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16-Mercaptohexadecanoic acid - 90%, high purity , CAS No.69839-68-5

2 Citations
  • ≥90%
Item Number
M433346
Grouped product items
SKUSizeAvailabilityPrice Qty
M433346-1g
1g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$355.90
M433346-5g
5g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$1,120.90
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Basic Description

SynonymsMHDA | C16H32O2S | INOAASCWQMFJQA-UHFFFAOYSA-N | AMY37962 | 16-Mercaptohexadecanoic acid, 99% | DTXSID00393287 | Hexadecanoic acid, 16-mercapto- | 16-Mercaptohexadecanoic acid, 90% | SCHEMBL49347 | 16-Mercaptohexadecanoic acid | D70988 | MFCD00674018 | BS
Specifications & Purity≥90%
Product Description

16-Mercaptohexadecanoic acid (MHA) is a long chained alkanethiol which forms self-assembled monolayers (SAMs) on a variety of surfaces.


Application

MHA forms SAMs on gold dipyramids which can be used in the fabrication of nanoresonators for shell-isolated nanoparticle enhanced raman spectroscopy (SHINERS). It can also be used to surface modify gold electrodes that can be used for sensitive detection of clozapine. Gold surfaces can be self-assembled with MHA by polymer pen lithography (PPL) which can be potentially used in bioengineering.

AI Insight

Names and Identifiers

IUPAC Name 16-sulfanylhexadecanoic acid
INCHI InChI=1S/C16H32O2S/c17-16(18)14-12-10-8-6-4-2-1-3-5-7-9-11-13-15-19/h19H,1-15H2,(H,17,18)
InChi Key INOAASCWQMFJQA-UHFFFAOYSA-N
Canonical SMILES C(CCCCCCCC(=O)O)CCCCCCCS
Isomeric SMILES C(CCCCCCCC(=O)O)CCCCCCCS
WGK Germany 3
PubChem CID 3522585
Molecular Weight 288.49

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

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

Safety and Hazards(GHS)

Hazard Statements

H413:May cause long lasting harmful effects to aquatic life

WGK Germany 3
RIDADR NONHforallmodesoftransport

Related Documents

 SDS

 Specification Sheet

Reviews

Customer Reviews

Citations of This Product

How to Cite Aladdin Scientific Products?
1. Jiaojiao Fang, Chengyang Zhu, Yaru Ni, Chunhua Lu, Zhongzi Xu.  (2023)  Double local electromagnetic fields collaboratively enhanced triplet–triplet annihilation upconversion for efficient photocatalysis.  Catalysis Science & Technology,  13  (7): (2151-2159).  [PMID:] [10.1039/D2CY01649D]
2. Jian Wang, Essalhi Fatima-Ezzahra, Jie Dai, Yanlei Liu, Chengjie Pei, Hai Li, Zhiwei Wang, Xiao Huang.  (2022)  Ligand-assisted deposition of ultra-small Au nanodots on Fe2O3/reduced graphene oxide for flexible gas sensors.  Nanoscale Advances,  (5): (1345-1350).  [PMID:36133674] [10.1039/D1NA00734C]

References

1. Ruby May A Sullan,James K Li,Paula J Crowley,L Jeannine Brady,Yves F Dufrêne.  (2015-02-12)  Binding forces of Streptococcus mutans P1 adhesin..  ACS nano,  ((2)): (1448-1460).  [PMID:25671413]
2. Monica L Ohnsorg,Christopher K Beaudoin,Mary E Anderson.  (2015-05-29)  Fundamentals of MOF Thin Film Growth via Liquid-Phase Epitaxy: Investigating the Initiation of Deposition and the Influence of Temperature..  Langmuir : the ACS journal of surfaces and colloids,  31  ((22)): (6114-6121).  [PMID:26020573]
3. Wei Zhao,Jin Luo,Shiyao Shan,Jack P Lombardi,Yvonne Xu,Kelly Cartwright,Susan Lu,Mark Poliks,Chuan-Jian Zhong.  (2015-06-04)  Nanoparticle-Structured Highly Sensitive and Anisotropic Gauge Sensors..  Small (Weinheim an der Bergstrasse, Germany),  11  ((35)): (4509-4516).  [PMID:26037089]
4. Brandon H Bowser,Landon J Brower,Monica L Ohnsorg,Lauren K Gentry,Christopher K Beaudoin,Mary E Anderson.  (2018-08-26)  Comparison of Surface-Bound and Free-Standing Variations of HKUST-1 MOFs: Effect of Activation and Ammonia Exposure on Morphology, Crystallinity, and Composition..  Nanomaterials (Basel, Switzerland),  ((9)):   [PMID:30142895]
5. Jenny K Hedlund,Amy V Walker.  (2019-05-10)  Polytype control of MoS2 using chemical bath deposition..  The Journal of chemical physics,  150  ((17)): (174701-174701).  [PMID:31067898]
6. Jairo Pinto Oliveira,Adilson Ribeiro Prado,Wanderson Juvencio Keijok,Paulo Wagnner Pereira Antunes,Enrique Ronald Yapuchura,Marco Cesar Cunegundes Guimarães.  (2019-09-27)  Impact of conjugation strategies for targeting of antibodies in gold nanoparticles for ultrasensitive detection of 17β-estradiol..  Scientific reports,  ((1)): (13859-13859).  [PMID:31554912]
7. Riccardo Marin,José Lifante,Lucas V Besteiro,Zhiming Wang,Alexander O Govorov,Fernando Rivero,Fernando Alfonso,Francisco Sanz-Rodríguez,Daniel Jaque.  (2020-01-25)  Plasmonic Copper Sulfide Nanoparticles Enable Dark Contrast in Optical Coherence Tomography..  Advanced healthcare materials,  ((5)): (e1901627-e1901627).  [PMID:31977166]
8. Tatiana Parra Vello,Mathias Strauss,Carlos Alberto Rodrigues Costa,Cátia Crispilho Corrêa,Carlos César Bof Bufon.  (2020-02-29)  Deterministic control of surface mounted metal-organic framework growth orientation on metallic and insulating surfaces..  Physical chemistry chemical physics : PCCP,  22  ((10)): (5839-5846).  [PMID:32107524]
9. Landon J Brower,Lauren K Gentry,Amanda L Napier,Mary E Anderson.  (2017-11-29)  Tailoring the nanoscale morphology of HKUST-1 thin films via codeposition and seeded growth..  Beilstein journal of nanotechnology,  (2307-2314).  [PMID:29181287]
10. Andreas Mark,Nicolas Helfricht,Astrid Rauh,Matthias Karg,Georg Papastavrou.  (2019-09-24)  The Next Generation of Colloidal Probes: A Universal Approach for Soft and Ultra-Small Particles..  Small (Weinheim an der Bergstrasse, Germany),  15  ((43)): (e1902976-e1902976).  [PMID:31544313]
11. Jiaojiao Fang, Chengyang Zhu, Yaru Ni, Chunhua Lu, Zhongzi Xu.  (2023)  Double local electromagnetic fields collaboratively enhanced triplet–triplet annihilation upconversion for efficient photocatalysis.  Catalysis Science & Technology,  13  (7): (2151-2159).  [PMID:] [10.1039/D2CY01649D]
12. Jian Wang, Essalhi Fatima-Ezzahra, Jie Dai, Yanlei Liu, Chengjie Pei, Hai Li, Zhiwei Wang, Xiao Huang.  (2022)  Ligand-assisted deposition of ultra-small Au nanodots on Fe2O3/reduced graphene oxide for flexible gas sensors.  Nanoscale Advances,  (5): (1345-1350).  [PMID:36133674] [10.1039/D1NA00734C]

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