School of Biological Sciences, Indian Association for the Cultivation of Science, Jadavpur, Kolkata 700 032, India.
School of Biological Sciences, Indian Association for the Cultivation of Science, Jadavpur, Kolkata 700 032, India.
J Colloid Interface Sci. 2019 Mar 15;539:414-424. doi: 10.1016/j.jcis.2018.12.087. Epub 2018 Dec 26.
With increasing surge in the development of supramolecular self-assemblies, it is crucial to predict the influence of amphiphilic segment in dictating the morphology of self-aggregates. This article reports the design and synthesis of low molecular weight amphiphiles with varying hydrophobicity both in the spacer unit and at the terminal moiety.
Hydrophobicity at the spacer moiety was modulated by altering alkyl chain length and by inclusion of aromatic ring and the same was changed at hydrophobic terminal using pyrene, naphthalene, n-hexadecane having 2-aminopyridine as polar head. Microscopy and spectroscopy were used to investigate the morphologies of self-aggregated amphiphiles.
Variation of hydrophobicity of the spacer moiety either by changing the alkyl chain length (C0, C2, C6, C11 and phenyl ring) having pyrene as terminal hydrophobic unit led to the formation of only spherical vesicles in respective solvent system. Morphological transformation of self-aggregates from vesicle to fused-vesicle to gel was observed in DMSO-water upon alteration in the hydrophobic end of amphiphile from pyrene to naphthyl to C16 alkyl chain having C6 alkyl chain as spacer. Hence, the hydrophobicity at the terminal of the amphiphile has the predominant role in tuning the morphology of self-aggregates through modulation in the hydrophobic-lipophilic balance (HLB) of amphiphiles.
随着超分子自组装的发展呈指数增长,预测两亲性片段对自组装形态的影响至关重要。本文报道了设计和合成具有不同疏水性的低分子量两亲物,其间隔基单元和末端基团均具有疏水性。
通过改变烷基链长度和引入芳环来调节间隔基单元的疏水性,并用具有 2-氨基吡啶的吡咯、萘和正十六烷作为极性头来改变疏水性末端。使用显微镜和光谱法研究自聚集两亲物的形态。
在具有末端疏水性单元吡咯的间隔基单元中改变疏水性(C0、C2、C6、C11 和苯基环),导致在各自的溶剂体系中仅形成球形囊泡。当改变两亲物的疏水端从吡咯变为萘再变为具有 C6 烷基链的 C16 烷基链时,自组装体从囊泡到融合囊泡再到凝胶的形态发生转变,在 DMSO-水中观察到这一转变。因此,通过调节两亲物的疏水亲水平衡(HLB),两亲物末端的疏水性在调节自组装体形态方面起着主要作用。
