in most fields. They were intended to ensure the invention will eventually reach the markets, but in actuality, are used for the exact opposite purpose: to hinder competition in the field for as long as possible. Most patents nowadays are never used in actual products, and are only taken to be used as a litigation threat against competitors!
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