基本描述

别名	二辛基胺 \| N,N-二辛胺 \| N-正辛基-1-辛胺 \| N-辛基-1-辛胺
英文别名	N-octyl-1-octanamine \| N-n-Octyl-n-octylamine \| Di-n-octylamine \| N,N-Dioctylamine
规格或纯度	≥95%
英文名称	Di-n-octylamine
应用	缓蚀剂的中间体，金属萃取剂和液压流体的中间体。
储存温度	室温,充氩
运输条件	常规运输
产品介绍	不溶于水。缓蚀剂的中间体，金属萃取剂和液压流体的中间体。应用：二辛胺可用作合成以下物质的反应物：基于四-烷基二甲基胍盐阳离子的离子液；N-(2,5-二-叔-丁基苯基)苝-3,4-二羧酰亚胺类苝光敏剂。它也可用作某些纳米颗粒的形貌控制合成中的表面活性剂。 Dioctylamine can be used as a reactant in the synthesis of：Ionic liquids based on the tetra-alkyl-dimethylguanidinium cation ；N-(2,5-di-tert-butylphenyl)perylene-3,4-dicarboximide based perylene photosensitizers.It can be also employed as a surfactant in the shape-controlled synthesis of some nanoparticles.
纯度	≥95%

名称和识别符

EC号	214-311-6
分子类型	小分子
IIUPAC Name	N-octyloctan-1-amine
INCHI	1S/C16H35N/c1-3-5-7-9-11-13-15-17-16-14-12-10-8-6-4-2/h17H,3-16H2,1-2H3
InChi Key	LAWOZCWGWDVVSG-UHFFFAOYSA-N
Smiles	CCCCCCCCNCCCCCCCC
Isomeric SMILES	CCCCCCCCNCCCCCCCC
UN Number	2735
分子量	241.46
Beilstein号	1748376
Reaxy-Rn	1748376
Reaxys-RN link address	https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=1748376&ln=

化学和物理性质

溶解性	几乎不溶于水
密度	0.8
敏感性	对空气敏感，吸湿
折光率	1.4432
闪点(℃)	142-159 °C
沸点	297-298°C
熔点	13-16°C
分子量	241.460 g/mol
XLogP3	6.600
氢键供体数Hydrogen Bond Donor Count	1
氢键受体数Hydrogen Bond Acceptor Count	1
可旋转键计数Rotatable Bond Count	14
精确质量Exact Mass	241.277 Da
单同位素质量Monoisotopic Mass	241.277 Da
拓扑极表面积Topological Polar Surface Area	12.000 Å²
重原子数Heavy Atom Count	17
形式电荷Formal Charge	0
复杂度Complexity	109.000
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	GHS05, GHS07, GHS09
信号词	危险
危险声明	H302: 吞食有害 H314: 造成严重的皮肤灼伤和眼睛损伤 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	P260: 不要吸入灰尘/烟雾/气体/雾/蒸汽/喷雾。 P264: 处理后要彻底洗手。 P270: 使用本产品时，请勿进食、饮水或吸烟。 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...）。 P330: 漱口 P363: 再次使用之前，请清洗受污染的衣物。 P391: 收集溢出物 P301+P330+P331: 如误吞咽：漱口。不要诱导呕吐。 P304+P340: 如误吸入：将人转移到空气新鲜处，保持呼吸舒适体位。 P405: 密闭存放 P501: 将内容物/容器处理到。。。 P301+P317: 如果被吞咽：请寻求医疗帮助。 P305+P354+P338: 如果进入眼睛：立即用水冲洗几分钟。取下隐形眼镜（如果有的话），并且操作简单。继续冲洗。 P302+P361+P354: 如果接触皮肤：立即脱掉所有被污染的衣服。立即用水冲洗几分钟。 P316: 立即寻求紧急医疗救助。
WGK Germany	3
个人防护装备	Faceshields,full-face respirator (US),Gloves,Goggles,multi-purpose combination respirator cartridge (US),type ABEK (EN14387) respirator filter

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23个结果

批号(Lot Number)	证书类型	货号
H2527120	分析证书	D108994
H2527121	分析证书	D108994
H2527171	分析证书	D108994
H2527172	分析证书	D108994
C2127238	分析证书	D108994
L2406574	分析证书	D108994
H2416233	分析证书	D108994
H2416234	分析证书	D108994
H2416232	分析证书	D108994
H2416231	分析证书	D108994
H2422271	分析证书	D108994
E2408163	分析证书	D108994
E2408164	分析证书	D108994
E2408165	分析证书	D108994
E2408166	分析证书	D108994
E2408167	分析证书	D108994
E2408168	分析证书	D108994
L2325192	分析证书	D108994
L2325193	分析证书	D108994
L2325194	分析证书	D108994
B2309032	分析证书	D108994
A1904120	分析证书	D108994
H2202281	分析证书	D108994

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. Lucas A Lane,Andrew M Smith,Tianquan Lian,Shuming Nie. (2014-08-27) Compact and blinking-suppressed quantum dots for single-particle tracking in live cells.. The journal of physical chemistry. B, 118 ((49)): (14140-14147). [PMID:25157589]
2. Crystal S Lewis,Haiqing Liu,Jinkyu Han,Lei Wang,Shiyu Yue,Nicholas A Brennan,Stanislaus S Wong. (2016-01-05) Probing charge transfer in a novel class of luminescent perovskite-based heterostructures composed of quantum dots bound to RE-activated CaTiO3 phosphors.. Nanoscale, 8 ((4)): (2129-2142). [PMID:26725486]
3. Federico Bertasi,Guinevere A Giffin,Keti Vezzù,Giuseppe Pace,Yaser Abu-Lebdeh,Michel Armand,Vito Di Noto. (2017-09-22) A lipophilic ionic liquid based on formamidinium cations and TFSI: the electric response and the effect of CO. Physical chemistry chemical physics : PCCP, 19 ((38)): (26230-26239). [PMID:28932830]
4. Haiqing Liu,Dominic Moronta,Luyao Li,Shiyu Yue,Stanislaus S Wong. (2018-03-29) Synthesis, properties, and formation mechanism of Mn-doped Zn2SiO4 nanowires and associated heterostructures.. Physical chemistry chemical physics : PCCP, 20 ((15)): (10086-10099). [PMID:29589019]
5. Taizo Yoshinaga,Masaki Saruyama,Anke Xiong,Yeilin Ham,Yongbo Kuang,Ryo Niishiro,Seiji Akiyama,Masanori Sakamoto,Takashi Hisatomi,Kazunari Domen,Toshiharu Teranishi. (2018-04-05) Boosting photocatalytic overall water splitting by Co doping into Mn3O4 nanoparticles as oxygen evolution cocatalysts.. Nanoscale, 10 ((22)): (10420-10427). [PMID:29616267]
6. Bihu Lv,Huichao Zhang,Lipeng Wang,Chunfeng Zhang,Xiaoyong Wang,Jiayu Zhang,Min Xiao. (2018-04-20) Photon antibunching in a cluster of giant CdSe/CdS nanocrystals.. Nature communications, 9 ((1)): (1536-1536). [PMID:29670113]
7. Reyhaneh Toufanian,Andrei Piryatinski,Andrew H Mahler,Radhika Iyer,Jennifer A Hollingsworth,Allison M Dennis. (2018-12-06) Bandgap Engineering of Indium Phosphide-Based Core/Shell Heterostructures Through Shell Composition and Thickness.. Frontiers in chemistry, 6 (567-567). [PMID:30515380]
8. Krishna Jayant,Michael Wenzel,Yuki Bando,Jordan P Hamm,Nicola Mandriota,Jake H Rabinowitz,Ilan Jen-La Plante,Jonathan S Owen,Ozgur Sahin,Kenneth L Shepard,Rafael Yuste. (2019-01-04) Flexible Nanopipettes for Minimally Invasive Intracellular Electrophysiology In\xa0Vivo.. Cell reports, 26 ((1)): (266-278). [PMID:30605681]
9. Clayton J Dahlman, Naveen R Venkatesan, Patrick T Corona, Rhys M Kennard, Lingling Mao, Noah C Smith, Jiamin Zhang, Ram Seshadri, Matthew E Helgeson, Michael L Chabinyc,. (2020-08-25) Structural Evolution of Layered Hybrid Lead Iodide Perovskites in Colloidal Dispersions.. ACS nano, 14 ((9)): ( 11294-11308 ). [PMID:32830961]
10. Jana Jasprova,Matteo Dal Ben,Eleonora Vianello,Iryna Goncharova,Marie Urbanova,Karolina Vyroubalova,Silvia Gazzin,Claudio Tiribelli,Martin Sticha,Marcela Cerna,Libor Vitek. (2016-02-02) The Biological Effects of Bilirubin Photoisomers.. PloS one, 11 ((2)): (e0148126-e0148126). [PMID:26829016]
11. Urszula Klekotka,Dariusz Satuła,Anna Basa,Beata Kalska-Szostko. (2020-04-15) Importance of Surfactant Quantity and Quality on Growth Regime of Iron Oxide Nanoparticles.. Materials (Basel, Switzerland), 13 ((7)): [PMID:32283605]
12. Yan Li, Ying Dai, Wei Dai, Feiqiang He, Zhuyao Li, Xing Zhong, Qinqin Tao. (2024) Bifunctional solid-state ionic liquid supported amidoxime chitosan adsorbents for Th(IV) and U(VI): Enhanced adsorption capacity from the synergistic effect. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 257 (128708). [PMID:38096930] [10.1016/j.ijbiomac.2023.128708]
13. Yi Hao, Yuan Gao, Luyao Gao, Yulian He, Yingying Niu, Sameer Hussain, Ruixia Gao, Lisa D. Pfefferle, M. Shahid, Sicen Wang. (2021) Amphiphilic core–shell magnetic adsorbents for efficient removal and detection of phthalate esters. CHEMICAL ENGINEERING JOURNAL, 423 (129817). [10.1016/j.cej.2021.129817]
14. Zhang Hao, Yang Fan, Lu Chuan, Du Chang, Bai Ruixi, Zeng Xian, Zhao Zhigang, Cai Chunqing, Li Jianguo. (2020) Effective decontamination of 99TcO4−/ReO4− from Hanford low-activity waste by functionalized graphene oxide–chitosan sponges. Environmental Chemistry Letters, 18 (4): (1379-1388). [10.1007/s10311-020-01005-w]
15. Fukai Li, Aijun Gong, Lina Qiu, Weiwei Zhang, Jingrui Li, Zhe Liu. (2019) Diglycolamide-grafted Fe3O4/polydopamine nanomaterial as a novel magnetic adsorbent for preconcentration of rare earth elements in water samples prior to inductively coupled plasma optical emission spectrometry determination. CHEMICAL ENGINEERING JOURNAL, 361 (1098). [10.1016/j.cej.2019.01.004]
16. Xiaogang Shang, Songwei Zhang, Huimin Yang, Songbo Li, Litian Hu. (2025) High temperature tribological studies of oil-soluble ionic liquids as extreme pressure and anti-wear additives for ester oils. JOURNAL OF MOLECULAR LIQUIDS, 419 (126761). [10.1016/j.molliq.2024.126761]
17. Mingfa Ren, Hongling Fang, Lei Liu, Songwei Zhang, Qinglun Che, Litian Hu. (2024) The tribological studies of a new ionic liquid deep eutectic solvent as oil-soluble additive. JOURNAL OF MOLECULAR LIQUIDS, (126778). [10.1016/j.molliq.2024.126778]

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

x

体积

x

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）

x

体积 1 (V1)

=

浓度 2 (C2)

x

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

货号 (SKU)	包装规格	是否现货
D108994-25ml	25ml	现货
D108994-100ml	100ml	现货
D108994-500ml	500ml	现货
D108994-2.5L	2.5L	现货

二正辛胺

库存信息

库存信息

库存信息

库存信息

基本描述

名称和识别符

化学和物理性质

安全和危险性（GHS）

质检证书（CoA,COO,BSE/TSE 和分析图谱)

显示更多⌵

可替换产品

此产品的引用文献

引用文献

溶液计算器

摩尔浓度计算器

稀释计算器

复溶计算器