Strongly Coordinating Ligands To Form Weakly Coordinating Yet Functional Organometallic Anions

Fisher, Steven P.; McArthur, Scott G.; Tej, Varun; Lee, Sarah E.; Chan, Allen L.; Banda, Isaac; Gregory, A Stephenson; Berkley, Kevin; Tsay, Charlene; Rheingold, Arnold L.; Guisado‐Barrios, Gregorio; Lavallo, Vincent

doi:10.1021/jacs.9b10234

Cited by 32 publications

(17 citation statements)

References 35 publications

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“…In 2014, anionic carboranyl units were introduced as substituents at the imidazole nitrogen atoms, [10] for example in the dianion V (Figure 1). [10a] The concept of using anionic boron clusters as substituents at NHCs via C cluster −N bonds was extended to other boron cages such as { nido ‐7,8‐C 2 B 9 }, [11] and recently, halogenated { closo ‐1‐CB 11 } cages have been attached as well [12] . To the best of our knowledge, no other dianionic NHCs are known.…”

Section: Introductionmentioning

confidence: 99%

“… [10a] The concept of using anionic boron clusters as substituents at NHCs via C cluster −N bonds was extended to other boron cages such as { nido ‐7,8‐C 2 B 9 }, [11] and recently, halogenated { closo ‐1‐CB 11 } cages have been attached as well. [12] To the best of our knowledge, no other dianionic NHCs are known. In contrast, many carbenes with two tethered anionic groups have been studied in the past.…”

Section: Introductionmentioning

confidence: 99%

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1,3‐Bis(tricyanoborane)imidazoline‐2‐ylidenate Anion—A Ditopic Dianionic N‐Heterocyclic Carbene Ligand

2021

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The 1,3-bis(tricyanoborane)imidazolate anion 1 was obtained in high yield from lithium imidazolate and B(CN) 3 À pyridine adduct. Anion 1 is chemically very robust and thus allowed the isolation of the corresponding H 5 O 2 + salt. Furthermore, monoanion 1 served as starting species for the novel dianionic N-heterocyclic carbene (NHC), 1,3-bis(tricyanoborane)imidazoline-2-ylidenate anion 3 that acts as ditopic ligand via the carbene center and the cyano groups at boron. First reactions of this new NHC 3 with methyl iodide, elemental selenium, and [Ni(CO) 4 ] led to the methylated imidazolate ion 4, the dianionic selenium adduct 5, and the dianionic nickel tricarbonyl complex 6. These NHC derivatives provide a first insight into the electronic and steric properties of the dianionic NHC 3. Especially the combination of properties, such as double negative charge, different coordination sites, large buried volume and good s-donor and p-acceptor ability, make NHC 3 a unique and promising ligand and building block.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

1,3‐Bis(tricyanoborane)imidazoline‐2‐ylidenate Anion—A Ditopic Dianionic N‐Heterocyclic Carbene Ligand

2021

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“…Anionische Carboranyl‐Einheiten wurden 2014 als Substituenten an den Imidazol‐Stickstoffatomen mit einer C Cluster ‐N‐Bindung eingeführt, [10] zum Beispiel im Dianion V (Abbildung 1). [10a] Das Konzept anionischer Borcluster als Substituenten an NHCs mit einer C Cluster ‐N‐Bindung wurde auf andere Borkäfige wie zum Beispiel { nido ‐7,8‐C 2 B 9 } [11] übertragen, und kürzlich wurden auch halogenierte { closo ‐1‐CB 11 }‐Käfige angebunden [12] . Weitere analoge dianionische NHCs sind uns nicht bekannt.…”

Section: Introductionunclassified

“…[10a] Das Konzept anionischer Borcluster als Substituenten an NHCs mit einer C Cluster -N-Bindung wurde auf andere Borkäfige wie zum Beispiel {nido-7,8-C 2 B 9 } [11] übertragen, und kürzlich wurden auch halogenierte {closo-1-CB 11 }-Käfige angebunden. [12] Weitere analoge dianionische NHCs sind uns nicht bekannt. Carbene mit zwei anionischen Gruppen, die über eine Brücke an das NHC-Grundgerüst angebunden sind, wurden dagegen intensiv untersucht.…”

Section: Introductionunclassified

Das 1,3‐Bis(tricyanoboran)imidazolin‐2‐ylidenat‐Anion – Ein ditopischer dianionischer N‐heterocyclischer Carben‐Ligand

2021

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Das 1,3‐Bis(tricyanoboran)imidazolat‐Anion 1 wurde in hoher Ausbeute ausgehend von Lithiumimidazolat und B(CN)3‐Pyridin‐Addukt erhalten. Das Anion 1 ist chemisch sehr robust, was sich in der Isolierung des H5O2+‐Salzes widerspiegelt. Ferner dient 1 als Startmaterial für das neuartige dianionische N‐heterocyclische Carben (NHC), das 1,3‐Bis(tricyanoboran)imidazolin‐2‐ylidenat‐Anion 3, das mit seinem Carben‐Kohlenstoffatom und den Cyano‐Gruppen an Bor ein ditopischer Ligand ist. Erste Reaktionen des neuen NHC 3 mit Methyliodid, elementarem Selen und [Ni(CO)4] gaben das methylierte Imidazolat‐Ion 4, das dianionische Selen‐Addukt 5 und den dianionischen Nickeltricarbonyl‐Komplex 6. Diese NHC‐Derivate geben erste Einblicke in die elektronischen und sterischen Eigenschaften von 3. Insbesondere die Kombination von Eigenschaften – wie die zweifach negative Ladung, verschiedene Donorzentren, ein großes verdecktes Volumen und gute σ‐Donor‐ und π‐Akzeptor‐Eigenschaften – macht NHC 3 zu einem einzigartigen und vielversprechenden Liganden und Baustein.

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“…This work further highlights how unique stimuli-responsive features of boron clusters can aid the development of new complex hybrid chemical systems. [56][57][58][59][60][61][62][63][64] (65) Unfortunately, in TFA or H2O no significant chemical shift changes were observed by IR, 11 B-NMR or 1 H-NMR spectroscopy precluding a Ka determination of unfunctionalized carboranes (including nido-carborane) with CB [7].…”

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confidence: 99%

Carborane Guests for Cucurbit[7]uril Facilitate Strong Binding and On-Demand Removal

et al. 2020

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High affinity guests have been reported for the macrocyclic host cucurbit[7]uril (CB[7]), enabling widespread applications, but preventing CB[7] materials from being returned to their guest-free state for reuse. Here we present polyhedral boron clusters (carboranes) as strongly-binding, yet easily removable, guests for CB[7]. Aided by a Pd-catalyzed coupling of an azide anion, we prepared boron-functionalized 9-amino and 9-ammonium modified ortho-carboranes that bind to CB[7] with a Ka=10 10 M-1. Upon treatment with base, the orthocarboranes readily undergo deboronation to yield anionic nido-carborane, a poor guest of CB[7], facilitating recovery of guest-free CB[7]. We showcase the utility of the modified ortho-carborane guest by recycling a CB[7]functionalized resin. With this report, we introduce stimuli-responsive decomplexation as an additional consideration in the design of high affinity host-guest complexes. Molecular recognition is ubiquitous within the natural world with the genetic code, enzymes, and immune systems all reliant on non-covalent interactions between biomolecules. 1,2 These phenomena have inspired chemists to develop host-guest complexes in hopes of achieving comparable degrees of specificity for applications in functional materials, 3 sensors, 4 biological assays, 5 and therapeutics. 6-9 Much of the early molecular recognition work involved crown ether, cyclophane, and cyclodextrin hosts that exhibit modest binding affinities (Ka<10 5 M-1). 10 More recently, there has been a focus on the development of high affinity (Ka>10 10 M-1) host-guest complexes that rival the binding affinities of Nature's best molecular recognition systems: antibody-antigens and (strept)avidin-biotin. 11 High binding affinity complexes

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Strongly Coordinating Ligands To Form Weakly Coordinating Yet Functional Organometallic Anions

Cited by 32 publications

References 35 publications

1,3‐Bis(tricyanoborane)imidazoline‐2‐ylidenate Anion—A Ditopic Dianionic N‐Heterocyclic Carbene Ligand

1,3‐Bis(tricyanoborane)imidazoline‐2‐ylidenate Anion—A Ditopic Dianionic N‐Heterocyclic Carbene Ligand

Das 1,3‐Bis(tricyanoboran)imidazolin‐2‐ylidenat‐Anion – Ein ditopischer dianionischer N‐heterocyclischer Carben‐Ligand

Carborane Guests for Cucurbit[7]uril Facilitate Strong Binding and On-Demand Removal

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