Tuesday, July 24, 2012

Transparent solar cells: cool, but not world-changing

I've been seeing a lot of buzz about the visibly transparent photovoltaic cells developed at UCLA. The press release is here, and the ACS Nano paper is here (behind a paywall, sorry). This is very cool technology with some really interesting and useful applications, but some of the superlatives I've seen to describe it, like "this could change the world," make me think that people may not quite understand the capabilities of this technology.

Quite simply, you will not be able to put this on your windows and power your house. The efficiency, ~4%, is just too low, though it is typical of organic polymer PV. (For photovoltaic technology, the efficiency is the proportion of electric energy delivered by the system to the optical energy that was incident on the system.) For comparison, conventional flat panel silicon is usually around 15-20% efficient. On the low cost side of things, thin film panels are around 8-12% efficient, and on the high-cost side, multijunction cells are >40% You can see the record efficiencies in the chart below. (To be clear, these are the world records for various technologies, and only include the cell itself, not any other losses in a complete system. Commercial units have lower performance.)
(Image from National Renewable Energy Laboratory)

Why is the efficiency of the UCLA technology so low? Most of the reason is obvious: the cells are transparent. The paper cites the transparency in the visible spectrum as 61-66%, depending on wavelength. In other words, almost two-thirds of visible light is passing directly through the photovoltaic. This light cannot possibly be converted into electrical energy.

Furthermore, not all photons are created equal. The energy of a photon is proportional to its frequency. So, high-frequency ultraviolet light has more energy than visible light, which has more energy than infrared light. The IR light being targeted by this photovoltaic simply has very low energy, though the UV light also being converted is high-energy.

Of course, the energy from one photon doesn't give you the whole picture. You also care about the total number of photons in order to get the total power. So what is the distribution of power across the solar spectrum?

(Image from Lawrence Berkeley National Lab)

The highest intensity is in the visible range, which makes sense. Our eyes evolved to be most sensitive to the highest intensity light emitted from the sun. Now, you might point out that there is a lot of energy in the infrared range. While the power for a given wavelength isn't that high, the range of infrared wavelengths adds up to a lot of energy. But according to the paper, this cell can't convert light over 900 nm*. So even if the cell gets more efficient, the total power it could possibly deliver is limited.

I should add here that the researchers obviously are aware that transparent phovoltaics won't have high efficiency. There are some great applications driving this kind of technology. While windows from these cells won't eliminate your energy bill, they will lower it. Plus, since they're absorbing IR light, your house will heat up less, and you'll need less air-conditioning. Integrating this technology with electronics is even more interesting. Think of the typical solar-powered calculator. Instead of having that little strip of PV cells, the actual display can serve as the power source, freeing up real estate on the front of the device. And just imagine using this on a cell phone! You could use the screen of your phone to help keep it charged during the day.

In the end, this is some very clever technology that will have a number of useful applications, but don't expect to see your windows powering your whole house.





*Changing the materials in order to accept longer wavelength, lower frequency light will reduce the amount of energy captured from higher frequency light. I'll have a post later just on this concept, but for now, you'll have to trust me.

(Edited to use a different image of the solar spectrum. The first one I used had some outdated information on it.)

"Big boobs" hidden in code

Lousy Canuck has a post up about some rather immature behavior from programmers at Microsoft. A constant in some Linux code was defined as 0xB16B00B5, which means "Big Boobs."

Is this juvenile and silly? Yes. Is it also harmful? Yes. This is just another papercut contributing to a chilly culture for women in STEM. The brogrammer culture actually makes me wonder if women in computer science have one of the toughest environments to deal with.

Monday, July 23, 2012

Goodbye, Sally Ride

There are precious few women in STEM fields who have truly achieved icon status, and now we have one fewer. Sally Ride has passed away from cancer at the age of 61. In addition to her own impressive achievements as an astronaut, she did so much to encourage girls to be interested in science. The world is truly worse off to no longer have her in it.

Sunday, July 15, 2012

Pamela Gay is amazing

I'll write up more about my experience at TAM later, but I have to direct your attention to the outstanding talk given by Pamela Gay. She has posted the text here: http://www.starstryder.com/2012/07/15/make-the-world-better/

This talk received the loudest and longest standing ovation of any talk that I attended at TAM. I was in tears, as were many others in the crowd. I went to thank her after the speech, and started crying again. She gave me a big hug.

This was so incredibly brave. While the crowd was overwhelmingly in support of her talk, I know she also pissed off people. I know she pissed off powerful people. I know she risked a lot to do this, and she did it for me.

Not like, me individually, but all the women like me: young women in science and skepticism who don't have the connections or support to be able to fight back. She is genuinely fighting to make the world a better place for those of us with less power than her. She is absolutely amazing.


I am writing this post while wearing my brand-new "Stopping harassment starts here " shirt. You can get your own by emailing Pamela. 


And however we choose to do it, we can all make the world a better place. Whenever you have the chance to stand up for those less powerful than yourself, do it.


I promise, it will mean the world to them.

Friday, July 6, 2012

Defense Date!

I have officially set my PhD defense date for the first week of September. I have a date for becoming Eskeptrical Engineer, PhD.

It's weird to have five years of graduate school drawing to a close, but I don't have much time to think about because, oh god, I have so much to do!