李存玉(南京中醫藥大學副教授)

李存玉，男，南京中醫藥大學，副教授。

[1] Cunyu Li, Chenguang Zhao, Yun Ma, Wei Chen, Yunfeng Zheng, Xinglei Zhi, Guoping Peng. Optimization of ultrasonic-assisted ultrafiltration process for removing bacterial endotoxin from diammonium glycyrrhizinate using response surface methodology. Ultrasonics - Sonochemistry, 2020, 68: 105215

[2]李存玉,鄭雲楓,潘林梅,彭國平.中藥製藥專業虛擬仿真教學平台建設的探索.藥學教育,2020,36(2):62-65.

[3]李存玉,伍清萍,鄭雨君,李紅陽,彭國平.有機溶液環境下地黃中梓醇的納濾分離機制研究.南京中醫藥大學學報,2020,36(2):241-245.

[4] Cunyu Li, Yun Ma, Hongyang Li, Guoping Peng. Exploring the nanofiltration mass transfer characteristic and concentrate process of procyanidins from grape juice. Food Science & Nutrition, 2019, 7: 1884-1890

[5] Cunyu Li, Yun Ma, Jiamei Gu, Xinglei Zhi, Hemin Li, A green separation mode of synephrine from Citrus aurantium L. (Rutaceae) by nanofiltration technology. Food Science & Nutrition, 2019, 7: 4014-4020

[6]李存玉,支興蕾,牛學玉,戴凌婕,李紅陽,彭國平.基於成分狀態分析溶液環境對三七總皂苷超濾分離行為的影響.中草藥,2019,50(21):5246-5252.

[7]李存玉,鄭雲楓,彭國平.基於虛實結合的“中藥製藥化學”多維開放性實驗教學體系構建.實驗技術與管理,2019,36(9):215-218.

[8]李存玉,李賀敏,支興蕾,劉莉成,李紅陽,彭國平.水蘇鹼在乙醇中的納濾分離行為.中成藥,2019,41(6):1223-1226.

[9]李存玉,牛學玉,劉桓妗,李賀敏,李紅陽,彭國平.多指標評價有機相中納濾分離丹酚酸B的適用性.中草藥,2019,50(6):1328-1333.

[10]李存玉,鄭雲楓,潘林梅,彭國平.基於虛擬仿真技術的中藥製藥開放性實驗教學模式探索.中醫教育,2019,38(1):28-30.

[11]李存玉,馬贇,李紅陽,彭國平.有機溶液環境中的迷迭香酸納濾分離行為及富集工藝.天然產物研究與開發,2019,31(5):895-901.

[12] Cunyu Li, Yun Ma, Hongyang Li, Guoping Peng. Concentration of polyphenolic compounds from grape seed by nanofiltration technology. International Journal of Food Engineering, 2018, 14(11-12): 1-11

[13]李存玉,支興蕾,李賀敏,李紅陽,彭國平.生物鹼類成分的納濾傳質行為與分子結構的相關性.藥學學報,2018,53(12):1963-1967.

[14]李存玉,陳琪,劉乃榕,李賀敏,李紅陽,彭國平.有機溶液環境中阿魏酸的納濾“強化”分離行為研究.中草藥,2018,49(21):5070-5075.

[15]李存玉,吳鑫,馬贇,李紅陽,彭國平.夏枯草中迷迭香酸的納濾分離行為及富集工藝對比.中藥材,2018,41(8):1947-1949.

[16]李存玉,吳鑫,左雯雯,沈子博,李紅陽,彭國平.基於納濾傳質模型探索有機溶液對麻黃鹼的強化分離效應.中國中藥雜誌,2018,43(22):4433-4438.

[17]李存玉,吳鑫,顧佳美,李紅陽,彭國平.丹參中酚酸類成分相對分子質量大小與納濾傳質係數的相關性.中國中藥雜誌,2018,43(7):1453-1458.

[18] Cunyu Li, Yun Ma, Hongyang Li, Guoping Peng, A convenient method for the determination of molecular weight cut-off of ultrafiltration membranes. Chinese Journal of Chemical Engineering, 2017, 25(1): 62-67

[19] Cunyu Li, Yun Ma, Hongyang Li, Guoping Peng, Concentrating Phenolic Acids from Lonicera Japonica by Nanofiltration Technology. Advances in Materials, Machinery, Electronics, 2017, 1820(030002):1-10

[20]李存玉,彭國平,鄭雲楓,潘林梅.注射劑中熱原線上檢測儀及套用.實驗技術與管理,2017,34(12):97-101+107.

[21]李存玉,馬贇,陳銘佳,李紅陽,彭國平.基於調節解離狀態的丹參酚酸納濾分離機制.中成藥,2017,39(12):2517-2520.

[22]李存玉,馬贇,劉莉成,張子揚,李紅陽,彭國平.紫蘇葉中咖啡酸存在狀態與其納濾傳質過程的相關性.中草藥,2017,48(19):3986-3991.

[23]李存玉,馬贇,劉莉成,陸茜,彭國平.中藥枳實中辛弗林存在狀態與其納濾傳質過程的相關性.中國中藥雜誌,2017,42(23):4598-4603.

[24]李存玉,馬贇,吳晨曦,陳濤,李紅陽,彭國平.回響面分析法最佳化金銀花的納濾濃縮工藝.中藥材,2017,40(6):1389-1392.

[25]李存玉,劉莉成,金立陽,李紅陽,彭國平.基於道南效應和溶解-擴散效應分析低濃度乙醇中綠原酸的納濾分離規律.中國中藥雜誌,2017,42(14):2670-2675.

[26]李存玉,馬贇,李紅陽,顧佳美,彭國平.超濾-納濾聯用最佳化八角茴香中莽草酸的富集工藝.食品工業科技,2017,38(15):185-189+195.

[27]李存玉,鄭雲楓,潘林梅,彭國平.組織開放實驗 提高學生實踐能力.藥學教育,2017,33(2):76-79.

[28]李存玉,彭國平,鄭雲楓,潘林梅.《中藥製藥專業綜合實驗》課程教學改革實踐——以丹參注射液開放性設計實驗為例.教育教學論壇,2017,13:272-274.

[29]李存玉,馬贇,劉奕洲,李紅陽,彭國平.Box-Behnken回響面法最佳化川芎水提液納濾工藝.中成藥,2017,39(2):296-300.

[30]李存玉,馬贇,劉奕洲,李紅陽,顧佳美,彭國平.超濾-納濾聯用最佳化益母草生物鹼的濃縮工藝.中國中藥雜誌,2017,42(1):100-106.

[31]李存玉,馬贇,黃順發,李紅陽,彭國平.回響曲面法最佳化納濾濃縮延胡索水提液的工藝研究.時珍國醫國藥,2016,27(11):2641-2644.

[32]李存玉,馬贇,龔柔佳,李紅陽,彭國平.回響面分析法耦合調節Donnan效應最佳化苦參提取液的納濾濃縮工藝.中草藥,2016,47(19):3395-3400.

[33]李存玉,馬贇,李賀敏,陳濤,李紅陽,彭國平.消癌平注射液提取濃縮工藝的最佳化.中成藥,2016,38(8):1712-1715.

[34]李存玉,馬贇,陳濤,李紅陽,彭國平.基於納濾分離優勢最佳化丹參注射液的生產濃縮工藝.國際中醫中藥雜誌,2016,38(6):543-545.

[35]李存玉,彭國平.中藥製藥綜合實驗教程的探索與建設.中醫教育, 2015, 34(4): 4-7.

[36]李存玉,馬贇,陳濤,支興蕾,李紅陽,鄭雲楓,彭國平.一種適用於製藥行業中快速評價超濾膜孔徑的方法.中草藥,2015,46(11):1603-1608.

[37]李存玉,錢祥,楊澤秋,陳偉偉,李紅陽,彭國平.基於納濾技術的消癌平注射液中的鉀離子去除工藝最佳化.中成藥,2015,37(02):294-297.

[38]李存玉,支興蕾,李賀敏,李紅陽,鄭雲楓,彭國平.丹參滴注液生產過程中的內毒素水平監控.中成藥,2014,36(11):2421-2423.

[39] Cunyu Li, Xianfeng Huang, Wei Xiao, Xinglei Zhi, Hemin Li, Zhenzhong Wang, Guoping Peng, Removal of bacterial endotoxin micelle from Salvia injection by composite materials ultrafiltration membrane, Asian Journal of Chemistry, 2013, 25(12): 6978-6982