摘要
<正>利用绿色工艺将可再生资源生物质转化为高值化的化学品和材料对实现资源的高效利用和可持续发展具有重要意义。本研究以自然界中储量丰富的生物质(如纤维素、壳聚糖)为原料,在离子液体体系中实现了生物质分子的均相、高效两亲性改性,设计制备了系列具有不同分子结构、功能基团的两亲性生物质~([1])。通过二维核磁等手段,深入研究解析两亲性生物质的结构与分子参数,分析合成条件与亲/疏水比例、疏水链长、取代位点等重要分子结构特征之间的联系~([2])。借助两亲性生物质在水中的分子自组装,获得系列具有不同形貌、大
引文
[1]Yanzhu Guo,Xiaohui Wang*,Xuancai Shu,Zhuguang Shen,Run-cang Sun*,Self-assembly and Paclitaxel Loading Capacity of Cellulose-graft-Poly(lactide)Nanomicelles,Journal of Agricultural and Food Chemistry,2012,60(15):3900-3908.
[2]Yanzhu Guo,Xiaohui Wang*,Zuguang Shen,Xuancai Shu,Runcang Sun,Preparation of cellulose-graft-poly(e-caprolactone)nanomicelles by homogeneous ROP in ionic liquid,Carbohydrate Polymers,2013,92(1):77-83.
[3]Xiaohui Wang,Yanzhu Guo,Dong Li,Hui Chen,Runcang Sun,Fluorescent amphiphilic cellulose nanoaggregates for sensing trace explosives in aqueous solution,Chemical Communications,2012,48(45),5569-5571
[4]Yu Yang,Shengpeng Wang,Yitao Wang,Xiaohui Wang,Qun Wang,Meiwan Chen,Advances in Self-assembled chitosan nanomaterials for drug delivery,Biotechnology Advances,2014,32,1301-1316.