Cellulose diethylaminoethyl ether (selectacel deae)
Diethylaminoethyl cellulose
CAS: 9013-34-7
Molecular Formula: C20H23NO5
Cellulose diethylaminoethyl ether (selectacel deae) - Names and Identifiers
Cellulose diethylaminoethyl ether (selectacel deae) - Physico-chemical Properties
| Molecular Formula | C20H23NO5 |
| Molar Mass | 357.406 |
| Flash Point | 36°C |
| Appearance | preswollen, microgranular |
| Color | Off-White to Light Grey |
| Storage Condition | Refrigerator |
| Sensitive | Easily absorbing moisture |
| Use | Used for column chromatography analysis to separate and purify polysaccharides, peptides, nucleotides, enzymes, serum components and viruses. |
Cellulose diethylaminoethyl ether (selectacel deae) - Risk and Safety
| Risk Codes | R10 - Flammable R36/37/38 - Irritating to eyes, respiratory system and skin. R20/21/22 - Harmful by inhalation, in contact with skin and if swallowed. |
| Safety Description | S26 - In case of contact with eyes, rinse immediately with plenty of water and seek medical advice. S36 - Wear suitable protective clothing. S37/39 - Wear suitable gloves and eye/face protection |
| UN IDs | UN 1170 3/PG 3 |
| WGK Germany | 3 |
| FLUKA BRAND F CODES | 3 |
Cellulose diethylaminoethyl ether (selectacel deae) - Reference
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Science and Technology of Food Industry, 2016, 37(003):187-190. 6. Zhang Zejun, Wang Rui, Zhao Zhongxia, etc. Water extraction and alcohol precipitation method for extraction of polysaccharides from wild Xanthomonas sp. In Zhaotong [J]. Guangdong chemical industry, 2017(22):52 66. 7. Yang Min, long Haitao, Joe, Navy. Preparation and process optimization of Elaeagnus angustifolia polysaccharide effervescent tablets [J]. Science and Technology of Food Industry, 2016, 37(09):256-261. 8. Fan Xiuzhi, Yin Chaomin, Yao Fen, et al. Isolation, purification and moisture retention of polysaccharides from Auricularia auricula by liquid fermentation [J]. Modern food science and technology, 2018, 34(10):55-63. 9. An Xiaojuan, Feng Lin, Song Hongping, etc. Isolation, purification and structure analysis of epimedium polysaccharides [J]. Journal of Biology, 2012, 29(003):39-41. 10. Jun Wang. Study on extraction and structure of Ganoderma lucidum polysaccharides [J]. Modern Agricultural Science and Technology,, 000(017):255,259. 11. Chen Sisi, Wu Bei, Tan Ting, et al. Isolation, purification, structural characterization and antitumor activity of Bletilla striata polysaccharide BSP-1 [J]. Chinese herbal medicine, 2019, v.50;No.643(08):182-187. 12. Wang Tao, Ren yameei, Yue Zhenzhen, etc. Isolation, purification, structure characterization and antioxidant activity of Pink Lady Apple polysaccharides [J]. Chinese Journal of Food Science, 2018, 018(004):183-192. 13. Ying guo, Jiang Tian, Li Shuyi, et al. Preparation and structural characterization of anthocyanin-protein complexes from purple sweet potato [J]. Food Science, 2016, 37(021):109-113. 14. Jiang Qi, Lou zaixiang, Wang Zhengqi, etc. Isolation, purification, molecular conformation analysis and antioxidant activity of polysaccharides from Cordyceps militaris [J]. Food and Fermentation Industry, 2019, 045(001):22-28. 15. Xing Li, Ma Houyu, Jiang Ling, Miao smelting. Low-temperature drying inhibits polymerization of water-soluble polysaccharides from dendrobium officinale [J]. Modern food science and technology, 2020,36(07):88-95 124. 16. Huang Junbin, Huang Dandan, Chen Huanhuan, etc. Determination of molecular weight of polysaccharides from dendrobium officinale and its influencing factors [J]. Science and Technology of food industry, 2017, 38(007):81-85. 17. Luo Qilian, Tang Jiahui, Zhang Xuefeng, et al. Isolation, purification and structure of polysaccharides from dendrobium officinale [J]. Journal of Guangxi University: natural science edition, 2016, 041(006):2060-2066. 18. Wang Junling, Wei pinxiao, Qiu Xujian, Weng Wuyin. Properties and anti-tumor activity of abalone muscle polysaccharides [J]. Food Science, 2018,39(12):26-32. 19. He Fengping, Pan Yonggui, Zhang Weiming. Purification and kinetic properties of flavonoid 3 '-hydroxylase from fresh-cut Chinese water chestnut [J]. Food Science, 2017, 38(08):17-23. 20. Zhang youyao, Zhang Meng, Hu Yue, Ren Jianwu. Purification, sulfation, carboxymethylation and antioxidant activity of Polygonatum sibiricum polysaccharides [J]. Science and Technology of food industry, 2019,40(21):45-51. 21. Tang Xian, Ding Xiang, Zhu Miao, etc. Structure and in vitro antitumor activity of Boletus aerogel polysaccharides [J]. Food and Drug, 2019, v.21(04):7-10. 22. Feng Yu, Li Yanhong, Jie Yuhong. Isolation, purification and antioxidant activity of polysaccharide from fermented straw [J]. Food Science and Technology, 2019, 044(002):203-208. 23. Zheng Yuyin, Yang Yongfang, Ding Guofang, et al. Study on preparation technology and anti-prostate cancer in vitro of cuttlefish ink peptidoglycan [J]. Shi Zhen, Chinese medicine 2012(01):111-113. 24. Not won, Shao Li, Yang Jinjuan, etc. Isolation, purification and structure identification of polysaccharide from Xinjiang Coulomb Snow Chrysanthemum [J]. China Brewing, 2016(7):74-78. 25. Lian Yanan, Guo Tingting, Cui Lin, etc. Composition Analysis of glycoproteins from Platycodon grandiflorum and its scavenging effect on · OH [J]. Science and Technology of Food Industry, 2016, 37(03):41-45. 26. Fu Yifan, Zhou Yu, Li Xingxin, etc. Purification and characterization of alliinase from Chinese onion [J]. Food Science, 2012, 33(005):129-133. 27. Wang Xiaoqin, Ji Xiaorong, Peng Qiang, etc. Preliminary Structural characteristics and antioxidant activity of jujube polysaccharide ZJP2 [J]. Modern food science and technology, 2016, v.32;No.200(04):100-105. 28. Tan Ting, Zhang Jing, Chen Lin, Feng Yulin, Yang Shilin, hot spring, Luo Yun. Structural Characterization and anti-complement activity of polysaccharides from Herba glechomae [J]. Chinese herbal medicine, 2020,51(19):4916-4924. 29. Yu Shupeng, Zeng Rui, Han Zhen, Zeng yuanlian, Yang Ling, Yan Yan, Qin Xuhua. Isolation, purification, structure characterization and anti-inflammatory activity evaluation of polysaccharide GCP-1 from Gentiana macrophylla [J]. Chinese herbal medicine, 2021,52(03):635-642. 30. Liu, Wei, et al. "Characterization and hypogenic effect of a neutral polyactide extracted from the residue of coptopsis Pilosula." Carbohydrate polymers 197 (2018): 215-226.https:// doi.org/10.1016/j. Carbpol. Pan, Xin-Xin, et al. "Characterization and immunomodulatory activity of polysaccharides from the systems and hearts of Abelmoschus manihot and a sulfated derivative." International journal of biological macromolecules 107 (2018): 9-16.https://doi.org/10.1016 32. Wan, Xilin, et al. "Characterization of a polysaccharide from Sanghuangporus vaninii and its antitumor regulation via activation of the p53 signaling pathway in breast cancer MCF-7 cells." International Journal of Biological Macromolecules 163 (2020): 865- 33. Minqian Zhu, Riming Huang, Peng Wen Ya Song, Baolin He, Jialing Tan, Huili Hao, Hong Wang, Structural characterization and immunological activity of pectin polysaccharide from kiwano (Cucumis metuliferus) peels, Carbohydrate Polymers, Volume 254, 2021, 11 34. Lei Zhang, Wenbing Rao, Solange Muhayimana, Xianfei Zhang, Jiuyong Xu, Ciying Xiao Qingchun Huang, Purification and biochemical characterization of a novel transglutaminase from Mythimna separata larvae (Noctuidae, Lepidoptera), Journal of Biotechnology, 35. Zhurui Li, Jie Xiang, Deyu Hu, Baoan Song, Naturally potential antiviral agent polysaccharide from Dendrobium nobile Lindl., Pesticide Biochemistry and Physiology, Volume 167, 2020, 104598, ISSN 0048-3575 https://doi.org/10.1016/j.pestbp.2020.104598. 36. Guo, Wanghuan, et al. "Cellulose-based ionic liquids as an adsorbent for high selective recovery of gold." Minerals Engineering 125 (2018): 271-278.https://doi.org/10.1016/j.mineng.2018.06.012 37. 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Cellulose diethylaminoethyl ether (selectacel deae) - Reference Information
| EPA chemical substance information | information provided by: ofmpeb.epa.gov (external link) |
| Use | biochemical studies 70% ethanol, 20% ethanol. Gel type: cellulose gel, ion exchange type. Structural components: highly cross-linked cellulose. Particle size: 50um. Ligand density: 40umol/mL. Adsorption loading: 180mg HSA/mL. The use of an average particle size of 50um particle type hydrophilic polymer, the surface and the use of macromolecular sugar link branches, so that it has a higher specific surface area and better biological compatibility, high load, at the same time, it has better resolution for the separation of biological polymers. gel type: cellulose gel, ion exchange type. Structural components: highly cross-linked cellulose. Particle size: 50um. Ligand density: 40umol/mL. Adsorption loading: 180mg HSA/mL. The use of an average particle size of 50um particle type hydrophilic polymer, the surface and the use of macromolecular sugar link branches, so that it has a higher specific surface area and better biological compatibility, high load, at the same time, it has better resolution for the separation of biological polymers. |
Last Update:2024-04-09 21:21:28
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