基本描述

规格或纯度

JP, 欧洲药典（Ph.Eur）, NF, EtOH-based

英文名称

Sodium Starch Glycolate

运输条件

常规运输

产品介绍

产品描述：

S494224，淀粉乙醇酸钠，是一种由马铃薯淀粉通过羧甲基化和交联制备的超级分散剂，用于片剂和其他口服固体剂型。其独特的性能和成本效益组合已成为全球公认的、广泛应用于制药行业的产品。

S494224在与水和其他介质接触时表现出强烈的溶胀性能。这种高纯度的赋形剂保留其球形结构以促进良好的流动性，几乎不含氯化钠或乙醇，并且具有高亮度。

优点：

1.良好的流动性和混合性能

2.专业等级

3.强膨胀性能

产品规格与参数：

项目号	pH值	非转基因	药品注册类型	主要应用	包装
S494224-NM-500g	5.5 – 7.5	✓	A	超级崩解剂，具有快速和高溶胀度，适用于片剂和胶囊制剂。特别是对于水溶性较差的活性物质和pH值较高的片剂基质。	500g
S494224-CLV-500g	5.5 – 7.5	✓	A	交联次数增加的特殊等级。特别适用于湿法造粒应用。	500g
S494224-PCF-500g	5.5 – 7.5	✓	A	对于要求极低离子含量的原料药，建议使用最高0.7%NaCl的特殊等级。	500g
S494224-Low pH-500g	5.5 – 7.5	✓	B	特殊等级，pH值低。符合欧洲药典，NF，JP的B型。	500g
S494224-NM-2.5kg	5.5 – 7.5	✓	A	超级崩解剂，具有快速和高溶胀度，适用于片剂和胶囊制剂。特别是对于水溶性较差的活性物质和pH值较高的片剂基质。	2.5kg
S494224-CLV-2.5kg	5.5 – 7.5	✓	A	交联次数增加的特殊等级。特别适用于湿法造粒应用。	2.5kg
S494224-PCF-2.5kg	5.5 – 7.5	✓	A	对于要求极低离子含量的原料药，建议使用最高0.7%NaCl的特殊等级。	2.5kg
S494224-Low pH-2.5kg	5.5 – 7.5	✓	B	特殊等级，pH值低。符合欧洲药典，NF，JP的B型。	2.5kg

S494224, sodium starch glycolate, is a superdistintegrant made from potato starch by carboxymethylation and crosslinking for tablets and other oral solid dosage forms. Its unique combination of performance and cost-effectiveness has established as globally recognized and widely used product in the pharmaceutical industry.

S494224 demonstrates strong swelling properties upon contact with water and other media. This highly pure excipient retains its spheroid structure to promote good flow, contain little sodium chloride or ethanol, and have high brightness.

Benefits:

1.Good flowability and mixing properties

2.Specialty grades

3.Strong swelling properties

Product specifications and parameters:

SKU	pH Value	GMO Free	Compendial Type	Main Application	Pack Size
S494224-NM-500g	5.5 – 7.5	✓	A	Superdisintegrant with a rapid and high degree of swelling for tablet and capsule formulations. Especially for poorly water-soluble actives and tablet matrices with higher pH values.	500g
S494224-CLV-500g	5.5 – 7.5	✓	A	Special grade with increased number of crosslinkings. Especially suited for wet granulation applications.	500g
S494224-PCF-500g	5.5 – 7.5	✓	A	Special grade with max. 0.7 % NaCl recommended for APIs which require a very low ion content.	500g
S494224-Low pH-500g	5.5 – 7.5	✓	B	Special grade with low pH value. Complies with Type B of Ph. Eur, NF, JP.	500g
S494224-NM-2.5kg	5.5 – 7.5	✓	A	Superdisintegrant with a rapid and high degree of swelling for tablet and capsule formulations. Especially for poorly water-soluble actives and tablet matrices with higher pH values.	2.5kg
S494224-CLV-2.5kg	5.5 – 7.5	✓	A	Special grade with increased number of crosslinkings. Especially suited for wet granulation applications.	2.5kg
S494224-PCF-2.5kg	5.5 – 7.5	✓	A	Special grade with max. 0.7 % NaCl recommended for APIs which require a very low ion content.	2.5kg
S494224-Low pH-2.5kg	5.5 – 7.5	✓	B	Special grade with low pH value. Complies with Type B of Ph. Eur, NF, JP.	2.5kg

名称和识别符

PubChem CID	47207535

质检证书（CoA,COO,BSE/TSE 和分析图谱)

C of A & Other Certificates(BSE/TSE, COO):

输入批号以搜索分析图谱:

此产品的引用文献

如何在您的发表作品中引用阿拉丁的产品和网站? 引用文献检索

引用文献

1. Shuo Li, Li Shi, Ting Ye, Biao Huang, Yuan Qin, Yongkang Xie, Xiaoyuan Ren, Xueqin Zhao. (2023) Development of Crosslinker-Free Polysaccharide-Lysozyme Microspheres for Treatment Enteric Infection. Polymers, 15 (5): (1077). [PMID:36904318] [10.3390/polym15051077]
2. Fanli Shi, Ruilong Li, Wenjing Wang, Xiangyu Yu, Fenxia Zhu, Yiping Huang, Jing Wang, Zhenhai Zhang. (2023) Carboxymethyl starch as a solid dispersion carrier to enhance the dissolution and bioavailability of piperine and 18β-glycyrrhetinic acid. DRUG DEVELOPMENT AND INDUSTRIAL PHARMACY, [PMID:36803327] [10.1080/03639045.2023.2182120]
3. Yiyan Gao, Zhixin Zhang, Xiuyan Ren, Fei Jia, Guanghui Gao. (2022) A hydrogel sensor driven by sodium carboxymethyl starch with synergistic enhancement of toughness and conductivity. Journal of Materials Chemistry B, 10 (30): (5743-5752). [PMID:35802130] [10.1039/D2TB00839D]
4. Luhui Wang, Zihao Wei, Changhu Xue. (2022) The presence of propylene glycol alginate increased the stability and intestine-targeted delivery potential of carboxymethyl starch-stabilized emulsions. FOOD RESEARCH INTERNATIONAL, 157 (111387). [PMID:35761643] [10.1016/j.foodres.2022.111387]
5. Amir E. Kaziem, Liupeng Yang, Yigang Lin, Yuting Tan, Zixia Song, Hanhong Xu, Zhixiang Zhang. (2022) Pest Invasion-Responsive Hollow Mesoporous Silica-Linked Carboxymethyl Starch Nanoparticles for Smart Abamectin Delivery. ACS Applied Nano Materials, 5 (3): (3458–3469). [10.1021/acsanm.1c04086]
6. Haq Fazal, Yu Haojie, Wang Li, Teng Lison, Mehmood Sahid, Haroon Muhammad, Bilal-Ul-Amin, Uddin Md Alim, Fahad Shah, Shen Di. (2021) Synthesis of succinylated carboxymethyl starches and their role as adsorbents for the removal of phenol. COLLOID AND POLYMER SCIENCE, 299 (11): (1833-1841). [10.1007/s00396-021-04901-x]
7. Baolei Dong, Hongfang Li, Jiefang Sun, Yuan Li, Ghulam Mujtaba Mari, Xuezhi Yu, Wenbo Yu, Kai Wen, Jianzhong Shen, Zhanhui Wang. (2021) Magnetic assisted fluorescence immunoassay for sensitive chloramphenicol detection using carbon dots@CaCO3 nanocomposites. JOURNAL OF HAZARDOUS MATERIALS, 402 (123942). [PMID:33254829] [10.1016/j.jhazmat.2020.123942]
8. Yuxiang Xue, Qianqian Chang, Xinyu Hu, Jun Cai, Hu Yang. (2020) A simple strategy for selective photocatalysis degradation of organic dyes through selective adsorption enrichment by using a complex film of CdS and carboxylmethyl starch. JOURNAL OF ENVIRONMENTAL MANAGEMENT, 274 (111184). [PMID:32791324] [10.1016/j.jenvman.2020.111184]
9. Xinliang Li, Guancheng Jiang, Xiulun Shen, Gongrang Li. (2020) Application of Tea Polyphenols as a Biodegradable Fluid Loss Additive and Study of the Filtration Mechanism. ACS Omega, 5 (7): (3453–3461). [PMID:32118159] [10.1021/acsomega.9b03712]
10. Xingtao Chen, Shuyang Li, Yonggang Yan, Jiacan Su, Dongliang Wang, Jun Zhao, Sicheng Wang, Xin Zhang. (2020) Absorbable nanocomposites composed of mesoporous bioglass nanoparticles and polyelectrolyte complexes for surgical hemorrhage control. Materials Science & Engineering C-Materials for Biological Applications, 109 (110556). [PMID:32228979] [10.1016/j.msec.2019.110556]
11. Liang Liu, Ying Zhang, Shuangjiang Yu, Zhen Zhang, Chaoliang He, Xuesi Chen. (2018) pH- and Amylase-Responsive Carboxymethyl Starch/Poly(2-isobutyl-acrylic acid) Hybrid Microgels as Effective Enteric Carriers for Oral Insulin Delivery. BIOMACROMOLECULES, 19 (6): (2123–2136). [PMID:29664632] [10.1021/acs.biomac.8b00215]
12. Huimei Cai, Guijie Chen, Chuanyi Peng, Lingyun Xu, Zhengzhu Zhang, Fei Ke, Xiaochun Wan. (2015) Enhanced fluoride removal by loading Al/Zr onto carboxymethyl starch sodium: synergistic interactions between Al and Zr. RSC Advances, 5 (123): (101819-101825). [10.1039/C5RA18167D]
13. Guisheng Gong, Faai Zhang, Zehong Cheng, Li Zhou. (2015) Facile fabrication of magnetic carboxymethyl starch/poly(vinyl alcohol) composite gel for methylene blue removal. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 81 (205). [PMID:26234575] [10.1016/j.ijbiomac.2015.07.061]
14. Beina Wu, Yaping Guo, Hongmei Cao, Yang Zhang, Lili Yu, Nengqin Jia. (2013) A novel mesoporous molecular sieves-based electrochemilumenescence sensor for sensitive detection of azithromycin. SENSORS AND ACTUATORS B-CHEMICAL, 186 (219). [10.1016/j.snb.2013.05.080]
15. Hao Xu, Yihao Huang, Kuang He, Ziqiang Lin, David Julian McClements, Yao Hu, Hao Cheng, Xinwen Peng, Zhengyu Jin, Long Chen. (2024) An effective preserving strategy for strawberries by constructing pectin/starch coatings reinforced with functionalized eggshell fillers. FOOD CHEMISTRY, 450 (139314). [PMID:38636383] [10.1016/j.foodchem.2024.139314]
16. Luhui Wang, Zihao Wei, Changhu Xue. (2024) Co-encapsulation of curcumin and fucoxanthin in solid-in-oil-in-water multilayer emulsions: Characterization, stability and programmed sequential release. FOOD CHEMISTRY, 456 (139975). [PMID:38852456] [10.1016/j.foodchem.2024.139975]
17. Jianguo Huang, Rashid Khan, Chunhui Zhai, Xianting Ding, Li-Sha Zhang, Jin-Ming Wu, Zhizhen Ye. (2024) Cu-Doped MnO2 Catalysts for Effective Fruit Preservation via Ozone Synergistic Catalytic Oxidation. Foods, 13 (24): (4127). [PMID:39767068] [10.3390/foods13244127]
18. Yun Wang, David Julian McClements, Xinwen Peng, Zhenlin Xu, Man Meng, Hangyan Ji, Chaohui Zhi, Lei Ye, Jianwei Zhao, Zhengyu Jin, Long Chen. (2024) Effects of crosslinking agents on properties of starch-based intelligent labels for food freshness detection. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 261 (129822). [PMID:38307437] [10.1016/j.ijbiomac.2024.129822]
19. Penghui Wang, Ruixue Li, Juping Ma, Wenjie Zhang, Haifeng Shen, Yanhan Ren, Xun Zhang, Shuang Li, Bo Chi. (2024) Facilitating safe and sustained submucosal lift through an endoscopically injectable shear-thinning carboxymethyl starch sodium hydrogel. CARBOHYDRATE POLYMERS, 336 (122128). [PMID:38670759] [10.1016/j.carbpol.2024.122128]
20. Zechao Huangfu, Wei Sun, Runqing Liu, Chen Chen, Chenyang Zhang, Heng Yu, Siyuan Liu. (2025) Heterogeneous adsorption of carboxymethyl starch on anisotropic molybdenite and talc surfaces and its effect on flotation. SEPARATION AND PURIFICATION TECHNOLOGY, 363 (131849). [10.1016/j.seppur.2025.131849]
21. Shiji Shao, Zikai Xu, Shan Xia, Guanghui Gao. (2025) Mechanistic and adsorption kinetics study of sulfonated activated carbon enhanced starch-based aerogel for high efficient adsorption of cationic and anionic dyes. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, (142555). [PMID:40157694] [10.1016/j.ijbiomac.2025.142555]
22. Bian Zhentao, Ye Ziyan, Zhang Yiru, Ye Ru, Zhu Yanyan, Liu Chengcheng, Zhang Pinghua, Wang Hongyan, Chen Chong, Zhuo Xin, Zhang Keying. (2024) Nitrogen, fluorine and boron tri-doped flower-like porous carbon derived from sodium carboxymethyl starch for high-performance supercapacitors. VACUUM, 222 (113098). [10.1016/j.vacuum.2024.113098]
23. Yan Li, Yu Ma, Yan Wang, Fan Chang, Jiakun Dai. (2024) Optimization of the Process for Slow-Release Urea Fertilizer with Water Absorption Based on Response Surface Methodology. Applied Sciences-Basel, 14 (20): (9352). [10.3390/app14209352]
24. Yan Li, Yu Ma, Fan Chang, Haiyun Zhu, Chengshan Tian, Fengan Jia, Yang Ke, Jiakun Dai. (2024) Slow-Release Urea Fertilizer with Water Retention and Photosensitivity Properties Based on Sodium Alginate/Carboxymethyl Starch Sodium/Polydopamine. Processes, 12 (4): (842). [10.3390/pr12040842]
25. Mingge Wang, Yu Jiang, Lei Li, Zehui Peng, Jie Wang, Xinqing Duan, Dar-Jen Hsieh, Kuan-Chang Chang. (2025) Sodium Carboxymethyl Starch Films with Enhanced Cross-Linking, Electrical, and Mechanical Properties via Supercritical-Assisted Modification. ACS Sustainable Chemistry & Engineering, 13 (6): (2293-2302). [10.1021/acssuschemeng.4c06299]
26. Wenchen Pu, Xianyan Shen, Xin Fan, Yuanyuan Zheng, Xuesha Liu, Jiao Li, Jian-Kang Zhou, Juan He, Rong Wei, Yanqiu Gong, Qingquan Zheng, Yao Luo, Yingli Guo, Min Ai, Yue Ming, Zixia Ye, Yun Zhao, Chun Wang, Yong Peng. (2025) Structure-Guided Optimization and Preclinical Evaluation of 6-O-Benzylguanine-Based Pin1 Inhibitor for Hepatocellular Carcinoma Treatment. JOURNAL OF MEDICINAL CHEMISTRY, [PMID:39868498] [10.1021/acs.jmedchem.4c02144]
27. Zheng Cai, Canjia Chen, Rui Huang, Rui Zhang, Wei Zhou, Chao Huang, Yong Hu, Fenglin Song, Yun Chen. (2024) Study on Preparation and Properties of Pickering Emulsions Prepared by Carboxymethyl Starch-Xanthan Gum Nanoparticles. STARCH-STARKE, (2300298). [10.1002/star.202300298]

溶液计算器

摩尔浓度计算器

计算溶液所需的质量、体积或浓度。

质量

浓度

体积

分子量

g/mol

稀释计算器

计算配制储备溶液所需的稀释度。

浓度1（C1）

体积 1 (V1)

浓度 2 (C2)

体积 2 (V2)

复溶计算器

复溶计算器允许您快速计算试剂的体积，以复溶小瓶。只需输入试剂的质量和目标浓度，计算器将确定其余部分。

体积（添加到小瓶中）

质量（小瓶）

所需的复溶浓度

羧甲基淀粉钠