对羟基苯甲酸丙酯

33篇引用文献

级别和纯度:

CAS编号: 94-13-3
分子式: C₁₀H₁₂O₃
分子量: 180.20
Beilstein号: 1103245
EC号: 202-307-7
PubChem编号: 7175

有货

库存信息

关闭

库存信息

关闭

库存信息

关闭

货号 (SKU)	包装规格	是否现货
P434597-GMP-1kg	1kg	期货
P434597-GMP-5kg	5kg	期货
P434597-GMP-25kg	25kg	期货

查看相关系列

Apoptosis (7108) Bacterial (5911) 代谢物 (8911) 羧酸 (2181) 羰基化合物 (2389) 防腐剂和消毒剂 (15)

Skip to the end of the images gallery

Skip to the beginning of the images gallery

基本描述

别名	羟苯丙酯 \| 尼泊金丙酯
英文别名	CAS-94-13-3 \| EINECS 202-307-7 \| EPA Pesticide Chemical Code 061203 \| Nipasol P \| Propylparaben [USAN:NF] \| 4-Hydroxybenzoic acid propylester \| p-Hydroxypropyl benzoate \| p-Hydroxybenzoic acid, propyl ester \| N-Propylparaben \| Betacine P \| n-Propyl 4-Hydr
规格或纯度	GMP, PharmPure™, JP, BP, 欧洲药典（Ph.Eur）, NF, 医药级
英文名称	Propyl 4-hydroxybenzoate
储存温度	室温
运输条件	常规运输
产品介绍	Propyl 4-hydroxybenzoate has antimicrobial characteristics and is used as preservative in pharmaceutical formulations and cosmetics. It can be combined with other parabens like methyl 4-hydroxybenzoate or ethyl 4-hydroxybenzoate.

关联靶点（人）

F2 Tclin Thrombin (11687 活性数据)

点击查看靶蛋白信息： F2

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ESR1 Tclin Estrogen receptor alpha (17718 活性数据)

点击查看靶蛋白信息： ESR1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

NR3C1 Tclin Glucocorticoid receptor (14987 活性数据)

点击查看靶蛋白信息： NR3C1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

PGR Tclin Progesterone receptor (8562 活性数据)

点击查看靶蛋白信息： PGR

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

CHRM2 Tclin Muscarinic acetylcholine receptor M2 (10671 活性数据)

点击查看靶蛋白信息： CHRM2

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

HTR1A Tclin Serotonin 1a (5-HT1a) receptor (14969 活性数据)

点击查看靶蛋白信息： HTR1A

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ADRA2A Tclin Alpha-2a adrenergic receptor (9450 活性数据)

点击查看靶蛋白信息： ADRA2A

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

AR Tclin Androgen Receptor (11781 活性数据)

点击查看靶蛋白信息： AR

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

CHRM1 Tclin Muscarinic acetylcholine receptor M1 (12690 活性数据)

点击查看靶蛋白信息： CHRM1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

TSHR Tclin Thyroid stimulating hormone receptor (29986 活性数据)

点击查看靶蛋白信息： TSHR

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

MAOA Tclin Monoamine oxidase A (11911 活性数据)

点击查看靶蛋白信息： MAOA

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

DRD1 Tclin Dopamine D1 receptor (9720 活性数据)

点击查看靶蛋白信息： DRD1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ACHE Tclin Acetylcholinesterase (18204 活性数据)

点击查看靶蛋白信息： ACHE

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

PTGS1 Tclin Cyclooxygenase-1 (9233 活性数据)

点击查看靶蛋白信息： PTGS1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

SLC6A2 Tclin Norepinephrine transporter (10102 活性数据)

点击查看靶蛋白信息： SLC6A2

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

SLC6A4 Tclin Serotonin transporter (12625 活性数据)

点击查看靶蛋白信息： SLC6A4

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ADRA1A Tclin Alpha-1a adrenergic receptor (8359 活性数据)

点击查看靶蛋白信息： ADRA1A

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

OPRM1 Tclin Mu opioid receptor (19785 活性数据)

点击查看靶蛋白信息： OPRM1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

DRD3 Tclin Dopamine D3 receptor (14368 活性数据)

点击查看靶蛋白信息： DRD3

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

PPARG Tclin Peroxisome proliferator-activated receptor gamma (15191 活性数据)

点击查看靶蛋白信息： PPARG

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

SLC6A3 Tclin Dopamine transporter (10535 活性数据)

点击查看靶蛋白信息： SLC6A3

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

SLC18A2 Tclin Synaptic vesicular amine transporter (118 活性数据)

点击查看靶蛋白信息： SLC18A2

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

PDE3A Tclin Phosphodiesterase 3A (3309 活性数据)

点击查看靶蛋白信息： PDE3A

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

HTR2B Tclin Serotonin 2b (5-HT2b) receptor (10323 活性数据)

点击查看靶蛋白信息： HTR2B

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

TBXA2R Tclin Thromboxane A2 receptor (5717 活性数据)

点击查看靶蛋白信息： TBXA2R

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

PDE4A Tclin Phosphodiesterase 4A (1943 活性数据)

点击查看靶蛋白信息： PDE4A

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ADORA3 Tchem Adenosine A3 receptor (15931 活性数据)

点击查看靶蛋白信息： ADORA3

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

HRH3 Tclin Histamine H3 receptor (10389 活性数据)

点击查看靶蛋白信息： HRH3

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

AHR Tclin Aryl hydrocarbon receptor (1071 活性数据)

点击查看靶蛋白信息： AHR

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

KDR Tclin Vascular endothelial growth factor receptor 2 (20924 活性数据)

点击查看靶蛋白信息： KDR

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ALDH1A1 Tchem Aldehyde dehydrogenase 1A1 (77053 活性数据)

点击查看靶蛋白信息： ALDH1A1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Lymphoblastoid cell (5959 活性数据)

点击查看此靶标相关信息

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

APEX1 Tchem DNA-(apurinic or apyrimidinic site) lyase (38016 活性数据)

点击查看靶蛋白信息： APEX1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ABCB11 Tchem Bile salt export pump (2311 活性数据)

点击查看靶蛋白信息： ABCB11

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

TDP1 Tchem Tyrosyl-DNA phosphodiesterase 1 (345557 活性数据)

点击查看靶蛋白信息： TDP1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

UGT1A1 Tchem UDP-glucuronosyltransferase 1-1 (448 活性数据)

点击查看靶蛋白信息： UGT1A1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ATAD5 Tbio ATPase family AAA domain-containing protein 5 (122566 活性数据)

点击查看靶蛋白信息： ATAD5

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

BAZ2B Tchem Bromodomain adjacent to zinc finger domain protein 2B (56204 活性数据)

点击查看靶蛋白信息： BAZ2B

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

UGT1A6 Tbio UDP-glucuronosyltransferase 1-6 (221 活性数据)

点击查看靶蛋白信息： UGT1A6

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

UGT1A9 Tbio UDP-glucuronosyltransferase 1-9 (343 活性数据)

点击查看靶蛋白信息： UGT1A9

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

关联靶点（其它种属）

ampC Beta-lactamase AmpC (62480 活性数据)

点击查看靶蛋白信息： ampC

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Hdac6 Histone deacetylase 6 (222 活性数据)

点击查看靶蛋白信息： Hdac6

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Ralstonia solanacearum (520 活性数据)

点击查看此靶标相关信息

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Luciferin 4-monooxygenase (66902 活性数据)

点击查看此靶标相关信息

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

rep Replicase polyprotein 1ab (378 活性数据)

点击查看靶蛋白信息： rep

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Nfe2l2 Nuclear factor erythroid 2-related factor 2 (214 活性数据)

点击查看靶蛋白信息： Nfe2l2

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

SARS-CoV-2 (38078 活性数据)

点击查看此靶标相关信息

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

作用机制

作用机制	Action Type	target ID	Target Name	Target Type	Target Organism	Binding Site Name	参考文献

名称和识别符

EC号	202-307-7
分子类型	小分子
IIUPAC Name	propyl 4-hydroxybenzoate
INCHI	1S/C10H12O3/c1-2-7-13-10(12)8-3-5-9(11)6-4-8/h3-6,11H,2,7H2,1H3
InChi Key	QELSKZZBTMNZEB-UHFFFAOYSA-N
Smiles	CCCOC(=O)C1=CC=C(C=C1)O
Isomeric SMILES	CCCOC(=O)C1=CC=C(C=C1)O
分子量	180.20
Beilstein号	1103245
Reaxy-Rn	1103245
Reaxys-RN link address	https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=1103245&ln=

化学和物理性质

溶解性	0.4g/L
密度	1.063g/cm3at 102°C
折光率	1.505
闪点(℃)	180℃
熔点	95-97°C
分子量	180.200 g/mol
XLogP3	3.000
氢键供体数Hydrogen Bond Donor Count	1
氢键受体数Hydrogen Bond Acceptor Count	3
可旋转键计数Rotatable Bond Count	4
精确质量Exact Mass	180.079 Da
单同位素质量Monoisotopic Mass	180.079 Da
拓扑极表面积Topological Polar Surface Area	46.500 Å²
重原子数Heavy Atom Count	13
形式电荷Formal Charge	0
复杂度Complexity	160.000
同位素原子数Isotope Atom Count	0
定义的原子立体中心计数Defined Atom Stereocenter Count	0
未定义的原子立体中心计数Undefined Atom Stereocenter Count	0
定义的键立体中心计数Defined Bond Stereocenter Count	0
未定义的键立体中心计数Undefined Bond Stereocenter Count	0
所有立体化学键的总数The total count of all stereochemical bonds	0
共价键合单元计数Covalently-Bonded Unit Count	1

安全和危险性（GHS）

象形图	GHS07
信号词	警告
危险声明	H315: 引起皮肤刺激 H319: 引起严重眼睛刺激 H335: 可能引起呼吸道刺激
预防措施声明	P261: 避免吸入灰尘/烟雾/气体/雾/蒸汽/喷雾 P264: 处理后要彻底洗手。 P271: 仅在室外或通风良好的地方使用。 P280: 戴防护手套/穿防护服/戴防护眼罩/戴防护面具。 P321: 特殊处理（请参阅此标签上的...）。 P302+P352: 如皮肤沾染：用水充分清洗。 P304+P340: 如误吸入：将人转移到空气新鲜处，保持呼吸舒适体位。 P305+P351+P338: 如进入眼睛：用水小心冲洗几分钟。如戴隐形眼镜并可方便地取出，取出隐形眼镜。继续冲洗。 P362+P364: 脱掉沾污的衣服，清洗后方可重新使用。 P405: 密闭存放 P403+P233: 存放在通风良好的地方。保持容器密闭。 P501: 将内容物/容器处理到。。。 P264+P265: 处理后彻底洗手[和…]。不要触摸眼睛。 P337+P317: 如果眼睛刺激持续：寻求医疗帮助。 P332+P317: 如果出现皮肤刺激：请寻求医疗帮助。 P319: 如果你感到不适，请寻求医疗帮助。
WGK Germany	1
RTECS	DH2800000
Merck Index	7866

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:

可替换产品

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. 杜海宁. (2024) Methylparaben induces hepatic glycolipid metabolism disorder by activating the IRE1α-XBP1 signaling pathway in male mice. Environment International , 无 (184): (108445). [PMID:38262168] [10.1016/j.envint.2024.108445]
2. Qiuhui Xu, Wenxiang Zhang, Quan Chi, Yuhang Yang, Xi Tan, Jikai Liu, Huaming Xiao, Xian Wang. (2024) A novel magnetic porous organic cage adsorbent for high-efficient removal of endocrine disrupting chemicals from environmental water. CHEMICAL ENGINEERING SCIENCE, 285 (119621). [10.1016/j.ces.2023.119621]
3. Zhihong Deng, Lifeng Zhao, Xiuxue Li, Chang-Yun Wang, Yue Zhou, Mengfei Li, Yingfei Li, Xianjun Fu. (2023) Folium crataegi boosts skin regeneration for burn injury in rats through multiple ways. BIOMEDICINE & PHARMACOTHERAPY, 167 (115457). [PMID:37690389] [10.1016/j.biopha.2023.115457]
4. Jiangping Cao, Lei Shi, Yifei He, Tingting Wang, Baizhao Zeng, Faqiong Zhao. (2024) An effervescence-assisted microextraction for parabens in foodstuffs based on deep eutectic solvent composed of methyltrioctyl ammonium chloride and decanoic acid. FOOD CHEMISTRY, 433 (137348). [PMID:37683492] [10.1016/j.foodchem.2023.137348]
5. Jiangping Cao, Yifei He, Xiaoshuo Zhang, Lei Shi, Baizhao Zeng, Faqiong Zhao. (2023) Development of a tributyl phosphate-based hydrophobic deep eutectic solvent for liquid-liquid microextraction of total parabens in beverages. JOURNAL OF MOLECULAR LIQUIDS, 387 (122593). [10.1016/j.molliq.2023.122593]
6. Yuanyuan Fu, Zhentao Li, Changjun Hu, Qiaoyan Li, Zilin Chen. (2023) In-situ immobilization of covalent organic frameworks as stationary phase for capillary electrochromatography. JOURNAL OF CHROMATOGRAPHY A, 1705 (464205). [PMID:37442070] [10.1016/j.chroma.2023.464205]
7. Qian Liu, Liulin Wei, Xiaomei Chen, Xueyun Gao, Jingchan Zhao. (2023) Self-collected 3D nano-adsorbent GR@p(POSS-co-DMAEMA) applied to the dispersive solid-phase microextraction in parabens detection of condiments. MICROCHEMICAL JOURNAL, 190 (108640). [10.1016/j.microc.2023.108640]
8. Yan-Yan Liu, Yi-Xin Zhang, Hua-Mei Wen, Xiao-Long Liu, Xin-Jiong Fan. (2023) Cloning and rational modification of a cold-adapted esterase for phthalate esters and parabens degradation. CHEMOSPHERE, 325 (138393). [PMID:36925017] [10.1016/j.chemosphere.2023.138393]
9. Zhentao Li, Zhengzheng Liao, Jinfang Hu, Zilin Chen. (2023) In situ growth of imine-based covalent organic framework as stationary phase for high-efficiency electrochromatographic separation. JOURNAL OF CHROMATOGRAPHY A, 1694 (463905). [PMID:36881971] [10.1016/j.chroma.2023.463905]
10. Wei Hu, Wei Zhou, Chenlu Wang, Zichun Liu, Zilin Chen. (2023) Direct coupling in-tube solid-phase microextraction with mass spectrometry using polymer coated open-tubular column for rapid analysis of antiepileptic drugs in biofluids. ANALYTICA CHIMICA ACTA, 1240 (340775). [PMID:36641145] [10.1016/j.aca.2022.340775]
11. Lizhen Qiao, Yuan Tao, Honglin Qin, Ruiting Niu. (2023) Multi-magnetic center ionic liquids for dispersive liquid-liquid microextraction coupled with in-situ decomposition based back-extraction for the enrichment of parabens in beverage samples. JOURNAL OF CHROMATOGRAPHY A, 1689 (463771). [PMID:36610188] [10.1016/j.chroma.2022.463771]
12. Yuan Tao, Luyao Jia, Honglin Qin, Ruiting Niu, Lizhen Qiao. (2022) A new magnetic ionic liquid based salting-out assisted dispersive liquid–liquid microextraction for the determination of parabens in environmental water samples. Analytical Methods, 14 (46): (4775-4783). [PMID:36374117] [10.1039/D2AY01403C]
13. Jiangping Cao, Lei Shi, Yifei He, Yuwen Liu, Faqiong Zhao. (2022) Effective extraction of parabens from toothpaste by vortex-assisted liquid-phase microextraction based on low viscosity deep eutectic solvent. MICROCHEMICAL JOURNAL, 179 (107590). [10.1016/j.microc.2022.107590]
14. Zhimin Gong, Gaobo Wang, Shuai Shao, Mengjie Wang, Kun Lu, Shixiang Gao. (2022) Co-degradation of coexisting pollutants methylparaben (mediators) and amlodipine in enzyme-mediator systems: Insight into the mediating mechanism. JOURNAL OF HAZARDOUS MATERIALS, 423 (127112). [PMID:34523479] [10.1016/j.jhazmat.2021.127112]
15. Wei Hu, Wei Zhou, Chenlu Wang, Zichun Liu, Zilin Chen. (2021) Rapid Analysis of Biological Samples Using Monolithic Polymer-Based In-Tube Solid-Phase Microextraction with Direct Mass Spectrometry. ACS Applied Bio Materials, 4 (8): (6236–6243). [PMID:35006902] [10.1021/acsabm.1c00551]
16. Xun Gao, Kai Xu, Miaomiao Chi, Jiaojiao Li, Lingzhe Suo, Lin Zhu, Kexin Chen, Jingqing Mu. (2021) Determination of four parabens in cosmetics by high-performance liquid chromatography with magnetic solid-phase and ionic dispersive liquid–liquid extraction. REVIEWS IN ANALYTICAL CHEMISTRY, 40 (1): (161-172). [10.1515/revac-2021-0133]
17. Yanmei Ren, Ping Xiang, Qilong Xie, Haixiu Yang, Shuhui Liu. (2021) Rapid analysis of forchlorfenuron in fruits using molecular complex-based dispersive liquid–liquid microextraction. Food Additives and Contaminants Part A-Chemistry Analysis Control Exposure & Risk Assessment, 38 (4): (637-645). [PMID:33721551] [10.1080/19440049.2021.1876250]
18. Wan-Jun Long, Hai-Long Wu, Tong Wang, Ming-Yue Dong, Ru-Qin Yu. (2021) Interference-free analysis of multi-class preservatives in cosmetic products using alternating trilinear decomposition modeling of liquid chromatography diode array detection data. MICROCHEMICAL JOURNAL, 162 (105847). [10.1016/j.microc.2020.105847]
19. Yongna Zhao, Dandan Du, Qiannan Li, Wenjie Chen, Qingchen Li, Qingzhu Zhang, Ning Liang. (2020) Dummy-surface molecularly imprinted polymers based on magnetic graphene oxide for selective extraction and quantification of pyrethroids pesticides in fruit juices. MICROCHEMICAL JOURNAL, 159 (105411). [10.1016/j.microc.2020.105411]
20. Zhentao Li, Zhenkun Mao, Changjun Hu, Qiaoyan Li, Zilin Chen. (2020) Fluoro-functionalized stationary phases for electrochromatographic separation of organic fluorides. JOURNAL OF CHROMATOGRAPHY A, 1625 (461269). [PMID:32709321] [10.1016/j.chroma.2020.461269]
21. Qianhui Mao, Qi Li, Huimin Li, Shoujun Yuan, Jibiao Zhang. (2020) Oxidative paraben removal with chlorine dioxide: Reaction kinetics and mechanism. SEPARATION AND PURIFICATION TECHNOLOGY, 237 (116327). [10.1016/j.seppur.2019.116327]
22. Wei Zhou, Wenqi Sun, Yikun Liu, Zhenkun Mao, Zilin Chen. (2020) Ionic liquid-copolymerized monolith based porous layer open tubular column for CEC-MS analysis. TALANTA, 209 (120556). [PMID:31892017] [10.1016/j.talanta.2019.120556]
23. Qin Zucheng, Jiang Yanxiao, Piao Huilan, Tao Shuo, Sun Ying, Wang Xinghua, Ma Pinyi, Song Daqian. (2019) Packed hybrids of gold nanoparticles and halloysite nanotubes for dispersive solid phase extraction of triazine herbicides, and their subsequent determination by HPLC. MICROCHIMICA ACTA, 186 (8): (1-8). [PMID:31267267] [10.1007/s00604-019-3578-3]
24. Ge Dandan, Wang Ying, Jiang Qian, Dai Enrui. (2019) A Deep Eutectic Solvent as an Extraction Solvent to Separate and Preconcentrate Parabens in Water Samples Using in situ Liquid-Liquid Microextraction. JOURNAL OF THE BRAZILIAN CHEMICAL SOCIETY, 30 (6): (1203-1210). [10.21577/0103-5053.20190014]
25. Xiao-Li Yin, Hui-Wen Gu, Ali R. Jalalvand, Ya-Juan Liu, Ying Chen, Tian-Qin Peng. (2018) Dealing with overlapped and unaligned chromatographic peaks by second-order multivariate calibration for complex sample analysis: Fast and green quantification of eight selected preservatives in facial masks. JOURNAL OF CHROMATOGRAPHY A, 1573 (18). [PMID:30243735] [10.1016/j.chroma.2018.09.019]
26. Li Shuo, Jia Mengtian, Guo Hongqiao, Hou Xiaohong. (2018) Development and application of metal organic framework/chitosan foams based on ultrasound-assisted solid-phase extraction coupling to UPLC-MS/MS for the determination of five parabens in water. ANALYTICAL AND BIOANALYTICAL CHEMISTRY, 410 (25): (6619-6632). [PMID:30062509] [10.1007/s00216-018-1269-2]
27. Wei Zhou, Chenlu Wang, Xuemei Wang, Zilin Chen. (2018) Etched poly(ether ether ketone) jacket stir bar with detachable dumbbell-shaped structure for stir bar sorptive extraction. JOURNAL OF CHROMATOGRAPHY A, 1553 (43). [PMID:29680741] [10.1016/j.chroma.2018.04.022]
28. Mao Qianhui, Ji Feng, Wang Wei, Wang Qiquan, Hu Zhenhu, Yuan Shoujun. (2016) Chlorination of parabens: reaction kinetics and transformation product identification. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 23 (22): (23081-23091). [PMID:27585586] [10.1007/s11356-016-7499-y]
29. Xiaoxiao You, Chungying Piao, Ligang Chen. (2016) Preparation of a magnetic molecularly imprinted polymer by atom-transfer radical polymerization for the extraction of parabens from fruit juices. JOURNAL OF SEPARATION SCIENCE, 39 (14): (2831-2838). [PMID:27214157] [10.1002/jssc.201600335]
30. Yi Zhang, Yan Zhang, Guan Wang, Wujuan Chen, Pingang He, Qingjiang Wang. (2016) Synthesis and characterization of a multimode stationary phase: Congo red derivatized silica in nano-flow HPLC. ANALYST, 141 (3): (1083-1090). [PMID:26646316] [10.1039/C5AN02021B]
31. Bingbing Sun, Li Qi, Minglin Wang. (2014) Determination of preservatives in soft drinks by capillary electrophoresis with ionic liquids as the electrolyte additives. JOURNAL OF SEPARATION SCIENCE, 37 (16): (2248-2252). [PMID:24910409] [10.1002/jssc.201400444]
32. Yang Jinling, Li Yongxin, Gong Weilei, Wang Changqin, Liu Bencheng, Sun Chengjun. (2014) Simultaneous Determination of Six Parabens in Foods by Matrix Liquid-Phase Dispersion Extraction Combined with High-Performance Liquid Chromatography. Food Analytical Methods, 7 (8): (1693-1702). [10.1007/s12161-014-9807-9]
33. Zheng Hu, Yuhang Yang, Zhe Li, Qiuying Tao, Yinghong Huang, Xian Wang. (2025) Efficient enrichment and sensitive determination of endocrine disruptors in PPCPs by novel magnetic covalent organic framework extraction coupled with HPLC-MS/MS. TALANTA, 287 (127667). [PMID:39892117] [10.1016/j.talanta.2025.127667]
34. Liao Zhengzheng, Hu Jinfang, Li Zhentao. (2024) Monomer-mediated growth of β-cyclodextrin-based microporous organic network as stationary phase for capillary electrochromatography. ANALYTICAL AND BIOANALYTICAL CHEMISTRY, (1-8). [PMID:39230749] [10.1007/s00216-024-05514-3]

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