Polymorphism and electronic structure of polyimine and its potential significance for prebiotic chemistry on Titan

Rahm, Martin; Lunine, Jonathan I.; Usher, D. A.; Shalloway, David

doi:10.1073/pnas.1606634113

Cited by 42 publications

(49 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In a separate publication, we will consider the application of the Ladder C model to an infinite chain in a more quantitative fashion and examine the range of parameters g and v ( ω ) within which the distinction between σ‐delocalized and σ‐localized behavior as a function of conformation applies. This work will build on prior work on helical structures in infinite solids …”

Section: Discussionmentioning

confidence: 99%

Intuitive Understanding of σ Delocalization in Loose and σ Localization in Tight Helical Conformations of an Oligosilane Chain

Jovanović

Antic

Rooklin

et al. 2017

Chemistry An Asian Journal

View full text Add to dashboard Cite

Conformational effects on the s-electron delocalization in oligosilanes are addressed by Hartree-Fock and time-dependent density functional theory calculations (B3LYP,6 -311G**) at MP2 optimizedg eometries of permethylated uniformly helical linear oligosilanes (all-w-Si n R 2n + 2 )u p to n = 16 and forb ackboned ihedral angles w = 55-1808.T he extent of s delocalization is judged by the partition ratio of the highest occupiedm olecular orbital and is reflected in the dependence of its shape and energy and of UV absorption spectra on n. The results agree with knowns pectra of all-transoid loose-helix conformers (all-[AE 165]-Si n Me 2n + 2 )a nd revealatransition at w % 908 from the "s-delocalized" limit at w = 1808 toward and closetot he physically non-realizable "s-localized" tight-helix limit w = 0w ith entirely different properties. The distinction is also obtainedi nt he Hückel Ladder Ha nd Cm odelso fs delocalization. An easy intuitive way to understand the origin of the two contrasting limits is to first view the linear chain as two subchains with alternating primary and vicinal interactions (s hyperconjugation), one consisting of the odd and the other of the even s(SiSi) bonds, andt hen allow the two subchainst oi nteract by geminal interactions (s conjugation).

show abstract

Section: Discussionmentioning

confidence: 99%

Intuitive Understanding of σ Delocalization in Loose and σ Localization in Tight Helical Conformations of an Oligosilane Chain

Jovanović

Antic

Rooklin

et al. 2017

Chemistry An Asian Journal

View full text Add to dashboard Cite

show abstract

“…Given the relative abundance of M to G stars in the Galaxy, Titan may therefore represent a more prototypical world with a stable hydro-logic cycle than Earth (Lunine 2010). Titan-like exoplanets-cool terrestrial worlds with dense, hazy, and chemically complex atmosphereswould also be interesting subjects for studies of habitability, as Titan has been suggested to be an important target for astrobiology Lunine 2009Lunine , 2010Rahm et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Atmospheric Circulation, Chemistry, and Infrared Spectra of Titan-like Exoplanets around Different Stellar Types

Lora

Kataria

2018

ApJ

View full text Add to dashboard Cite

With the discovery of ever smaller and colder exoplanets, terrestrial worlds with hazy atmospheres must be increasingly considered. Our Solar System's Titan is a prototypical hazy planet, whose atmosphere may be representative of a large number of planets in our Galaxy. As a step towards characterizing such worlds, we present simulations of exoplanets that resemble Titan, but orbit three different stellar hosts: G-, K-, and M-dwarf stars. We use general circulation and photochemistry models to explore the circulation and chemistry of these Titan-like planets under varying stellar spectra, in all cases assuming a Titan-like insolation. Due to the strong absorption of visible light by atmospheric haze, the redder radiation accompanying later stellar types produces more isothermal stratospheres, stronger meridional temperature gradients at mbar pressures, and deeper and stronger zonal winds. In all cases, the planets' atmospheres are strongly superrotating, but meridional circulation cells are weaker aloft under redder starlight. The photochemistry of hydrocarbon and nitrile species varies with stellar spectra, with variations in the FUV/NUV flux ratio playing an important role. Our results tentatively suggest that column haze production rates could be similar under all three hosts, implying that planets around many different stars could have similar characteristics to Titan's atmosphere. Lastly, we present theoretical emission spectra. Overall, our study indicates that, despite important and subtle differences, the circulation and chemistry of Titan-like exoplanets are relatively insensitive to differences in host star. These findings may be further probed with future space-based facilities, like WFIRST, LUVOIR, HabEx, and OST.

show abstract

“…Finally, even if such structures are present in Titan's lakes, it is still far from life, which requires replicating and energy-dissipating catalytic entities. Rahma et al (2016) showed by theoretical calculations that polyimines could drive photochemistry and potentially have a catalytic role on Titan's surface. Indeed, polyimine is one of the polymers of HCN.…”

Section: Life Far From Life As We Know It-the Case For Titanmentioning

confidence: 99%

The Emergence of Life

et al. 2019

View full text Add to dashboard Cite

The aim of this article is to provide the reader with an overview of the different possible scenarios for the emergence of life, to critically assess them and, according to the conclusions we reach, to analyze whether similar processes could have been conducive to independent origins of life on the several icy moons of the Solar System. Instead of directly proposing a concrete and unequivocal cradle of life on Earth, we focus on describing the different requirements that are arguably needed for the transition between non-life to life. We Ocean Worlds Edited by 56 Page 2 of 53 E. Camprubí et al.approach this topic from geological, biological, and chemical perspectives with the aim of providing answers in an integrative manner. We reflect upon the most prominent origins hypotheses and assess whether they match the aforementioned abiogenic requirements. Based on the conclusions extracted, we address whether the conditions for abiogenesis are/were met in any of the oceanic icy moons.

show abstract

Polymorphism and electronic structure of polyimine and its potential significance for prebiotic chemistry on Titan

Cited by 42 publications

References 47 publications

Intuitive Understanding of σ Delocalization in Loose and σ Localization in Tight Helical Conformations of an Oligosilane Chain

Intuitive Understanding of σ Delocalization in Loose and σ Localization in Tight Helical Conformations of an Oligosilane Chain

Atmospheric Circulation, Chemistry, and Infrared Spectra of Titan-like Exoplanets around Different Stellar Types

The Emergence of Life

Contact Info

Product

Resources

About