Encapsulation of hydroxycitronellal in β-cyclodextrin and the characteristics of the inclusion complex
Author:
Zhu Guangyong12, Xiao Zuobing13, Zhou Rujun1, Liu Junhua1, Zhu Guangxu4
Affiliation:
1. 1 No. 100 Haiquan Road , Shanghai Institute of Technology , Shanghai , PR China 2. 4 Yancheng City Chunzhu Aroma Co., Ltd ., Jiangsu , , PR China 3. 2 No. 800 Dongchuan Road , Shanghai Jiao Tong University , Shanghai , , PR China 4. 3 3035 Sable Ridge Dr. Ottawa. ON K1T 3R9 , Canada
Abstract
Abstract
Hydroxycitronellal has been widely used in foods, beverages, perfumery and cosmetics. It can also be used to treat anxiety. The major drawbacks regarding the use of hydroxycitronellal are related to water insolubility, volatility, instability, and sensitization. To overcome these concerns, β-cyclodextrin was adopted as wall material to encapsulate hydroxycitronellal in this work. Hydroxycitronellal-β-cyclodextrin inclusion complex was prepared and the product was characterized. The interaction of hydroxycitronellal and β-cyclodextrin, and the assembly of hydroxycitronellal-β-cyclodextrin inclusion complex were investigated by molecular simulation (MM). The results showed that hydroxycitronellal loading capacity was 8.5%. The thermal stability and lastingness of hydroxycitronellal were improved by the formation of the inclusion complex. The minimum binding energy was –151.2 kJ/mol. Among the perpendicular, staggered parallel and ideally parallel orientation of the inclusion complexes, the minimum energy value was found for the staggered parallel arrangement. These basic data are useful to understand the interaction between hydroxycitronellal and β-cyclodextrin.
Publisher
Walter de Gruyter GmbH
Subject
General Chemical Engineering,General Chemistry,Biotechnology
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