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Atmospheric Chemistry of Titan

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Juramike

May 2 2010, 03:38 AM

Post #1

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Here is a "Benzene-O-Vision" graphic showing the amount of benzene and phenyl radicals at high altitudes on Titan. This is based on detections of benzene and phenyl radical (which recombined in the sample chamber to make benzene) using the INMS instrument during closest approach. The numbers are normalized to constant pressure altitude, roughly 1000 km.

The data was taken from Table 1 in: Vuitton et al, Journal of Geophysical Research 113 (2008) E05007. "Formation and distribution of benzene on Titan". doi: 10.1029/2007JE002997 [EDIT 5/24/10: Article freely available here] and overlaid on a map of Titan.

The authors mentioned that the errors in these measurements are 20%.

These detections are well above the detached haze layer. Most are at the same sun azimuth angle. (T23 observation had the lowest angle.) Assuming that the temporal difference is minimal (each dot is from a different flyby), there doesn't appear to be an obvious correlation with latitude.

This graphic does show that benzene is present even waaaay up in the thermosphere and ionosphere.

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Some higher resolution images available at my photostream: http://www.flickr.com/photos/31678681@N07/

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Juramike

Jul 19 2010, 12:03 AM

Post #2

Senior Member

Group: Moderator
Posts: 2785
Joined: 10-November 06
From: Pasadena, CA
Member No.: 1345

Cyanomethlyene carbene [:CH(CN)]

A very recent article (June 2, 2010 issue of PNAS) by Imanaka and Smith has provided laboratory evidence that high energy photons can ionize nitrogen and cause it to incorporate it into Titan’s organics much more easily than previously thought.

The process is the initial photoionization of molecular nitrogen by EUV photons (wavelenghts < 60 nm) which then makes molecular nitrogen radical cation by blowing an electron out of the molecule. At some point, another electron recombines with the nitrogen molecule (cue dropping bomb sound) which releases a huge amount of energy. The energy released blows apart the dinitrogen triple bond and we are left with a “normal” nitrogen atom radical nitrene (nitryne) and an “excited” nitrogen atom radical nitrene (nitryne). (this is the stepwise sequence of the concerted sequence discussed for HCN – the rates of these steps were deliberately left of the graphic since the Imanaka and Smith work will definitely supercede the Krasnopolsky estimated models.)

The excited nitryne atom is likely in an excited state that accesses D-orbitals. These may be in unpaired spin-coupled state, but well run through the mechanisms assuming it acts like a triradical. (i.e. the actual process may be more concerted). In the case to make cyanomethylene carbene, the excited nitryne reacts with an alkyne. Drawing a stepwise mechanism, the first thing that happens is one of the pi-electrons of the triple bonds forms a new bond with one of the electrons of the nitryne. This now makes a carbon radical nitrene. (still three unpaired electrons in the system). A C-H bond breaks, and hydrogen radical (H.) goes away, and the remaining electron on carbon now forms a carbon-nitrogen double bond with one of the nitrene electrons.

A double-bond equilibration gives cyanomethylene carbene. But what does this molecule look like?
Spectroscopic data suggests that this molecule in the ground state is “close” to a linear molecule, with an H-C-(CN) bond close to 180 degrees That means that the likely hybridization on the “carbene” carbon is sp with the unpaired electrons in two p orbitals in a triplet state. (Ground state suggests it is in an unpaired spin-uncoupled triplet configuration, I’d guess on Titan that these molecules are likely in an excited unpaired but spin-coupled triplet configuration.) Why is this important? It’s probably academic, but it implies that many of the downstream steps could be concerted. This might become important if we deal with molecules (e.g. cis or trans double bonds) with stereochemistry, in this case the stereochemistry would be preserved. In a triplet stepwise reaction, there is always a chance for bond twisting before the second bond snaps shut, causing a loss of stereochemistry.

The :CH(CN) intermediate may be the key intermediate in the formation of tholins and for the incorporation of bonus* nitrogen into Titan’s organics.
It is also an intermediate that gives another route to many of Titan’s organics, such as cyanoacetylene, cyanogens, acrylonitrile, and ethylacetonitrile.

(*more that previously thought)

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Some higher resolution images available at my photostream: http://www.flickr.com/photos/31678681@N07/

Posts in this topic

Juramike Atmospheric Chemistry of Titan May 2 2010, 03:38 AM

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ngunn Thanks for that very interesting explanation Mike.... May 6 2010, 11:20 AM

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Littlebit QUOTE (Juramike @ May 6 2010, 06:50 AM) T... May 11 2010, 09:22 PM

ngunn QUOTE (Littlebit @ May 11 2010, 10:22 PM)... May 11 2010, 09:56 PM

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Juramike Purple Haze or Where It’s At A paper by Lavvas et... May 12 2010, 11:46 PM

rlorenz QUOTE (Juramike @ May 12 2010, 06:46 PM) ... May 20 2010, 07:17 PM

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Juramike I agree that the reality is probably a lot more co... May 21 2010, 05:42 PM

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Littlebit QUOTE (Juramike @ May 31 2010, 08:36 PM) ... Jun 1 2010, 07:59 PM

Juramike Nitrogen does get incorporated. It is primarily i... Jun 1 2010, 08:34 PM

Juramike So what does CH5+ do? Basically(!), not much.... Jun 2 2010, 04:15 AM

Juramike Even on electron quenching of the CH5+ radical, it... Jun 3 2010, 03:32 AM

ngunn About Titan chemistry, not necessarily atmospheric... Jun 3 2010, 09:01 PM

Juramike Great catch!! From the press release: ... Jun 4 2010, 12:38 AM

Bill Harris Mike, This has been a good discussion of the chem... Jun 4 2010, 10:02 PM

Juramike The low temperatures at the surface and lower atmo... Jun 4 2010, 10:49 PM

Juramike For the moment, the Clark et al. paper can be foun... Jun 4 2010, 10:52 PM

Juramike Article in press: Strobel, D.F. Icarus (2010) Art... Jun 6 2010, 07:58 PM

Juramike H2 is the key reagent that shunts the pathway to t... Jun 8 2010, 12:43 AM

Juramike Titan’s atmospheric chemistry is driven by sunligh... Jun 9 2010, 02:16 AM

remcook Starting on Monday: http://fd147.univ-rennes1.fr/a... Jun 9 2010, 07:04 AM

Juramike Very cool! Here is an EXCEL conditional forma... Jun 10 2010, 02:58 AM

rlorenz QUOTE (Juramike @ Jun 9 2010, 09:58 PM) H... Jun 12 2010, 01:00 AM

Juramike As requested (twice now) here is a comparison of s... Aug 25 2010, 01:41 AM

Bill Harris This is mindboggling. The potential scope of the... Jun 10 2010, 02:31 PM

Shaka Will the final exam be essay or multiple choice? Jun 10 2010, 11:59 PM

Juramike I'm gonna give away the answers! Jun 11 2010, 12:30 AM

Juramike Enter the mechanism Over the next several graphic... Jun 11 2010, 05:51 AM

Bill Harris QUOTE (Juramike @ Jun 10 2010, 07:30 PM) ... Jun 11 2010, 04:13 PM

Juramike Ethane (C2H6) [CH3CH3] Almost all ethane is for... Jun 12 2010, 03:40 AM

Juramike Ethylene (C2H4) [H2C=CH2] Ethylene is a key inter... Jun 13 2010, 03:21 AM

Juramike Acetylene (C2H2) [HCCH] Acetylene has several for... Jun 14 2010, 02:52 AM

Juramike Methyl acetylene (1-propyne) (C3H4) [CH3CCH] This... Jun 15 2010, 02:58 AM

jekbradbury QUOTE (Juramike @ Jun 14 2010, 10:58 PM) ... Jun 15 2010, 07:35 PM

Juramike Whoops. You are right, it is allene not cumene. ... Jun 15 2010, 10:39 PM

Juramike [Well, whaddya know...cyclopropenone has been dete... Jun 16 2010, 09:28 PM

Juramike Ethyl radical (.C2H5) [.CH2CH3] - key intermediate... Jun 17 2010, 01:46 AM

Bill Harris Mike, one thing I notice is that many of the react... Jun 17 2010, 02:47 AM

Juramike H+?? Dangit. Those should all be H. hydrogen r... Jun 17 2010, 03:03 AM

Bill Harris Oh, H-radical as in "H-dot"? They look... Jun 17 2010, 05:08 AM

Juramike Alright y'all, I'm real sorry about this, ... Jun 19 2010, 03:06 AM

Juramike Propane (C3H8) [CH3CH2CH3] The straightforward ... Jun 19 2010, 03:21 AM

Juramike Went back and fixed all diagrams in the different ... Jun 19 2010, 12:45 PM

Bill Harris Looks good, Mike. Sorry to have tossed a monkey w... Jun 20 2010, 07:18 PM

Juramike Diacetylene (C4H2) [HCC-CCH] - also known as Buta... Jun 22 2010, 10:59 PM

Juramike 1,3-Butadiene (C4H6) [H2C=CHCHCH=CH2] The forma... Jun 25 2010, 04:39 AM

PDP8E Mike, you had me at H2O pdp8e Jun 25 2010, 04:52 AM

Juramike QUOTE (PDP8E @ Jun 25 2010, 12:52 AM) Mik... Jun 26 2010, 05:00 AM

Juramike 1-Butene (C4H8) [H2C=CHCH2CH3] 1-Butene is 1,3-... Jun 26 2010, 04:57 AM

Juramike n-Butane (C4H10) [CH3CH2CH2CH3] Boring butane c... Jun 29 2010, 04:03 AM

Juramike Benzene (C6H6) At lower altitudes, benzene is f... Jun 30 2010, 03:56 AM

Juramike Benzene (C6H6) high altitude ion route At highe... Jul 1 2010, 12:31 AM

Juramike Structure of Benzenium (C6H7+) This is one of t... Jul 2 2010, 12:46 AM

Juramike Beyond Benzene - PAH's and Polyphenyls Polyar... Jul 4 2010, 01:46 AM

Bill Harris The genesis of Titan's atmosphere may be more ... Jul 8 2010, 12:44 PM

Juramike HCN The incorporation of nitrogen into Titan’s ... Jul 13 2010, 12:00 AM

Juramike .CN radical - key intermediate The formation of... Jul 14 2010, 12:11 AM

Juramike Cyanomethlyene carbene [:CH(CN)] A very recent... Jul 19 2010, 12:03 AM

GEmin QUOTE The first experimental evidence showing how ... Jul 19 2010, 06:36 AM

Juramike Acetonitrile (CH3CN) There are multiple ways to... Jul 21 2010, 02:08 AM

Juramike Cyanoacetylene (HC3N) [HCC-CN] The dominant mec... Jul 22 2010, 01:13 AM

Juramike Cyanogen (C2N2) [NC-CN] According to the Krasno... Jul 23 2010, 12:17 PM

Juramike Dicyanoacetylene (C4N2) [NC-CC-CN] Two differen... Jul 25 2010, 04:04 PM

Juramike Acrylonitrile (C2H3CN) [H2C=CHCN] This molecule... Jul 29 2010, 10:42 PM

Juramike I’ve tried to represent Titan’s chemistry in a sli... Aug 2 2010, 03:02 AM

Juramike The graphic below shows the pattern of dominant re... Aug 22 2010, 08:06 PM

Juramike Estimated depths solids vs. liquids from the vario... Aug 25 2010, 02:25 AM

Juramike A recent DPS abstract discusses some possibilities... Oct 8 2010, 02:26 PM

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Juramike Most of the formation chemistry seems to be happen... Oct 8 2010, 05:21 PM

Juramike LPSC 2011 abstract describes continuing efforts to... Jan 30 2011, 04:07 AM

Juramike Detection of high altitude cirrus clouds in Titan... Feb 3 2011, 07:01 PM

centsworth_II This gives hope of much greater understanding of T... Feb 9 2011, 04:32 PM

ngunn Interesting link posted on the Cassini Huygens Yah... May 10 2011, 10:56 AM

Juramike The Cool Way to PAH's in Titan's Upper Atm... Jul 3 2011, 12:55 AM

scalbers I saw a talk given at the AGU conference last week... Dec 11 2011, 08:39 PM

Paolo not sure this is the best topic to post it to, thi... Jan 5 2012, 10:51 AM

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