[1]苗爱东,巴林,彭燕,等. RP-HPLC测定板蓝根颗粒中腺苷的含量[J]. 华西药学杂志,2005,20(5):434-436.
[2]丁水平,刘云海,李敬,等. 板蓝根化学成分研究(Ⅱ)[J]. 医药导报,2001,32(8):475-476.
[3]马莉,孙琴,李友,等. HPLC测定板蓝根提取物中靛蓝和靛玉红的含量[J]. 药物分析杂志,2010,30(9):1642-1645.
[4]张叶,张蕾,王玉. RP-HPLC法测定板蓝根药材中腺苷和表告依春的含量[J]. 药物分析杂志,2008,28(11):1848-1850.
[5]Mccalley D V. Study of the selectivity,retention mechanisms and performance of alternative silica-based stationary phases for separation of ionised solutes in hydrophilic interaction chromatography[J]. Journal of Chromatography,2010,1217(20):3408-3417.
[6]Chauve B,Guillarme D,Cléon P,et al. Evaluation of various HILIC materials for the fast separation of polar compounds[J]. Journal of Separation Science,2010,33(6/7):752-764.
[7]Jandera P. Stationary and Mobile phases in hydrophilic interaction chromatography:a review[J]. Analytica Chimica Acta,2011,692(1/2):1-25.
[8]Ikegami T,Tomomatsu K,Takubo H,et al. Separation efficiencies in hydrophilic interaction chromatography[J]. Journal of Chromatography,2008,1184(1/2):474-503.
[9]Mccalley D V. The challenges of the analysis of basic compounds by high performance liquid chromatography:some possible approaches for improved separations[J]. Journal of Chromatography,2010,1217(6):858-880.
[10]Li Y Y,Xu L A,Chen T,et al. Carbon nanoparticles from corn stalk soot and its novel application as stationary phase of hydrophilic interaction chromatography and per aqueous liquid chromatography[J]. Analytica Chimica Acta,2012,726:102-108.
[11]Kwon S H,Park J H. Intermolecular interactions on multiwalled carbon nanotubes in reversed-phase liquid chromatography[J]. Journal of Separation Science,2006,29(7):945-952.
[12]Chang Y X,Ren C X,Ruan Q,et al. Effect of single-walled carbon nanotubes on cellulose phenylcarbamate chiral stationary phases[J]. Chemical Research in Chinese Universities,2007,23(6):646-649.