Synthesis and solvent-controlled self-assembly of diketopiperazine-based polyamides from aspartame

Hongrong Yin; Kenji Takada; Amit Kumar; Thawinda Hirayama; Tatsuo Kaneko

doi:10.1039/d0ra10086b

Synthesis and solvent-controlled self-assembly of diketopiperazine-based polyamides from aspartame

RSC Adv. 2021 Feb 3;11(11):5938-5946. doi: 10.1039/d0ra10086b. eCollection 2021 Feb 2.

Authors

Hongrong Yin¹, Kenji Takada¹, Amit Kumar¹, Thawinda Hirayama², Tatsuo Kaneko¹

Affiliations

¹ Energy and Environment Area, Japan Advanced Institute of Science and Technology 1-1 Asahidai Nomi Ishikawa 923-1292 Japan kaneko@jaist.ac.jp.
² Department of Chemistry, Faculty of Science, Chulalongkorn University 254 Phayathai Road, Pathumwan Bangkok 10330 Thailand.

Abstract

An aspartame-based AB-type diketopiperazine monomer, cyclo(l-aspartyl-4-amino-l-phenylalanyl) (ADKP), was synthesized and subsequently utilized in the polycondensation of homo-polyamides with high molecular weights. By using various amino acids, dicarboxylic acids, and diamines, random DKP-based copolymers were also synthesized. The self-assembly properties of ADKP and poly(cyclo(l-aspartyl-4-amino-l-phenylalanyl)) (PA1) were studied via the solvent displacement method. Notably, PA1 self-assembled into particles with various morphologies in different solvent systems, such as irregular networks, ellipsoids, and hollow particles. The morphological transformation was also confirmed by dropping acetone and toluene onto the PA1 particles. Furthermore, infrared spectra and Hansen solubility parameters of PA1 and different solvents revealed the particle formation mechanism, which provided more insights into the relationship between the morphology and strength of the hydrogen bonding of each solvent.