Bracelets Can Detect #Chemical Exposures: Reanalyzing after the fact – not realtime – compounds absorbed into silicon
http://www.scientificamerican.com/article/bracelets-can-detect-chemical-exposures
Nature’s Second Act: Nice overview of the resurgence in
#pharmaceutical discovery from meta & microbial #genomics
http://cen.acs.org/articles/91/i35/Natures-Second-Act.html
Ecovative: The new #plastic is made from #mushrooms. It uses fungal mycelium & #chitin to bond together wood chips.
http://www.smartplanet.com/blog/pure-genius/ecovative-the-new-plastic-is-made-from-mushrooms/5717
Can a… Plan [for] a New #Energy Resource Help Save the Planet? #Fusion physicists build #ITER, a 21C York Cathedral
http://www.newyorker.com/reporting/2014/03/03/140303fa_fact_khatchadourian
Raffi Khatchadourian: Can an Audacious Plan to Create a New Energy Resource Help Save the Planet? : The New Yorker
http://www.newyorker.com/reporting/2014/03/03/140303fa_fact_khatchadourian?currentPage=all
#Quotes from #Higgs, eg “[how’d I] ever have enough peace & quiet in the present sort of climate to do what I did…”
http://www.theguardian.com/science/2013/dec/06/peter-higgs-boson-academic-system
http://www.theguardian.com/science/2014/feb/17/peter-higgs-boson-god-particle-fame-nuisance
Higgs also said:
“When my wife and I got married, she thought of me being an easygoing person and I warned her I wasn’t….
I was easygoing in terms of being adaptable in my social life. But maybe I suffered a personality change in the mid-60s and became more dedicated to things involving work because it had become successful in some way.”
“After I retired it was quite a long time before I went back to my department. I thought I was well out of it. It wasn’t my way of doing things any more. Today I wouldn’t get an academic job. It’s as simple as that. I don’t think I would be regarded as productive enough.”
Little Interactions Mean a Lot. Nice overview of small energies determining structure, eg ~5kcal/mol hbond
https://www.americanscientist.org/issues/pub/2014/2/little-interactions-mean-a-lot #chem 1/2
Little Interactions Mean a Lot. C18H38 alkane is a great example: 2 gauche turns allow a kink & favorable folding-over VDW interactions 2/2
QT:{{”
What is big from one perspective is small from another, and energy can be measured in a variety of ways. By “big energies,” I mean those equal or greater than about 1 electron volt per molecule, which is equal to 23.1 kilocalories per mole, or 96.5 kilojoules per mole. A photon of yellow light has an energy of about 2.1 electron volts.
In theoretical chemistry, I was looking for molecules that in one bonding arrangement could be at least 1 electron volt per molecule more stable than in an alternative configuration, or that would require an activation energy (the barrier to a reaction taking place) that is at least 1 electron volt lower than a competing reaction, thus proceeding much more expeditiously. I knew that the strength of the hydrogen bonds that hold together the base pairs of the DNA in my body are, per pair of atoms involved, at least an order of magnitude smaller than 1 electron volt. So are the “dispersion” forces (more on these in a moment) that make the molecules around me–be they acetaminophen or ethanol–solids and liquids rather than gases. …
In addition to the hydrogen bonding mentioned earlier, there are other small forces, like multipole interactions that convert an asymmetry of the way electrons are distributed in a molecule into forces between them. And dispersion forces, which are responsible for molecules and atoms condensing and eventually freezing.
….
Prototypical hydrogen bonding, the noncovalent bond associated with wet hair and brushes, occurs when the hydrogen of a polar
oxygen-hydrogen (O-H) or nitrogen-hydrogen (N-H) bond comes near an electron source, typically the lone pair of electrons of a nearby oxygen or nitrogen atom. …
Despite such disagreement on origins, there is no disagreement at all on the magnitude of the energy involved, generally less than 5 kilocalories per mole. Small again, but there are oh-so-many of them.
…
Small energies play out in other interesting ways in some of the simplest organic molecules: the unbranched long-chain hydrocarbons, such as the liquid to waxy “normal” alkanes, which are written chemically as CH3(CH2)nCH3. The molecules in gasoline belong to this family with n = 6 or so; increasing n from six leads to diesel fuel, jet fuel, oil, and lubricants…..At each interior point in the hydrocarbon chain, for every four carbons, a choice is available between an extended conformation, which chemists refer to as all-anti, and two mirror-image curled-up forms, known as gauche conformations. …
The energy difference between the two conformations is truly minuscule. The gauche geometry is merely about one kilocalorie per mole in energy above the global minimum of the anti form; ….
That kinking costs energy, but only a wee amount–each gauche turn has an associated penalty of about 1 kilocalorie per mole. What is accomplished by the kink ….
the second part of the chain is brought near the first. In that conformation, or actually in a family of conformations looking roughly like that, there is a new source of stabilization that is unavailable in the extended, all-anti geometry: attractive dispersion forces between the two parts of the chain.
…
Small as they individually are, dispersion interactions add up. For an isolated molecule, for some n in CH3(CH2)n CH3 for example, the energy lowering (stabilization) in dispersion interaction will win out over the increase in energy (destabilization) in kinking, the latter accomplished by two or more gauche conformations along the chain.
…
To my knowledge, Jonathan Goodman first wrote down this idea in 1999. Theory in his and others’ hands confirmed the notion: For
CH3(CH2)nCH3, the crossover from extended to kinked (and eventually curled in a more complex way) comes at around n = 16, or 18 carbon atoms. Remarkably, the experimental proof for this hypothesis has recently come forward, in work by N. O. B. Lüttschwager and
colleagues.
“}}
The Return of the Polar Vortex Is Actually a Good Thing: Great #Image of Artic Cold #Weather dipping into N America
http://www.wired.com/wiredscience/2014/02/noaa-polar-vortex
The Human Family’s Earliest #Ancestors: Nice overview of recent finds from Lucy at 3.2 Myo to Ardi at 4.4 & Toumai, 7
http://www.smithsonianmag.com/science-nature/the-human-familys-earliest-ancestors-7372974
What’s a unique ID for a person & how companies are hacking into your browser history to construct one. Uniquely Me!
http://www.americanscientist.org/issues/pub/uniquely-me
Interesting mention of PGP
How the… Octopus Can Help us Understand the Human #Brain: Intelligent but with very different, decentralized wiring http://www.wired.com/wiredscience/2013/10/how-the-freaky-octopus-can-help-us-understand-the-human-brain
(Intelligent enough to open childproof tops)