The Development of Next Generation, Unsymmetrical -Nhc Pincer Ligand Architectures and Metalation to Form Unsymmetrical -Nhc Pincer Ta Complexes

Box, Hannah Killian

14 August 2015

The impact of N-heterocyclic carbenes (NHC) as ligands for transition metal catalysis has been rigorously investigated since their isolation by Arduengo in 1991. NHCs have become abundant in late-transition metal chemistry. This is attributed to NHCs being stronger sigma-donors than even the strongest phosphine analogues, thus constructing a transition metal-NHC complex with improved stability, catalytic reactivity, and selectivity. Additionally, pincer ligands have become recognized as an important class of ligands for transition metal complexes. The unique steric and electronic tunability of pincer ligands has resulted in pincer-transition metal complexes being exploited as catalysts for a multitude of transformations. Both ligand classes, NHC and pincer, have been reported as stable organometallic catalysts that demonstrate high catalytic activity. The combination of these two ligand systems by incorporation of NHCs into pincer ligands has attracted considerable attention. NHC pincer systems have been reported as stable organometallic catalysts that demonstrate high catalytic activity. The expansion of -NHC ligand precursor methodologies and application of the newly reported methodologies in order to diversify -NHC ligand architectures is reported. Extension of the amine elimination methodology yielded unsymmetrical NHC Ta pincer complexes. Studies on the manipulation of the previously reported symmetrical -NHC pincer Ta complex’s coordination sphere to synthesize a rare Ta diimido complex with unique reactivity towards advantageous proton sources and oxidative amination of aminoalkenes are also expanded upon. These next generation catalysts developed from these architectures may prove useful in catalyzing a broad array of transformations not previously accessible through the four standard NHC containing pincer ligand architectures.

Unsymmetrical –NHC

Ta complexes

Oxidative Amination

P-delta Effects on a Steel Moment Frame Subjected to Sidesway Forces Caused by Unsymmetrical Live Load Patterns

Lim, keng gein

01 May 2015

Symmetrical steel moment frames that are subjected to sidesway forces due to unsymmetrical live loads will undergo sidesway. The P-delta effects on a moment frame under the influence of sidesway forces is studied. The effective length method is used for the second-order analysis specified in the American Institute Steel Construction - Load and Resistance Factor Design (AISC-LRFD). This study investigates the P-delta effects on a multi-story, multi-bay steel moment frame subjected to sidesway forces caused by various unsymmetrical live load patterns. The study focuses on the interaction of axial and bending moment in the columns. The actual response of a moment frame is estimated by amplifying the results of a first-order elastic analysis using moment magnification factors. The moment magnification factors for each story of the steel moment frame are summarized.

P-delta effects

Sidesway Forces

Steel Moment Frame

Unsymmetrical Gravity Loads

Unsymmetrical Live Loads

Wind Loads

A Study on the Mechanism Design for Manufacturing the Unsymmetrical End-face of Optical Fibers

Liu, Yu-da

08 September 2006

Take the Quadrangular-Pyramid-Shaped Fiber Endface(QPSFE) and the Conical-Wedge-Shaped Fiber Endface(CWSFE) for example, the present procedure of grinding asymmetric optical fiber endface demands three to four steps. These steps take time and are lack of repeatability and high yield. Aim at the shortcomings, this study develops a set of mechanism to attach to the original optical fiber grinding machine. The mechanism makes the normal pressure between the endface and the grinding plate change periodically to modify the removing rate of the material, thus enables the clipped flat endface of the optical fiber be ground into an elliptic-cone-shaped in a single grinding step, and then becomes a lens after its tip being fused by the arc. This mechanism reduces the fabricating time and cost, and consequently improve the economic benefits as well by simplifying the complicated manufacturing processes that represented before. Besides, for its single-step grinding characteristic, the offset between the center of the fiber and the elliptic-cone can thus be slashed to promote the yield. This study reviews the anterior references, including the papers and the patents, to begin, and then proposes the current means to compare with. Its contents involve the development of the forming principle, which proposes how the variation of the normal pressure takes influence on the removing rate of the material, and the required mechanism for the design procedure. The mechanism, the research result, and those needed to be ameliorated will be demonstrated in the conclusion and discussion part, so as to offer the investigating direction in the future.

grinding

optical fiber endface

elliptic-cone-shaped

mechanism design

unsymmetrical

Synthesis Of Camptothecin Derivatives

Duygu, Arife Nese

01 July 2005

This study presents synthetic studies on camptothecin, a potent antitumor agent in order to improve its stability and solubility without reducing its activity. The study consists of the modification of camptothecin at 20-OH position a new strategy for the targeted and controlled release of the drug and modification at C-7 position to overcome the stability and solubility problems of the free drug. In the first part of the study, the 20-OH functional group of camptothecin was replaced with an unsymmetrical benzoin derivative that is able to release the drug under photolysis at 350 nm. The new prodrugs synthesized possessed higher stability than the camptothecin itself. The in vitro irradiation of the prodrugs at 350 nm was satisfactory without any decomposition of the active substance. The second part of the study comprises the studies on the modification of the 7th position of camptothecin, which is the most suitable position for the modification. In this part of the study, 7-amino and silyl substituted camptothecins were synthesized.Combination of camptothecin with some other drugs such as cisplatin was also investigated in this study. The synthetic efforts showed that the reactions are very promising and the combination studies can be studied as a major subject in the future.

QD Organic Chemistry 241-441

A method for the design of unsymmetrical optical systems using freeform surfaces

Reshidko, Dmitry, Sasian, Jose

27 November 2017

A systematic method for the design of unsymmetrical optical systems is described. Freeform optical surfaces are constructed by superposition of a conic segment and a polynomial, and successfully applied to design relatively fast wide field-of-view optical systems.

Unsymmetrical optical systems

freeform surfaces

optical design

aberration correction

Novel strategies for the synthesis of unsymmetrical glycosyl disulfides

Ribeiro Morais, Goreti, Springett, Bradley R., Pauze, Martin, Schröder, Lisa, Northrop, Matthew, Falconer, Robert A.

02 February 2016

Yes / Novel strategies for the efficient synthesis of unsymmetrical glycosyl disulfides are reported. Glycosyl disulfides are increasingly important as glycomimetics and molecular probes in glycobiology. Sialosyl disulfides are synthesised directly from the chlorosialoside Neu5Ac2Cl, proceeding via a thiol-disulfide exchange reaction between the sialosyl thiolate and symmetrical disulfides. This methodology was adapted and found to be successfully applicable to the synthesis of unsymmetrical glucosyl disulfides under mild conditions.

Glycosyl disulfides

Unsymmetrical glycosyl disulfides

Synthesis

Novel strategies

Rhodium-catalyzed Addition of Arylboronic Acids to Nitriles: Application in the Synthesis of Unsymmetrical Polysubstituted Pyridines

Lau, Chan Tong

13 December 2011

Investigations pertaining to the rhodium(I)-catalyzed addition of arylboronic acids to (arylsulfonyl)acetonitriles were undertaken. The resulting carbon-carbon bond forming reaction has led to the efficient synthesis of novel stereoselective (Z)-β-sulfonylvinylamines, which upon acidic hydrolysis, afford useful β-keto sulfones possessing a diverse range of aryl and sulfonyl substituents. The synthetic utility of these (Z)-β-sulfonylvinylamines was subsequently explored by generating the corresponding 1-aza-allyl anion equivalents under basic conditions. This interesting anionic intermediate was then introduced to various α,β-unsaturated systems to produce a diverse array of functionalized pyridine derivatives including unsymmetrical polysubstituted pyridines.

rhodium

nitrile

pyridine

unsymmetrical

1-aza-allyl anion

β-keto sulfone

β-sulfonylvinylamine

0490

Rhodium-catalyzed Addition of Arylboronic Acids to Nitriles: Application in the Synthesis of Unsymmetrical Polysubstituted Pyridines

Lau, Chan Tong

13 December 2011

Investigations pertaining to the rhodium(I)-catalyzed addition of arylboronic acids to (arylsulfonyl)acetonitriles were undertaken. The resulting carbon-carbon bond forming reaction has led to the efficient synthesis of novel stereoselective (Z)-β-sulfonylvinylamines, which upon acidic hydrolysis, afford useful β-keto sulfones possessing a diverse range of aryl and sulfonyl substituents. The synthetic utility of these (Z)-β-sulfonylvinylamines was subsequently explored by generating the corresponding 1-aza-allyl anion equivalents under basic conditions. This interesting anionic intermediate was then introduced to various α,β-unsaturated systems to produce a diverse array of functionalized pyridine derivatives including unsymmetrical polysubstituted pyridines.

rhodium

nitrile

pyridine

unsymmetrical

1-aza-allyl anion

β-keto sulfone

β-sulfonylvinylamine

0490

TRANSITION METAL CATALYZED RING-OPENING REACTIONS OF UNSYMMETRICAL OXABICYCLIC ALKENES

Mohammed Abdul, Raheem

27 August 2013

This report is an investigation of regioselectivity in transition metal catalyzed ring-opening reactions involving unsymmetrical oxabicycles, specifically with a substituent at the C1 position. This report also provides the details of the work conducted towards the preparation of various oxanorbornadienes and their precursors. A large number of reactions have been developed using various transition metal catalysts on oxabicyclic alkenes to form functionalized organic scaffolds. However, most of the literature is limited to symmetrical substrates. Introduction of a substituent at the bridgehead carbon of the bicyclic ring makes the molecule unsymmetrical. The implications of loss of the plane of symmetry in C1 substituted oxabicyclic ring are manifested in interesting ways during various metal catalyzed reactions. The fundamental basis for the current work is to study the consequences of transition metal catalyzed ring opening reactions of unsymmetrical bicyclic alkenes. The reactivity of a wide range of C1 substituted benzoxanorbornadienes and oxanorbornadienes in palladium and nickel-catalyzed ring opening reactions was explored. The palladium catalyzed ring opening reaction of both electron rich and electron deficient C1 substituted benzoxanorbornadienes are optimized. The ring opening reactions with electron withdrawing C1 substituent resulted in formation of substituted naphthalene-1-carboxylic acid methyl ester derivatives in up to 85% yield. Electron donating substituents on the C1 position of benzoxanorbornadiene led to the formation of substituted cis-1,2-dihydronaphthol rings in excellent yields. Palladium catalyzed ring opening reactions were also explored with a wide range of aryl iodides and halobenzenes. The electronic and steric effects of the substituent at the C1 position of oxabicyles were also investigated. The nickel catalyzed ring opening reactions resulted in formation of inseparable regioisomeric mixtures of products. However, it was found that the nickel catalyzed ring opening of 1-methoxycarbonyl-7-oxabenzonorbornadiene occurred regioselectively affording a single product. A scalable procedure for preparation of large quantities of 2-bromofuran was developed. 2-Aryl furans were prepared using Suzuki cross coupling protocols of 2-bromofuran with aryl boronic acids whereas 2-alkyl furans were prepared by iron catalyzed cross coupling reaction of 2-bromofuran with various alkyl and cycloalkyl Grignard reagents. The 2-substituted furans were used for the preparation of novel C1 substituted benzoxanorbornadiene and oxanorbornadienes.

RING-OPENING REACTIONS

TRANSITION METAL CATALYZED

UNSYMMETRICAL OXABICYCLIC ALKENES

PALLADIUM

NICKEL

C1 substituted benzoxanorbornadienes

oxanorbornadienes

The Development of Next Generation Architectures for -N-Heterocyclic Carbene Pincer Ligands

Howell, Tyler Owen

15 August 2014

Methodologies for expanding the architectural diversity of -N-heterocyclic carbene (NHC) pincer ligand precursors and transition metal complexes have been developed for the production of more efficient catalyst, which will be employed in the synthesis of pharmaceuticals. An efficient route for the synthesis and isolation of bis-1,3-(3'-aryl-N-heterocycl-1'-yl)arenes has been established, and preliminary data for metalation and transmetalation of a N, N'-diaryl imidazolium salt has been acquired. Additionally, a proficient methodology for the synthesis of mixed, unsymmetrical -NHC pincer ligand precursors has been discovered, and preliminary data for mixed, unsymmetrical transition metal complexes is also included. These methodological expansions will lead to more efficient catalyst that decrease the expenditure of energy required for the synthesis of pharmaceuticals, thus making their synthesis more favorable for the environment and their price more affordable for consumers.

N-heterocyclic carbenes

unsymmetrical imidazolium salts

N-heterocyclic aryl salts

Pincer Ligands