Surface alignment of P3HT and other conductive polymers

AI Thread Summary
Poly(3-hexyl thiophene) (P3HT) and similar conductive polymers exhibit distinct alignment behaviors when deposited on surfaces like silicon/silicon dioxide, primarily adopting "edge-on" or "face-on" orientations. The edge-on alignment, where alkyl side-chains are perpendicular to the surface, is prevalent due to the polar nature of the SiO2 substrate. This configuration minimizes the interaction between the hydrophobic thiophene rings and the substrate, favoring a vertical arrangement. The discussion highlights that the alignment is influenced by the type of interaction with the substrate, suggesting that if the interaction is chemical, the driving force for self-assembly is likely enthalpic, while ion exchange interactions would suggest an entropic driving force. The inquiry seeks a comprehensive reference to further elucidate the energetic mechanisms behind this alignment phenomenon.
Tom_Bristol
Messages
2
Reaction score
0
Hi all,

It is well known that poly(3-hexyl thiophene) and other conductive polymers with alkyl substituents align when deposited on a surface (e.g. by spin coating or drop casting). The common orientations for P3HT on silicon/silicon dioxide are "edge-on" in which the alkyl side-chains point normal to the surface, and "face-on" in which the thiophene rings lie parallel to the surface. I have read quite a few papers that discuss this observation, for example these two highly cited Nature articles:

[1] http://www.nature.com/nature/journal/v401/n6754/full/401685a0.html
[2] http://www.nature.com/nmat/journal/v5/n3/full/nmat1590.html

My question is: what is the exact energetic reason for this alignment. The "edge-on" alignment is most common and my rationale for this is that the SiO2 surface is quite polar. The aromatic thiophene rings are more hydrophobic than the alkyl tails, thus it is favourable for the polymers to stand up such that the thiophene rings do not interact with the substrate. The second article I posted does discuss the mechanism a little but I am looking for a good reference that explains this phenomenon.

Many thanks.
 
Last edited by a moderator:
Chemistry news on Phys.org
in my view, in the case of thin polymer film assembly, alignment will be strongly governed by the type of interaction with the substrate. If this is agreed upon, then the energetic explanation depends on the type of interaction. Is it chemical (covalent), with a functionalized substrate? Then the driving force for self assembly is probably enthalpic. Is it based on ion exchange? Then it is most likely entropic.
 

Thread 'Solubility of MgSO47H2O in water'

It seems like a simple enough question: what is the solubility of epsom salt in water at 20°C? A graph or table showing how it varies with temperature would be a bonus. But upon searching the internet I have been unable to determine this with confidence. Wikipedia gives the value of 113g/100ml. But other sources disagree and I can't find a definitive source for the information. I even asked chatgpt but it couldn't be sure either. I thought, naively, that this would be easy to look up without...
View full post »

Thread 'Why does having 8 valence electrons make an element inert?'

I was introduced to the Octet Rule recently and make me wonder, why does 8 valence electrons or a full p orbital always make an element inert? What is so special with a full p orbital? Like take Calcium for an example, its outer orbital is filled but its only the s orbital thats filled so its still reactive not so much as the Alkaline metals but still pretty reactive. Can someone explain it to me? Thanks!!
View full post »

Similar threads

Mathematica This Week's Finds in Mathematical Physics (Week 262)
Replies
4
Views
3K

Hot Threads

Recent Insights

Back
Top