Synthesis of Terpyridine Ligand Containing Triferrocene moiety

Cai, Xian-Yao

04 February 2004

none

Terpyridine

Bridging ligand

Triferrocene

Synthesis and Complexation of Cp3Fe4(CO)4(C5H4)(terpy) and Cp2Fe4(CO)4(C5H5)2(terpy)2 (terpy=2,2¡¦;6¡¦,2¡¨-terpyridine)

Chang, Hsiang-min

28 August 2008

none

Cp4Fe4(CO)4

terpyridine

The Synthesis and Characterisation of a Novel Polyamine-Terpyridine Ligand and Related Complexes

Thornley, Paul Andrew

January 2009

This project was aimed at synthesising, characterising and examining the properties of the novel polyamine ligand 4’-{2’”-(12-Amino-2,6,9-triazadodecyl)-phenyl}-2,2’:6’,2”-terpyridine and its related complexes. The ligand would be based around the 4’-(o-toluyl)-2,2’:6’,2”-terpyridine framework and have potential applications in analytical chemistry. The 4’-(o-toluyl)-2,2’:6’,2”-terpyridine framework would have a tail attached on the functionalised o-toluyl methyl group. The ortho toluyl functionality was chosen so that the donor atom containing tail would be directed back towards the coordination site. This would make it easier for the tail to interact with a central metal ion. There is potential to be able to change the number and type of donor atom in the tail so that the ligand may be metal ion selective. As the tail would contain donor atoms, the denticity of the ligand would be increased making it more applicable for complexometric titrations. The 2,2’:6’,2” terpyridines exhibit strong colours when coordinated to selective metal ions and so would have potential applications in colorimetry also. The ligand was successfully synthesised and characterised. In a multi-step process, the 4’-(o-toluyl)-2,2’:6’,2”-terpyridine underwent radical bromination before the tail was attached. The tail used in this research was N,N'-bis (3-aminopropyl)ethane-1,2-diamine (3,2,3-tet). The secondary amines in this polyamine tail were protected before addition to the brominated 4’-(o-toluyl)-2,2’:6’,2”-terpyridine to ensure terminal addition. After the tail addition, a two step separation process purified a sample of 4’-{2’”-(12-Amino-2,6,9-triazadodecyl)-phenyl}-2,2’:6’,2”-terpyridine for analysis. Due to the late stage in this research where a successful separation technique was found, little work was done on examining the properties of this ligand and its complexes.

Ligands

Polyamine

Transition metals

Terpyridine

Metal Complexes of Fluoro-Substituted and [CpFeCO]4-Functionalized Terpyridine

Yu, Yi-Jing

22 March 2011

none

ortho metalation

Terpyridine

[CpFeCO]4

The Synthesis and Characterisation of a Novel Polyamine-Terpyridine Ligand and Related Complexes

Thornley, Paul Andrew

January 2009

This project was aimed at synthesising, characterising and examining the properties of the novel polyamine ligand 4’-{2’”-(12-Amino-2,6,9-triazadodecyl)-phenyl}-2,2’:6’,2”-terpyridine and its related complexes. The ligand would be based around the 4’-(o-toluyl)-2,2’:6’,2”-terpyridine framework and have potential applications in analytical chemistry. The 4’-(o-toluyl)-2,2’:6’,2”-terpyridine framework would have a tail attached on the functionalised o-toluyl methyl group. The ortho toluyl functionality was chosen so that the donor atom containing tail would be directed back towards the coordination site. This would make it easier for the tail to interact with a central metal ion. There is potential to be able to change the number and type of donor atom in the tail so that the ligand may be metal ion selective. As the tail would contain donor atoms, the denticity of the ligand would be increased making it more applicable for complexometric titrations. The 2,2’:6’,2” terpyridines exhibit strong colours when coordinated to selective metal ions and so would have potential applications in colorimetry also. The ligand was successfully synthesised and characterised. In a multi-step process, the 4’-(o-toluyl)-2,2’:6’,2”-terpyridine underwent radical bromination before the tail was attached. The tail used in this research was N,N'-bis (3-aminopropyl)ethane-1,2-diamine (3,2,3-tet). The secondary amines in this polyamine tail were protected before addition to the brominated 4’-(o-toluyl)-2,2’:6’,2”-terpyridine to ensure terminal addition. After the tail addition, a two step separation process purified a sample of 4’-{2’”-(12-Amino-2,6,9-triazadodecyl)-phenyl}-2,2’:6’,2”-terpyridine for analysis. Due to the late stage in this research where a successful separation technique was found, little work was done on examining the properties of this ligand and its complexes.

Ligands

Polyamine

Transition metals

Terpyridine

Synthesis of Metal Bis(Terpyridine)-DNA Complexes for Use Towards the Assembly of Cubic Lattices

Shen, Sui

January 2010

Thesis advisor: Larry W. McLaughlin / There are two major goals for my project. The first is to create and characterize metal-ligand-DNA complexes that could be synthesized using traditional organic methods followed by solid phase techniques. The second is to demonstrate that these complexes with complementary DNA sequences could self-assemble into higher-ordered structures. In order to generate supramolecular DNA-metal structures such as cubic lattices, it is necessary to create an octahedral metal-ligand center tethering six DNA arms as a building block. The Iron/Ru (II) bis(2,2':6',2''terpyridine) derivatives were chosen because: (i) the complex is well known to present octahedral geometry; (ii) the coordination is very stable; and (iii) while previous work required the solid-phase synthesis of six DNA arms simultaneously--an inefficient process--by using terpyridine ligands we need only extend three arms at once. Thus, several terpyridine-linker compounds were synthesized via two different routes. A DNA 14mer was synthesized afterwards by "Reverse Coupling Protocol" on a solid phase synthesizer and the terpyridine was connected to it followed by elongation of the rest two DNA arms. The DNA-terpyridine complexes were evaluated by stepwise hybridization tests and gel electrophoresis with or without the assistance of radio labeling. In addition, the assembly of metal with the terpyridine-DNA complex was also characterized by adding different metal ions such as Iron (II) and Ru (II) to the complex. Various buffer conditions were applied in constructing those conjugates in order to help forming branched DNA-ligand-metal complexes with higher molecular weight. / Thesis (MS) — Boston College, 2010. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

DNA

Geometry

Ligand

self assembly

Terpyridine

Design and Construction of Nanoarchitectures Using Smart Building Blocks

Hwang, Seok-Ho

17 May 2006

No description available.

Chemistry, General

Terpyridine

Metal

Complex

Macrocycle

Design and Synthesis of Shape-persistent Terpyridine-based Matallomacromolecules and Architectures

Schultz, Anthony

11 December 2012

No description available.

Organic Chemistry

Terpyridine

Supramolecular Chemistry

Organic Chemistry

Temperature-Dependent Supramolecular Cages Self-Assembled By <i>Tris</i>terpyridine and Transition Metal Ions

Hong, Wei

January 2017

No description available.

Chemistry

self-assembly

supramolecular chemistry

terpyridine

Synthesis, Characterization, Thermodynamic, and Kinetic Studies of Vapochromic Pt(II) Complexes.

Karimi Abdolmaleki, Mahmood

29 May 2018

No description available.

Chemistry

vapochromism

platinum

terpyridine

morphology

Thermodynamic

Kinetic