1,4-Piperazinediethanesulfonic acid(PIPES) - for cell culture, ≥99% , CAS No.5625-37-6

CAS: 5625-37-6 Cat. No.: P105092 Peso molecular: 302.37 Beilstein Registry Number: 817713 Número EC: 227-057-6
Disponible para pedir
GRADE & PURITY for Cell culture ? Cell-culture grade — low endotoxin and contaminants to support viable cell growth. Use in mammalian/other cell culture media and supplements. ≥99%
Synonyms
FT-0635789 | G502H79V6L | NCGC00164485-01 | 2,2'-piperazine-1,4-diylbisethanesulfonic acid | 2-[(2-aminoacetyl)-methylamino]acetic acid | NSC157117 | NSC-157117 | 2,2'-(Piperazine-1,4-diyl)diethanesulfonicacid | CHEBI:44933 | AS-12650 | 3,9-bis(2,4-ditert
Storage
Room temperature
Shipped In
Normal
 ·  off list, applied to all prices below.
Size
Estado
Price
Qty
25g
P105092-25g
1
20,90US$
100g
P105092-100g
5
39,90US$
500g
P105092-500g
1
157,90US$
Enter a quantity for the sizes you want to add.
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Why this grade

for cell culture, ≥99% for Cell culture for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Room temperature Ships Normal Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 33 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Descripción general

useful pH range 6.1 - 7.5 pKa (25 °C) 6.8

Specifications

Sinónimos
FT-0635789 | G502H79V6L | NCGC00164485-01 | 2, 2'-piperazine-1, 4-diylbisethanesulfonic acid | 2-[(2-aminoacetyl)-methylamino]acetic acid | NSC157117 | NSC-157117 | 2, 2'-(Piperazine-1, 4-diyl)diethanesulfonicacid | CHEBI:44933 | AS-12650 | 3, 9-bis(2, 4-ditert
Especificaciones y pureza
for cell culture, ≥99%
Condiciones de almacenamiento de almacenamiento
Room temperature
Enviado en
Normal
Grado
for Cell culture
Pureza
≥99%
Nombres e identificadores
Pubchem Sid488185765
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/488185765
Sonrisas canónicasC1CN(CCN1CCS(=O)(=O)O)CCS(=O)(=O)O
IUPAC Name2-[4-(2-sulfoethyl)piperazin-1-yl]ethanesulfonic acid
InChIKeyIHPYMWDTONKSCO-UHFFFAOYSA-N
INCHI1S/C8H18N2O6S2/c11-17(12,13)7-5-9-1-2-10(4-3-9)6-8-18(14,15)16/h1-8H2,(H,11,12,13)(H,14,15,16)
Isómeros SMILES C1CN(CCN1CCS(=O)(=O)O)CCS(=O)(=O)O
WGK Alemania 3
Peso molecular 302.37
Beilstein 817713
Reaxy-Rn 817713
Reaxys-RN_link_address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=817713&ln=

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

Download SDS →

✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

Look up COA →

📊 Datasheet

Quick-reference summary of product specifications and applications.

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

View spec sheet →

Advanced Data

Taxonomic Classification

Taxonomy Tree

KingdomOrganic compounds
SuperclassOrganoheterocyclic compounds
ClaseDiazinanes
SubclassPiperazines
Intermediate Tree Nodes Not available
Direct ParentN-alkylpiperazines
Alternative Parents Sulfonyls  Organosulfonic acids  Alkanesulfonic acids  Trialkylamines  Azacyclic compounds  Organopnictogen compounds  Organic oxides  Hydrocarbon derivatives  
Molecular FrameworkAliphatic heteromonocyclic compounds
Substituents N-alkylpiperazine - Organic sulfonic acid or derivatives - Organosulfonic acid or derivatives - Organosulfonic acid - Sulfonyl - Alkanesulfonic acid - Tertiary amine - Tertiary aliphatic amine - Azacycle - Amine - Organic oxide - Organopnictogen compound - Organic oxygen compound - Organic nitrogen compound - Organosulfur compound - Organonitrogen compound - Hydrocarbon derivative - Aliphatic heteromonocyclic compound
DescripciónThis compound belongs to the class of organic compounds known as n-alkylpiperazines. These are organic compounds containing a piperazine ring where the nitrogen ring atom carries an alkyl group.
External Descriptors PIPES
Estructura 3D
Modelo de Estructura Química Interactiva





Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

Find and download the COA for your product by matching the lot number on the packaging.

22 results found

Lot NumberCertificate TypeFechaArticulo
A2608402Certificate of AnalysisDec 26, 2025 P105092
A2608405Certificate of AnalysisDec 26, 2025 P105092
A2608406Certificate of AnalysisDec 26, 2025 P105092
J2128282Certificate of AnalysisAug 11, 2025 P105092
J2128281Certificate of AnalysisAug 11, 2025 P105092
G2530073Certificate of AnalysisAug 05, 2025 P105092
C2406006Certificate of AnalysisJul 05, 2022 P105092
C2525141Certificate of AnalysisJul 05, 2022 P105092
G2314174Certificate of AnalysisJul 05, 2022 P105092
I2212188Certificate of AnalysisJul 05, 2022 P105092
I2212189Certificate of AnalysisJul 05, 2022 P105092
I2212190Certificate of AnalysisJul 05, 2022 P105092
I2212277Certificate of AnalysisJul 05, 2022 P105092
B2309196Certificate of AnalysisJul 05, 2022 P105092
J2418123Certificate of AnalysisJul 05, 2022 P105092
K2310008Certificate of AnalysisJul 05, 2022 P105092
F2218054Certificate of AnalysisJun 22, 2022 P105092
G2215252Certificate of AnalysisSep 11, 2021 P105092
A2510634Certificate of AnalysisSep 11, 2021 P105092
C2308392Certificate of AnalysisSep 11, 2021 P105092
L2420090Certificate of AnalysisSep 11, 2021 P105092
L2427145Certificate of AnalysisSep 11, 2021 P105092

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Propiedades químicas y físicas
SolubilidadSoluble in 1M sodium hydroxide solution. Slightly soluble in water.
Punto de fusión (°C)>300°C
Peso molecular302.400 g/mol
XLogP3-6.700
Hydrogen Bond Donor Count2
Hydrogen Bond Acceptor Count8
Rotatable Bond Count6
Exact Mass302.061 Da
Monoisotopic Mass302.061 Da
Topological Polar Surface Area132.000 Ų
Heavy Atom Count18
Formal Charge0
Complexity397.000
Isotope Atom Count0
Defined Atom Stereocenter Count0
Undefined Atom Stereocenter Count0
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
The total count of all stereochemical bonds0
Covalently-Bonded Unit Count1
Preguntas frecuentes y artículos
Citations of This Product
Referencias
1. Dandan Cheng, Xin Han, Jiawen Zou, Zhenyu Li, Meiru Wang, Yuqing Liu, Kexuan Wang, Yan Li.  (2023)  Enhancing Cytochrome C Recognition and Adsorption through Epitope-Imprinted Mesoporous Silica with a Tailored Pore Size.  ACS Omega,      [PMID:38222537] [10.1021/acsomega.3c07387]
2. Dong Cheng, Haoran Ding, Yuansen Tan, Dezhi Yang, Ying Pan, Wenjuan Liao, Feng He.  (2023)  Dramatically enhanced phenol degradation upon FeS oxygenation by low-molecular-weight organic acids.  JOURNAL OF HAZARDOUS MATERIALS,      [PMID:37586237] [10.1016/j.jhazmat.2023.132260]
3. Yanchen Liu, Zhiqiang Zuo, He Li, Yaxin Xing, Dong Cheng, Miao Guo, Tao Liu, Min Zheng, Zhiguo Yuan, Xia Huang.  (2023)  In-situ advanced oxidation of sediment iron for sulfide control in sewers.  WATER RESEARCH,      [PMID:37247440] [10.1016/j.watres.2023.120077]
4. Ding Ming, Zhang Shuwei, Guo Yajuan, Yao Jingjing, Shen Qinghong, Huang Min, Chen Wenbo, Yu Shaofang, Zheng Yaqiu, Lin Yuefang, Yan Wenxin, Liu Zhongqiu, Su Tao, Lu Linlin.  (2022)  Tumor Microenvironment Acidity Triggers Lipid Accumulation in Liver Cancer via SCD1 Activation.  MOLECULAR CANCER RESEARCH,  20  (5): (810-822).  [PMID:35046108] [10.1158/1541-7786.MCR-21-0699]
5. Xinrui Hao, Jie Tang, Xiaoyun Yi, Kun Gao, Qian Yao, Chunhua Feng, Weilin Huang, Zhi Dang.  (2022)  Extracellular polymeric substance induces biogenesis of vivianite under inorganic phosphate-free conditions.  Journal of Environmental Sciences,      [PMID:35623765] [10.1016/j.jes.2021.08.043]
6. Hao Yu, Peng Zhang, Jiayu Liu, Yunsong Zheng, Nasiru Abba Mustapha.  (2021)  Effects of low-molecular-weight organic acids/thiols on hydroxyl radical production from natural siderite oxidation.  CHEMICAL GEOLOGY,      [PMID:] [10.1016/j.chemgeo.2021.120537]
7. Chunyu Zhang, Shoujing Qi, Jie Meng, Xuwei Chen.  (2021)  Selective and efficient extraction of heparin by arginine-functionalized flowered mesoporous silica nanoparticles with high capacity.  SEPARATION AND PURIFICATION TECHNOLOGY,      [PMID:] [10.1016/j.seppur.2021.119321]
8. Qian-Da Xu, Zhi-Long Yu, Wei-Cai Zeng.  (2021)  Structural and functional modifications of myofibrillar protein by natural phenolic compounds and their application in pork meatball.  FOOD RESEARCH INTERNATIONAL,      [PMID:34507738] [10.1016/j.foodres.2021.110593]
9. Jing Liu, Sayako Inoué, Runliang Zhu, Hongping He, Michael F. Hochella.  (2021)  Facet-specific oxidation of Mn(II) and heterogeneous growth of manganese (oxyhydr)oxides on hematite nanoparticles.  GEOCHIMICA ET COSMOCHIMICA ACTA,      [PMID:] [10.1016/j.gca.2021.05.043]
10. Xingyun Huang, Ying Peng, Jing Xu, Feng Wu, Gilles Mailhot.  (2020)  Iron(III)-induced photooxidation of arsenite in the presence of carboxylic acids and phenols as model compounds of natural organic matter.  CHEMOSPHERE,      [PMID:33297130] [10.1016/j.chemosphere.2020.128142]
11. Dong Cheng, Wenjuan Liao, Songhu Yuan.  (2020)  Effect of in situ generated iron oxyhydroxide coatings on FeS oxygenation and resultant hydroxyl radical production for contaminant degradation.  CHEMICAL ENGINEERING JOURNAL,      [PMID:] [10.1016/j.cej.2020.124961]
12. Ao Qian, Songhu Yuan, Shiwei Xie, Man Tong, Peng Zhang, Yunsong Zheng.  (2019)  Oxidizing Capacity of Iron Electrocoagulation Systems for Refractory Organic Contaminant Transformation.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,      [PMID:31603317] [10.1021/acs.est.9b03754]
13. Rong Chen, Hui Liu, Peng Zhang, Lei Zhao, Kang Ding, Songhu Yuan.  (2019)  Attenuation of Fe(III)-reducing bacteria during table fluctuation of groundwater containing Fe2+.  SCIENCE OF THE TOTAL ENVIRONMENT,      [PMID:31400689] [10.1016/j.scitotenv.2019.133660]
14. Xiao-Yan Zhu, Hao Wu, Xiao-Feng Guo, Hong Wang.  (2019)  Novel BODIPY-based fluorescent probes with large Stokes shift for imaging hydrogen sulfide.  DYES AND PIGMENTS,      [PMID:] [10.1016/j.dyepig.2019.02.050]
15. Songhu Yuan, Xixiang Liu, Wenjuan Liao, Peng Zhang, Xiaoming Wang, Man Tong.  (2018)  Mechanisms of electron transfer from structrual Fe(II) in reduced nontronite to oxygen for production of hydroxyl radicals.  GEOCHIMICA ET COSMOCHIMICA ACTA,      [PMID:] [10.1016/j.gca.2017.12.025]
16. Peng Zhang, Songhu Yuan.  (2017)  Production of hydroxyl radicals from abiotic oxidation of pyrite by oxygen under circumneutral conditions in the presence of low-molecular-weight organic acids.  GEOCHIMICA ET COSMOCHIMICA ACTA,      [PMID:] [10.1016/j.gca.2017.08.032]
17. Peng Zhang, Weiyu Yao, Songhu Yuan.  (2016)  Citrate-enhanced release of arsenic during pyrite oxidation at circumneutral conditions.  WATER RESEARCH,      [PMID:27912099] [10.1016/j.watres.2016.11.058]
18. Dong Cheng, Songhu Yuan, Peng Liao, Peng Zhang.  (2016)  Oxidizing Impact Induced by Mackinawite (FeS) Nanoparticles at Oxic Conditions due to Production of Hydroxyl Radicals.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,      [PMID:27700060] [10.1021/acs.est.6b02833]
19. Kuan Cheng, Zesheng Yang, Guojun Chen, Shiwen Hu, Chao Guo, Yang Yang, Shan Wang, Ying Wang, Haibo Dong, Milan Wang, Pengfei Cheng, Tongxu Liu.  (2024)  A comparative study on the stability of Fe(III) minerals formed by the nitrate/nitrite-reducing Fe(II) oxidation processes.  CHEMICAL GEOLOGY,      [PMID:] [10.1016/j.chemgeo.2024.122446]
20. Shouhao Tong, Hongyan Wei, Junming Zhou, Yixuan Yang, Runliang Zhu, Qingze Chen, Xiande Xie, Qing Hu, Michael F. Hochella Jr., Jing Liu.  (2025)  Atomic Insights into the Heterogeneous Crystallization of Manganese (Oxyhydr)oxides on Typical Iron (Oxyhydr)oxides: from Adsorption to Oxidation to Crystallization.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,      [PMID:39976540] [10.1021/acs.est.4c10093]
21. Yu Wang, Jia-le Wang, Ke Li, Jing-jing Yuan, Bo Chen, Yun-tao Wang, Jun-guang Li, Yan-hong Bai.  (2024)  Effect of chickpea protein modified with combined heating and high-pressure homogenization on enhancing the gelation of reduced phosphate myofibrillar protein.  FOOD CHEMISTRY,      [PMID:39276541] [10.1016/j.foodchem.2024.141180]
22. Shuang Li, Yao Huang, Junhao Shen, Shengjun Mao, Rong Peng, Hui Liu.  (2024)  Iron transformation and hydroxyl radical production during mixing surface water and groundwater in the riparian zone: Effects of bicarbonate and surface water-groundwater ratio.  APPLIED GEOCHEMISTRY,      [PMID:] [10.1016/j.apgeochem.2024.106017]
23. Zhiqiang Zuo, Yiying He, Miao Guo, Tao Liu, Min Zheng, Yanchen Liu.  (2025)  Production of hydroxyl radicals by the oxygenation of FeS and the effect on sulfide removal in sewer systems.  WATER RESEARCH,      [PMID:40769060] [10.1016/j.watres.2025.124341]
24. Haijun Chang, Yu Huang, Yuanwei Shi, Yu Hu, Wenbin Zhou.  (2025)  Mechanism of purslane extract inhibiting oxidation and modifying physicochemical properties of pork myofibrillar proteins under oxidation system.  FOOD RESEARCH INTERNATIONAL,      [PMID:41214947] [10.1016/j.foodres.2025.117437]
25. Rong Peng, Qi Zhu, Shuang Li, Hui Liu.  (2025)  Nitrate concentration mediates iron transformation by an iron-oxidizing-reducing bacterium in the Fe(II)-Fe(III) co-existing system.  Environmental Science-Processes & Impacts,      [PMID:40859727] [10.1039/D5EM00298B]
26. Wei Ding, Jing Xu, Tao Chen, Chengshuai Liu, Jinjun Li, Feng Wu.  (2018)  Co-oxidation of As(III) and Fe(II) by oxygen through complexation between As(III) and Fe(II)/Fe(III) species.  WATER RESEARCH,      [PMID:30025352] [10.1016/j.watres.2018.06.072]
27. Bowen Song, Ziye Zhao, Zhanhong Qiao, Ji Li, Dawei Chen, Ming Zhao, Haiyang Hu.  (2025)  Bacteria-driven Mitoxantrone/Ferric ions liposomes to Synergize Chemotherapy, ferroptosis and immunotherapy for robust antitumor therapy.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,      [PMID:40517488] [10.1016/j.jcis.2025.138193]
28. Tao Luo, Hao Wang, Tao Chen, Jing Xu, Jean-François Boily, Feng Wu, Khalil Hanna.  (2025)  Elucidating the Geochemical Dynamics of Arsenite and Pyrite in Aquatic Systems.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,      [PMID:41134306] [10.1021/acs.est.5c09066]
29. Jinnian Wang, Haoming Zhao, Shijun Tong, Xingjian Zhang, Shuyu Ding, Han Zhang, Zhong-Hua Yang.  (2026)  Cascade biocatalysis for pyridoxal 5′-phosphate synthesis with ATP autonomy via polyphosphate kinase.  BIOORGANIC CHEMISTRY,      [PMID:41564697] [10.1016/j.bioorg.2026.109518]
30. Dong Cheng, Jiaqing Luo, Runhao Ma, Fan Wu, Binbin Wang, Yingying Ma, Guangyu Lou, Feng He.  (2026)  Polyacrylic acid-mediated sulfamethoxazole degradation by hydroxyl radicals during FeS oxidation under aerobic conditions.  Journal of Environmental Chemical Engineering,  14  (2): (121494).  [PMID:] [10.1016/j.jece.2026.121494]
31. Haijun Chang, Xin Wen, Yu Huang, Yu Hu, Yuanwei Shi.  (2026)  Mechanism of interaction between Portulaca oleracea L. extract and pork myofibrillar protein: Insights from spectroscopic and molecular docking analyses.  Food Chemistry-X,      [PMID:41674692] [10.1016/j.fochx.2026.103627]
32. Qian-Da Xu, Qiang He, Wei-Cai Zeng.  (2026)  Modulation of protein self-assembly via hydrolysis and metal ion coordination: Effects on EGCG encapsulation and controlled release.  FOOD CHEMISTRY,      [PMID:41707262] [10.1016/j.foodchem.2026.148466]
33. Xiaolei Chen, Jinzhao Tong, Xiaomeng Wang, Ruizong Zhang, Zhan Li, Longlong Tian, Wangsuo Wu.  (2026)  Microbial-based chromatographic system for high-purity 90Y production via Lanmodulin-mediated adsorption.  SEPARATION AND PURIFICATION TECHNOLOGY,      [PMID:] [10.1016/j.seppur.2026.137677]
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