This is a demo store. No orders will be fulfilled.

首页   400-620-6333
  • 登录
  • 注册
  • 英文站
切换导航
我的购物车
搜索
高级搜索
菜单
登录
设置

5-氯-2-(2,4-二氯苯氧基)苯酚

表现出抗菌,抗真菌,抗病毒和抗炎活性。
75篇引用文献 COA COA
    级别和纯度:
  • ≥99%
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 价格 数量
T299588-25g
 25g 现货 Stock Image
T299588-100g
 100g 现货 Stock Image
T299588-500g
 500g 现货 Stock Image
大包装询价 收藏夹 比较  SDS下载  DATASHEET  质量标准
查看相关系列
Anti-infection (2804) Antibiotic (2632) Apoptosis (7108) Bacterial (5911) Fungal (1689)
main product photo

基本描述

别名 三氯生
英文别名 Fresh Citrus | Rite AidLiquid | DNDI1246774 | Pacific | Hand Cleanse | Holiday Elegance | Market Basket Ultra | Quiksan | Tc Spraysoap | Thera Rx | C12H7Cl3O2 | EcolabDigiclean | 2-Hydroxy-2',4,4'-trichlorodiphenyl Ether | Aquasept | DTXCID3012498 | TCL |
规格或纯度 ≥99%
英文名称 Triclosan
生化机理 Irgasan 是一种广谱抗菌剂。它是细菌和疟原虫体内 II 型脂肪酸合成酶(FAS-II)的烯酰-ACP(酰基载体蛋白)还原酶成分的抑制剂。它还能抑制哺乳动物的脂肪酸合成酶(FASN),并可能具有抗癌活性。
应用 三氯生(Irgasan)是一种广谱抗菌剂,它抑制细菌和疟原虫中II型脂肪酸合成酶(FAS-II),也抑制哺乳动物脂肪酸合成酶(FASN), 而且可能还具有抗癌活性。
运输条件 常规运输
备注 如果有可能,您尽量在使用的当天配置溶液,并在当天使用完它。但是,如果您需要预先配制储备溶液,我们建议您将溶液等份保存在-20°C的密封小瓶中。通常,它们最多可以使用一个月。在使用前和打开样品瓶之前,我们建议您让您的产品在室温下平衡至少1小时。需要更多关于溶解度,用法和处理的建议吗?请访问我们的常见问题(FAQ)页面以获取更多详细信息。
纯度 ≥99%

产品属性

ALogP 5

关联靶点(人)

CBR1 Tchem 羰基还原酶[NADPH] 1(Carbonyl reductase [NADPH] 1) (2 活性数据)
活性类型 活性值-log(M) 作用机制 期刊 参考文献(PubMed IDs)
ESR1 Tclin Estrogen receptor alpha (17718 活性数据)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADRB2 Tclin Beta-2 adrenergic receptor (11824 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADRB1 Tclin Beta-1 adrenergic receptor (6630 活性数据)
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)
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)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
DRD2 Tclin Dopamine D2 receptor (23596 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
GABRA1 Tclin GABA receptor alpha-1 subunit (399 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CNR1 Tclin Cannabinoid CB1 receptor (20913 活性数据)
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)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
HRH2 Tclin Histamine H2 receptor (5428 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
HTR2A Tclin Serotonin 2a (5-HT2a) receptor (14758 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
HTR2C Tclin Serotonin 2c (5-HT2c) receptor (11471 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
AVPR2 Tclin Vasopressin V2 receptor (2912 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADORA1 Tclin Adenosine A1 receptor (17603 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
AGTR1 Tclin Type-1 angiotensin II receptor (5176 活性数据)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
PTGS2 Tclin Cyclooxygenase-2 (13999 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
HRH1 Tclin Histamine H1 receptor (7573 活性数据)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
AVPR1A Tclin Vasopressin V1a receptor (5412 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
OPRD1 Tclin Delta opioid receptor (15096 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
OPRK1 Tclin Kappa opioid receptor (16155 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
HTR3A Tclin Serotonin 3a (5-HT3a) receptor (3366 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
PTH1R Tclin Parathyroid hormone receptor (47172 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
GRIN1 Tclin Glutamate (NMDA) receptor subunit zeta 1 (122 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
KCNH2 Tclin HERG (29587 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADRA2B Tclin Alpha-2b adrenergic receptor (4412 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADRA2C Tclin Alpha-2c adrenergic receptor (4876 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CHRM3 Tclin Muscarinic acetylcholine receptor M3 (7750 活性数据)
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)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
EDNRA Tclin Endothelin receptor ET-A (5008 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
ADORA2A Tclin Adenosine A2a receptor (16305 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
THRB Tclin Thyroid hormone receptor beta-1 (7926 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
RXRA Tclin Retinoid X receptor alpha (3637 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
BDKRB2 Tclin Bradykinin B2 receptor (3970 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
FABP2 Tchem Fatty acid binding protein intestinal (28 活性数据)
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)

fabI Enoyl-[acyl-carrier-protein] reductase (206 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Ttr Transthyretin (14 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Npy1r Neuropeptide Y receptor type 1 (8 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
fabI Enoyl-[acyl-carrier-protein] reductase (FabI) (397 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Cckar Cholecystokinin A receptor (90 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Pde4d Phosphodiesterase 4D (4 活性数据)
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)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus sanguinis (314 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus pneumoniae (31063 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus viridans (303 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Pseudomonas aeruginosa (123386 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Klebsiella pneumoniae (43867 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Proteus vulgaris (5823 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Salmonella typhimurium (15756 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Porphyromonas gingivalis (651 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Staphylococcus aureus (210822 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Staphylococcus epidermidis (22802 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Staphylococcus haemolyticus (1695 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Acinetobacter baumannii (41033 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Moraxella catarrhalis (3334 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Citrobacter freundii (1864 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Klebsiella aerogenes (4963 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Escherichia coli (133304 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Proteus mirabilis (3894 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Salmonella enteritidis (727 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Serratia marcescens (3237 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Aeromonas hydrophila (292 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Haemophilus influenzae (8812 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Fusobacterium nucleatum (386 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus mutans (2687 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus agalactiae (1777 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Streptococcus pyogenes (16140 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Enterococcus faecium (13803 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Bacillus subtilis (32866 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Mycobacterium tuberculosis (203094 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Mycobacterium marinum (465 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Enterococcus faecalis (29875 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Bacillus cereus (7522 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Actinomyces viscosus (309 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Plasmodium falciparum (966862 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Cryptococcus neoformans (21258 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Candida albicans (78123 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Candida tropicalis (8381 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Leishmania panamensis (230 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Trypanosoma cruzi (99888 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Toxoplasma gondii (4585 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Staphylococcus saprophyticus (562 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Salmonella enterica subsp. enterica serovar Abony (161 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Stenotrophomonas maltophilia (1743 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Vero (26788 活性数据)
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

PubChem SID 488179909
EC号 222-182-2
分子类型 小分子
IIUPAC Name 5-chloro-2-(2,4-dichlorophenoxy)phenol
INCHI 1S/C12H7Cl3O2/c13-7-1-3-11(9(15)5-7)17-12-4-2-8(14)6-10(12)16/h1-6,16H
InChi Key XEFQLINVKFYRCS-UHFFFAOYSA-N
Smiles C1=CC(=C(C=C1Cl)O)OC2=C(C=C(C=C2)Cl)Cl
Isomeric SMILES C1=CC(=C(C=C1Cl)O)OC2=C(C=C(C=C2)Cl)Cl
PubChem CID 5564
UN Number 3077
分子量 289.54
Beilstein号 2057142
Reaxy-Rn 2057142

化学和物理性质

溶解性 Soluble in ethanol, methanol, diethyl ether and sodium hydroxide solution (1M). Slightly soluble in water.
密度 1.49
沸点 290 °C
熔点 54-57.3°C
分子量 289.500 g/mol
XLogP3 5.000
氢键供体数Hydrogen Bond Donor Count 1
氢键受体数Hydrogen Bond Acceptor Count 2
可旋转键计数Rotatable Bond Count 2
精确质量Exact Mass 287.951 Da
单同位素质量Monoisotopic Mass 287.951 Da
拓扑极表面积Topological Polar Surface Area 29.500 Ų
重原子数Heavy Atom Count 17
形式电荷Formal Charge 0
复杂度Complexity 252.000
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,   GHS09
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

H400: 对水生生物有剧毒

H410: 对水生生物有剧毒并具有长期持续影响
预防措施声明

P264: 处理后要彻底洗手。

P273: 避免释放到环境中。

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...)。

P391: 收集溢出物

P302+P352: 如皮肤沾染:用水充分清洗。

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。

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。
WGK Germany 3
RTECS KO1100000
Merck Index 9657
个人防护装备 dust mask type N95 (US),Eyeshields,Gloves

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:

通过匹配包装上的批号来查找并下载产品的 COA,每批产品都进行了严格的验证,您可放心使用!

找到12个结果

批号(Lot Number) 证书类型 货号
G2525015 分析证书 T299588
H2304403 分析证书 T299588
H2304404 分析证书 T299588
H2304405 分析证书 T299588
J2115381 分析证书 T299588
J2115406 分析证书 T299588
J2115408 分析证书 T299588
B2317214 分析证书 T299588
B2317229 分析证书 T299588
A2108068 分析证书 T299588
K2204812 分析证书 T299588
E2310092 分析证书 T299588

显示更多⌵

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. Lulu Chen, Xiaona Dong, Ruonan Feng, Wanying Li, Dahu Ding, Tianming Cai, Canlan Jiang.  (2023)  Oxalic acid enhanced ferrous/persulfate process for the degradation of triclosan in soil: Efficiency, mechanism and a column study.  CHEMICAL ENGINEERING JOURNAL,  473  (144961).  [10.1016/j.cej.2023.144961]
2. Ruonan Feng, Lulu Chen, Wanying Li, Tianming Cai, Canlan Jiang.  (2023)  Activation of persulfate with natural organic acids (ascorbic acid/catechin hydrate) for naproxen degradation in water and soil: Mechanism, pathway, and toxicity assessment.  JOURNAL OF HAZARDOUS MATERIALS,  459  (132152).  [PMID:37544179] [10.1016/j.jhazmat.2023.132152]
3. Xiao Sihua, Wan Jinquan, Wang Yan, Yan Zhicheng, Ma Yongwen, Sun Jian, Tang Min, Cao Jianye, Chen Jinxin.  (2023)  Distribution, Sources, and Risk Assessment of Emerging Contaminants in the Effluents from Large-Scale Wastewater Treatment Plants in Guangzhou Central Districts, South China.  WATER AIR AND SOIL POLLUTION,  234  (7): (1-17).  [10.1007/s11270-023-06410-9]
4. Tongchen Zhang, Huan Wu, Matin Naghizadeh, Qian Zheng, Sheying Dong.  (2023)  Magnetic Porous Polymer with −OH Groups as Sorbent for Excellent Extraction and Removal of Personal Care Products from Water.  INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,  62  (22): (8873–8881).  [10.1021/acs.iecr.3c00453]
5. Ting Lu, Tong Zhang, Weishu Yang, Bin Yang, Jing Cao, Yang Yang, Mei Li.  (2023)  Molecular Toxicity Mechanism Induced by the Antibacterial Agent Triclosan in Freshwater Euglena gracilis Based on the Transcriptome.  Toxics,  11  (5): (414).  [PMID:37235229] [10.3390/toxics11050414]
6. Junjing Li, Yu Wang, Bin Zhao, Jing Ding, Jun Zhang, Menghua Yin, Zhaohui Zhang, Shumin Ma, Yaqian Liu, Zilin Tan, Hongwei Zhang, Liang Wang, Dionysios D. Dionysiou.  (2023)  Unraveling kinetics and mechanism of electrocatalytic hydrodechlorination of chlorinated PPCPs by nickel-cobalt metal organic framework supported palladium composite electrode.  APPLIED CATALYSIS B-ENVIRONMENTAL,  332  (122754).  [10.1016/j.apcatb.2023.122754]
7. Shizong Wang, Jun Hu, Jianlong Wang.  (2023)  Simultaneous removal of triclosan and nitrate by a stable denitrifying microbial consortium.  Journal of Environmental Chemical Engineering,  11  (109387).  [10.1016/j.jece.2023.109387]
8. Qu Zhang, Chao Xue, Gary Owens, Zuliang Chen.  (2023)  Preparation of bionanomaterial based on green reduced graphene immobilized Ochrobactrum sp. FJ1: Optimization, characterization and its application.  SEPARATION AND PURIFICATION TECHNOLOGY,  310  (123144).  [10.1016/j.seppur.2023.123144]
9. Yubin Yang, Jingyu Ding, Xuanyan Zhu, Zilu Tian, Song Zhu.  (2023)  Triclosan to Improve the Antimicrobial Performance of Universal Adhesives.  Polymers,  15  (2): (304).  [PMID:36679185] [10.3390/polym15020304]
10. Shi-Ming Niu, Qian Zhang, Thangavel Sangeetha, Lei Chen, Lan-Ying Liu, Ping Wu, Chao Zhang, Wei-Mon Yan, He Liu, Min-Hua Cui, Ai-Jie Wang.  (2023)  Evaluation of the effect of biofilm formation on the reductive transformation of triclosan in cathode-modified electrolytic systems.  SCIENCE OF THE TOTAL ENVIRONMENT,  865  (161308).  [PMID:36596419] [10.1016/j.scitotenv.2022.161308]
11. Bingzhi Yu, Wen Yan, Yunjuan Meng, Yinan Zhang, Xizi Li, Yan Li, Yuchi Zhong, Jiafeng Ding, Hangjun Zhang.  (2023)  Selected dechlorination of triclosan by high-performance g-C3N4/Bi2MoO6 composites: Mechanisms and pathways.  CHEMOSPHERE,  312  (137247).  [PMID:36414036] [10.1016/j.chemosphere.2022.137247]
12. Rijia Jiang, Mengyue Liu, Xiangyu Zheng, Xing Zhou.  (2022)  Metal-Free, Low-Surface Energy, and Self-Healing Polyurethane Coating with an Excellent Antifouling Property.  ACS Applied Polymer Materials,  (11): (8594–8603).  [10.1021/acsapm.2c01503]
13. Xian Liu, Like Chen, Yang Yang, Liping Xu, Junyong Sun, Tian Gan.  (2023)  MXene−reinforced octahedral PtCu nanocages with boosted electrocatalytic performance towards endocrine disrupting pollutants sensing.  JOURNAL OF HAZARDOUS MATERIALS,  442  (130000).  [PMID:36137886] [10.1016/j.jhazmat.2022.130000]
14. Yan Jin, Zou Ying, Zhang Fengrui, Zhang Shenghua, Huang Xinyue, Benoit Gaboury.  (2023)  Growth, ROS accumulation site, and photosynthesis inhibition mechanism of Chlorella vulgaris by triclosan.  ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH,  30  (5): (12125-12137).  [PMID:36107294] [10.1007/s11356-022-23009-5]
15. Mingjie Huang, Yu-Sheng Li, Chuan-Qi Zhang, Chao Cui, Qing-Qing Huang, Mengkai Li, Zhimin Qiang, Tao Zhou, Xiaohui Wu, Han-Qing Yu.  (2022)  Facilely tuning the intrinsic catalytic sites of the spinel oxide for peroxymonosulfate activation: From fundamental investigation to pilot-scale demonstration.  PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,  119  (30): (e2202682119).  [PMID:35858430] [10.1073/pnas.2202682119]
16. Li Chen, Tahir Maqbool, Wanyi Fu, Yulong Yang, Congyu Hou, Jianning Guo, Xihui Zhang.  (2022)  Highly efficient manganese (III) oxide submerged catalytic ceramic membrane for nonradical degradation of emerging organic compounds.  SEPARATION AND PURIFICATION TECHNOLOGY,  295  (121272).  [10.1016/j.seppur.2022.121272]
17. Qingxin Xu, Xuejiao Liu, Dengguo Lai, Zhenjiao Xing, Pamphile Ndagijimana, Zhiwei Li, Yin Wang.  (2022)  One-step synthesis of nanoscale zero-valent iron modified hydrophobic mesoporous activated carbon for efficient removal of bulky organic pollutants.  Journal of Cleaner Production,  356  (131854).  [10.1016/j.jclepro.2022.131854]
18. Xuguang Liu, Fengqin Chang, Dayu Zhang, Meijie Ren.  (2022)  Influence of nitrate/nitrite on the degradation and transformation of triclosan in the UV based disinfection.  CHEMOSPHERE,  298  (134258).  [PMID:35271891] [10.1016/j.chemosphere.2022.134258]
19. Gaofeng Zhou, Yongsheng Fu, Runyu Zhou, Li Zhang, Linyue Zhang, Jiewen Deng, Yiqing Liu.  (2022)  Efficient degradation of organic contaminants by magnetic cobalt ferrite combined with peracetic acid.  PROCESS SAFETY AND ENVIRONMENTAL PROTECTION,  160  (376).  [10.1016/j.psep.2022.02.031]
20. Weihua Liu, Juntao Wang, Shuangju Song, Lin Hao, Jiajia Liu, Yangjuan An, Yaxing Guo, Qiuhua Wu, Chun Wang, Zhi Wang.  (2022)  Facile synthesis of uniform spherical covalent organic frameworks for determination of neonicotinoid insecticides.  FOOD CHEMISTRY,  367  (130653).  [PMID:34343809] [10.1016/j.foodchem.2021.130653]
21. Xinwen Huang, Anhua Jiang, Xiaoqiang Jin, Hangdi Yu, Yirong Zhang, Shasha Xia, Zongjian Liu, Geshan Zhang, Dionysios D. Dionysiou.  (2021)  Nitrogen-doped hollow carbon nanospheres as highly efficient electrocatalysts for detection of triclosan.  Journal of Environmental Chemical Engineering,  (106022).  [10.1016/j.jece.2021.106022]
22. Zhineng Dai, Xing Luo, Aili Yang, Jinsong Wang, Haiyan Fu, Yicheng Wu.  (2021)  The Effects of Triclosan on Physiological and Photosynthetic Characteristics of Chlorella vulgaris.  Water,  13  (10): (1355).  [10.3390/w13101355]
23. 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]
24. Jie Zhang, Dandan Li, Jianping Qiu, Zhengru Wen, Xiaohui Luo, Chaoqun Bian, Jian Chen, Mengfei Luo.  (2020)  Insights into the photocatalytic degradation of triclosan over amorphous Nb2O5 catalysts.  Materials Research Express,  (11): (115502).  [10.1088/2053-1591/abc9df]
25. Xubin Qian, Lei Xu, Yunqing Zhu, Haiying Yu, Junfeng Niu.  (2021)  Removal of aqueous triclosan using TiO2 nanotube arrays reactive membrane by sequential adsorption and electrochemical degradation.  CHEMICAL ENGINEERING JOURNAL,  420  (127615).  [10.1016/j.cej.2020.127615]
26. Huiyan Tong, Xingshuai Hu, Xiaocong Zhong, Qianyi Jiang.  (2020)  Adsorption and Desorption of Triclosan on Biodegradable Polyhydroxybutyrate Microplastics.  ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,  40  (1): (72-78).  [PMID:33045102] [10.1002/etc.4902]
27. Yanyan Lou, Fibor J. Tan, Rong Zeng, Mengen Wang, Pan Li, Shengji Xia.  (2020)  Preparation of Cross-Linked Graphene Oxide on Polyethersulfone Membrane for Pharmaceuticals and Personal Care Products Removal.  Polymers,  12  (9): (1921).  [PMID:32858818] [10.3390/polym12091921]
28. Zuolong Yu, Ru Deng, Guiwei Rao, Yanyu Lu, Yunxiao Wei, Changchun Fu, Xiaoping Yan, Fei Cao, Deyong Zhang.  (2020)  Synthesis and characterization of highly soluble wholly aromatic polyamides containing both furanyl and phenyl units.  JOURNAL OF POLYMER SCIENCE,  58  (15): (2140-2150).  [10.1002/pol.20200014]
29. Jiping Ma, Shuang Li, Gege Wu, Maryam Arabi, Feng Tan, Yafeng Guan, Jinhua Li, Lingxin Chen.  (2020)  Preparation of magnetic metal-organic frameworks with high binding capacity for removal of two fungicides from aqueous environments.  JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY,  90  (178).  [10.1016/j.jiec.2020.07.010]
30. Dongqin Lei, Quan Wang, Yue Kong, Yuanwei Chen, Xianglin Luo.  (2020)  Triclosan-loaded pH-responsive copolymer to target bacteria and to have long bacteriostatic efficacy.  EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES,  148  (105320).  [PMID:32240797] [10.1016/j.ejps.2020.105320]
31. Haoyuan Cai, Peng Wang, Xiaotong Chen, Yu Wang, Dun Zhang.  (2020)  Sulfide ions-induced release of biocides from a metal-phenolic supramolecular film fabricated on aluminum for inhibition of microbially influenced corrosion.  CORROSION SCIENCE,  167  (108534).  [10.1016/j.corsci.2020.108534]
32. Ye Li, Shibo Liu, Chi Wang, Zhian Ying, Mingxin Huo, Wu Yang.  (2020)  Effective column adsorption of triclosan from pure water and wastewater treatment plant effluent by using magnetic porous reduced graphene oxide.  JOURNAL OF HAZARDOUS MATERIALS,  386  (121942).  [PMID:31881495] [10.1016/j.jhazmat.2019.121942]
33. Zhiping Chen, Sijing Bi, Guangyi Zhao, Yuancai Chen, Yongyou Hu.  (2020)  Enhanced degradation of triclosan by cobalt manganese spinel-type oxide activated peroxymonosulfate oxidation process via sulfate radicals and singlet oxygen: Mechanisms and intermediates identification.  SCIENCE OF THE TOTAL ENVIRONMENT,  711  (134715).  [PMID:31822415] [10.1016/j.scitotenv.2019.134715]
34. Xiaolan Zhou, Dong Xu, Yuancai Chen, Yongyou Hu.  (2020)  Enhanced degradation of triclosan in heterogeneous E-Fenton process with MOF-derived hierarchical Mn/Fe@PC modified cathode.  CHEMICAL ENGINEERING JOURNAL,  384  (123324).  [10.1016/j.cej.2019.123324]
35. Shizong Wang, Jianlong Wang.  (2020)  Kinetics of PMS activation by graphene oxide and biochar.  CHEMOSPHERE,  239  (124812).  [PMID:31521932] [10.1016/j.chemosphere.2019.124812]
36. Min Sun, Yu Zhang, Hui-Hui Liu, Feng Zhang, Lin-Feng Zhai, Shaobin Wang.  (2019)  Room-temperature air oxidation of organic pollutants via electrocatalysis by nanoscaled Co-CoO on graphite felt anode.  ENVIRONMENT INTERNATIONAL,  131  (104977).  [PMID:31295645] [10.1016/j.envint.2019.104977]
37. Yanxia Li, Hongna Zhang, Yiting Chen, Lu Huang, Zian Lin, Zongwei Cai.  (2019)  Core–Shell Structured Magnetic Covalent Organic Framework Nanocomposites for Triclosan and Triclocarban Adsorption.  ACS Applied Materials & Interfaces,  11  (25): (22492–22500).  [PMID:31180623] [10.1021/acsami.9b06953]
38. Shizong Wang, Jianlong Wang.  (2018)  Degradation of emerging contaminants by acclimated activated sludge.  ENVIRONMENTAL TECHNOLOGY,  [PMID:28639849] [10.1080/09593330.2017.1345989]
39. Jing Zheng, Min Zhang, Yang Ling, Jingli Xu, Shunzhong Hu, Tasawar Hayat, Njud S. Alharbi, Fan Yang.  (2018)  Fabrication of one dimensional CNTs/Fe3O4@PPy/Pd magnetic composites for the accumulation and electrochemical detection of triclosan.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  818  (97).  [10.1016/j.jelechem.2018.04.026]
40. Noor Sanbhal, Ying Mao, Gang Sun, Yan Li, Mazhar Peerzada, Lu Wang.  (2018)  Preparation and Characterization of Antibacterial Polypropylene Meshes with Covalently Incorporated β-Cyclodextrins and Captured Antimicrobial Agent for Hernia Repair.  Polymers,  10  (1): (58).  [PMID:30966099] [10.3390/polym10010058]
41. Noor Sanbhal, Ying Mao, Gang Sun, Rui Fang Xu, Qian Zhang, Lu Wang.  (2018)  Surface modification of polypropylene mesh devices with cyclodextrin via cold plasma for hernia repair: Characterization and antibacterial properties.  APPLIED SURFACE SCIENCE,  439  (749).  [10.1016/j.apsusc.2017.12.192]
42. Shasha Feng, Xiaoping Wei, Li Zhong, Jianping Li.  (2017)  A Novel Molecularly Imprinted Photoelectrochemical Sensor Based on g-C3N4-AuNPs for the Highly Sensitive and Selective Detection of Triclosan.  ELECTROANALYSIS,  30  (2): (320-327).  [10.1002/elan.201700514]
43. Chen Yuan, Lei Xin, Dou Rongni, Chen Yuancai, Hu Yongyou, Zhang Zhiqi.  (2017)  Selective removal and preconcentration of triclosan using a water-compatible imprinted nano-magnetic chitosan particles.  ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH,  24  (22): (18640-18650).  [PMID:28647880] [10.1007/s11356-017-9467-6]
44. Tingxuan Wu, Tingting Li, Zhiguang Liu, Yujing Guo, Chuan Dong.  (2017)  Electrochemical sensor for sensitive detection of triclosan based on graphene/palladium nanoparticles hybrids.  TALANTA,  164  (556).  [PMID:28107972] [10.1016/j.talanta.2016.12.027]
45. Feng Qian, Xiangdong Zhu, Yuchen Liu, Shilai Hao, Zhiyong Jason Ren, Bin Gao, Ruilong Zong, Shicheng Zhang, Jianmin Chen.  (2016)  Synthesis, characterization and adsorption capacity of magnetic carbon composites activated by CO2: implication for the catalytic mechanisms of iron salts.  Journal of Materials Chemistry A,  (48): (18942-18951).  [10.1039/C6TA06614C]
46. Junhe Lu, Yuanyuan Shi, Yuefei Ji, Deyang Kong, Qingguo Huang.  (2017)  Transformation of triclosan by laccase catalyzed oxidation: The influence of humic acid-metal binding process.  ENVIRONMENTAL POLLUTION,  220  (1418).  [PMID:27823864] [10.1016/j.envpol.2016.10.092]
47. Jing Chen, Ruijuan Qu, Xiaoxue Pan, Zunyao Wang.  (2016)  Oxidative degradation of triclosan by potassium permanganate: Kinetics, degradation products, reaction mechanism, and toxicity evaluation.  WATER RESEARCH,  103  (215).  [PMID:27459151] [10.1016/j.watres.2016.07.041]
48. Yang Yang, Ma Xiaowei, Feng Fan, Dang Xueping, Huang Jianlin, Chen Huaixia.  (2016)  Magnetic solid-phase extraction of triclosan using core-shell Fe3O4@MIL-100 magnetic nanoparticles, and its determination by HPLC with UV detection.  MICROCHIMICA ACTA,  183  (8): (2467-2472).  [10.1007/s00604-016-1872-x]
49. Xia-Chao Chen, Ke-Feng Ren, Jia-Hui Zhang, Dan-Dan Li, Emily Zhao, Zhong Jonathon Zhao, Zhi-Kang Xu, Jian Ji.  (2015)  Humidity-Triggered Self-Healing of Microporous Polyelectrolyte Multilayer Coatings for Hydrophobic Drug Delivery.  ADVANCED FUNCTIONAL MATERIALS,  25  (48): (7470-7477).  [10.1002/adfm.201503258]
50. Hong Dai, Lingshan Gong, Guifang Xu, Shupei Zhang, Shuanyan Lu, Yuwei Jiang, Yanyu Lin, Longhua Guo, Guonan Chen.  (2013)  An electrochemical sensing platform structured with carbon nanohorns for detecting some food borne contaminants.  ELECTROCHIMICA ACTA,  111  (57).  [10.1016/j.electacta.2013.08.047]
51. Shiqing Zhou, Yisheng Shao, Naiyun Gao, Jing Deng, Chaoqun Tan.  (2013)  Equilibrium, Kinetic, and Thermodynamic Studies on the Adsorption of Triclosan onto Multi-Walled Carbon Nanotubes.  CLEAN-Soil Air Water,  41  (6): (539-547).  [10.1002/clen.201200082]
52. Fei Wang, Xingyu Liu, Chennan Guo, Fei Lian, Zimeng Li, Meiyan Wang, Binbin Sun, Wenling Wu, Hongwen Sun.  (2024)  A novel cobalt-iron bimetallic hydrochar for the degradation of triclosan in the aqueous solution: performance, reusability, and synergistic degradation mechanism.  ENVIRONMENTAL POLLUTION,  358  (124487).  [PMID:38960121] [10.1016/j.envpol.2024.124487]
53. Fan Yang, Jiao Liu, Yanjie Xie, Meijie Ren.  (2024)  A quantitative method of PPCPs in DOM-PPCPs coexisting system by differential spectroscopy.  MICROCHEMICAL JOURNAL,  200  (110357).  [10.1016/j.microc.2024.110357]
54. Li-Jun He, Zheng-Hui Qiu, Shuo-Qi Li, Hong Yan, Cun-Guo Lin, Rong-Chang Zeng.  (2025)  An S2--responsive coating on 70Cu-30Ni alloy for suppressing microbiologically influenced corrosion induced by sulfate-reducing bacteria.  APPLIED SURFACE SCIENCE,  684  (161914).  [10.1016/j.apsusc.2024.161914]
55. Huijiao Wang, Siyuan Xue, Weiyi Wang, Fan Gao, Shizuo Yi, Jiayin Li, Yuxin Yang, Erzhuo Zhao, Jianchao Wang, Jianbing Wang.  (2024)  CNTs/Ce co-doped PbO2 anode for electro-oxidation of triclosan: Fabrication, kinetics, and degradation mechanism based on DFT calculations.  Journal of Water Process Engineering,  64  (105748).  [10.1016/j.jwpe.2024.105748]
56. Huihui Liu, Jiaying Yan, Yanlin Wu, Caixia Yan, Minghua Nie, Wenbo Dong.  (2024)  Comparative study of Fe(III)/peroxymonosulfate, Fe(III)/hydrogen peroxide and Fe(III)/peroxydisulfate systems modified by sinapic acid for micropollutants degradation.  Journal of Cleaner Production,  470  (143242).  [10.1016/j.jclepro.2024.143242]
57. Lulu Chen, Xinyuan Zhang, Ruonan Feng, Xiaona Dong, Junhe Lu, Canlan Jiang.  (2024)  Critical roles of soil composition and pollutant properties on the degradation of PPCPs during ferrous/persulfate processes.  CHEMICAL ENGINEERING JOURNAL,  495  (153390).  [10.1016/j.cej.2024.153390]
58. Zhimin Xu, Zhanpeng Liu, Shunling Li, Fangfang Li, Peng Gao, Siyao Wang, Youcheng Lin, Guomei Xiong, Zhiqun Li, Hongbo Peng.  (2024)  Degradation of triclosan by peroxydisulfate/peroxomonosulfate binary oxidants activation under thermal conditions: Efficiency and mechanism.  JOURNAL OF ENVIRONMENTAL MANAGEMENT,  354  (120211).  [PMID:38340664] [10.1016/j.jenvman.2024.120211]
59. Ke Shi, Hong Zhang, Jikun Gao, Jiaqian Zhang, Xiangnan Zhang, Guangfeng Kan, Jie Jiang.  (2024)  Detection of nanoplastics released from consumer plastic food containers by electromagnetic heating pyrolysis mass spectrometry.  ANALYTICA CHIMICA ACTA,  (342344).  [PMID:38401923] [10.1016/j.aca.2024.342344]
60. Hao-Yang Ding, Si-Yu Wang, Thangavel Sangeetha, Min-Hua Cui.  (2025)  Effect of Pretreatments on the Distribution and Removal of Triclosan in Waste-Activated Sludge.  Water,  17  (4): (490).  [10.3390/w17040490]
61. Ping He, Qian Zheng, Matin Naghizadeh, Guiqi Huang, Sheying Dong.  (2024)  Efficient and recycled magnetic self-stirring hollow fiber-solid/liquid phase system: An extraction and removal technique for personal care pollutants.  JOURNAL OF MOLECULAR LIQUIDS,  396  (124002).  [10.1016/j.molliq.2024.124002]
62. Qicai Dai, Zhaobin Liu, Huan Li, Ruiliang Zhang, Teng Cai, Jian Yin, Yijing Gao, Siqin Li, Xueqin Lu, Guangyin Zhen.  (2024)  Enhanced dewaterability and triclosan removal of waste activated sludge with iron-rich mineral-activated peroxymonosulfate.  WASTE MANAGEMENT,  182  (271).  [PMID:38688046] [10.1016/j.wasman.2024.04.037]
63. Weixia Liu, Mengya Li, Xiangyu Zhang, Yongqiang Ma, Qing X. Li, Christophe Morisseau, Bruce D. Hammock, Ting Xu.  (2025)  Expression of nanobodies in Arabidopsis thaliana strengthens the absorption capacity of triclosan from growth media.  PHYSIOLOGIA PLANTARUM,  177  (2): (e70163).  [PMID:40113555] [10.1111/ppl.70163]
64. Yuxin Tu, Heming Li, Yuandi Xue, Wen Xie, Canrong Chen, Yanhui Zhong, Zian Lin, Zongwei Cai.  (2024)  Fluorine-functionalized covalent organic framework coated solid-phase microextraction probe coupled with electrospray ionization mass spectrometry for monitoring triclosan, triclocarban, and chlorophenols in mice.  TALANTA,  278  (126503).  [PMID:38963976] [10.1016/j.talanta.2024.126503]
65. Min-Hua Cui, Lei Chen, Thangavel Sangeetha, Wei-Mon Yan, Chao Zhang, Xue-Dong Zhang, Shi-Ming Niu, He Liu, Wen-Zong Liu.  (2024)  Impact and migration behavior of triclosan on waste-activated sludge anaerobic digestion.  BIORESOURCE TECHNOLOGY,  407  (131094).  [PMID:38986885] [10.1016/j.biortech.2024.131094]
66. Mao-Lan Zhang, Gui-Ping Zhang, Hong-Shuo Ma, Yu-Zhu Pan, Xiao-Ling Liao.  (2024)  Preparation of pH-responsive polyurethane nano micelles and their antibacterial application.  JOURNAL OF BIOMATERIALS SCIENCE-POLYMER EDITION,  [PMID:38265701] [10.1080/09205063.2024.2301807]
67. Jingwei Wang, Pan Zhao, Jiaxin Wang, Shuzhen Li, Qiao Ma.  (2025)  Responses of microbial communities in coastal sediments exposed to triclocarban and triclosan.  MARINE POLLUTION BULLETIN,  212  (117530).  [PMID:39798524] [10.1016/j.marpolbul.2025.117530]
68. Huanji Song, Jiahao Sun, Lingshan Miao, Zhilong Lin, Shenghu Wang, Dongcheng Li, Weiyang Lv.  (2025)  Synergistic radical and non-radical pathways for enhanced mineralization of organic pollutants by non-metallic h-BN/MWCNT composites via mechanochemical activation.  SEPARATION AND PURIFICATION TECHNOLOGY,  365  (132661).  [10.1016/j.seppur.2025.132661]
69. Hu Ke, Chen Hongxuan, Lin Yihui, Han Shitong, Wang Qi, Peng Houqian, Wang Ying, Zhao Jiwu, Xi Hailing, Wen Na, Long Jinlin.  (2024)  Synthesis and Durable Antimicrobial and Anti-fungal Properties of Triclosan and Chitosan Co-grafted Polypropylene Nonwovens.  FIBERS AND POLYMERS,  25  (11): (4149-4160).  [10.1007/s12221-024-00701-6]
70. Zhang Xian, Jiang Shuai, Guo Jianming, Xin Zhong.  (2025)  Synthesis, physical and mechanical properties of Novel polyurethane based on the poly(1,3-propylene sebacate) and poly(glycerol sebacate).  JOURNAL OF POLYMER RESEARCH,  32  (1): (1-13).  [10.1007/s10965-024-04215-w]
71. Jiangong Jiang, Shuxin Zhao, Xinjie Guo, Wenzhen Liu, Huixue Duan, Xinyuan Zhou, Rongyu Li, Yanhong Chang, Haiyang Yu, Xinxin Du, Xing Hu.  (2025)  Toxic effects of combined exposure to carbamazepine and triclosan on adult zebrafish (Danio rerio): Insights into acute mortality, neurotransmitters, biochemical response, and histopathology.  COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY C-TOXICOLOGY & PHARMACOLOGY,  294  (110190).  [PMID:40086681] [10.1016/j.cbpc.2025.110190]
72. Jinyun Li, Lu Fang, Miaocui Xi, Anyu Ni, Qiuhui Qian, Zejun Wang, Huili Wang, Jin Yan.  (2024)  Toxic effects of triclosan on hepatic and intestinal lipid accumulation in zebrafish via regulation of m6A-RNA methylation.  AQUATIC TOXICOLOGY,  269  (106884).  [PMID:38458066] [10.1016/j.aquatox.2024.106884]
73. Ting-Ting He, Xin Li, Jie-Zhi Ma, Yuan Yang, Shiye Zhu, Jianhua Zeng, Lin Luo, Yu-Long Yin, Lin-Ying Cao.  (2024)  Triclocarban and triclosan promote breast cancer progression in vitro and in vivo via activating G protein-coupled estrogen receptor signaling pathways.  SCIENCE OF THE TOTAL ENVIRONMENT,  (172782).  [PMID:38679099] [10.1016/j.scitotenv.2024.172782]
74. Panliang Wang, Liuying Li, Yufei Zhang, Dayang Ren, Yiyi Feng, Xiaoyu Li, Dong Wu, Bing Xie, Junguo Ma.  (2024)  Triclosan facilitates the dissemination of antibiotic resistance genes during anaerobic digestion: Focusing on horizontal transfer and microbial response.  BIORESOURCE TECHNOLOGY,  413  (131522).  [PMID:39321940] [10.1016/j.biortech.2024.131522]
75. Xiaoyu Li, Gaocheng Zhang, Zareen Zuhra, Shengxiang Wang.  (2024)  User-Friendly and Responsive Electrochemical Detection Approach for Triclosan by Nano-Metal–Organic Framework.  MOLECULES,  29  (14): (3298).  [PMID:39064877] [10.3390/molecules29143298]

溶液计算器

上海阿拉丁生化科技股份有限公司
© 2016 ALADDIN-E.COM . 版权所有,未经授权禁止拷贝本站资料,如有违反,将追究法律责任

本网站销售的所有产品仅用于工业应用或者科学研究等非医疗目的,不可用于人类或动物的临床诊断或者治疗,非药用,非食用。

上海工商 危险品化学品经营许可证(带存储)营业执照(三证合一)