Influence of Asphaltene Modification on Structure of P3HT/Asphaltene Blends: Molecular Dynamics Simulations

Abstract: Further development and commercialization of bulk heterojunction (BHJ) solar cells require the search for novel low-cost materials. The present study addresses the relations between the asphaltenes’ chemical structure and the morphology of the poly(3-hexylthiohene) (P3HT)/asphaltene blends as potential materials for the design of BHJ solar cells. By means of all-atom molecular dynamics simulations, the formation of heterophase morphology is observed for the P3HT-based blends with carboxyl-containing asphaltene… Show more

“…A potential solution to this issue is to utilize asphaltenes for various applications such as the production of asphalt pavements, 6 polymer composites, [7][8][9] and solar cells. [10][11][12][13] Thus, diversifying the applications of asphaltenes can aid in preventing their accumulation in the environment as well as in developing novel, high-value products.…”

Size matters: asphaltenes with enlarged aromatic cores promote heat transfer in organic phase-change materials

“…A potential solution to this issue is to utilize asphaltenes for various applications such as the production of asphalt pavements, 6 polymer composites, [7][8][9] and solar cells. [10][11][12][13] Thus, diversifying the applications of asphaltenes can aid in preventing their accumulation in the environment as well as in developing novel, high-value products.…”

Size matters: asphaltenes with enlarged aromatic cores promote heat transfer in organic phase-change materials

Effect of molecular environment on asphaltene aggregation: a molecular dynamics study