We show that the 2-phosphaethynolate anion, OCP−, is a simple and efficient catalyst for the cyclotrimerization of isocyanates. This process proceeds step-wise and involves five-membered heterocycles, namely 1,4,2-diazaphospholidine-3,5-dionide anions and spiro-phosphoranides as detectable intermediates, both of which were also found to be involved in the catalytic conversion. These species can be considered as adducts of a phosphide anion with two and four isocyanate molecules, respectively, demonstrating that the OCP− anion acts as a formal “P−” source. The interconversion between these anionic species was found to be reversible, allowing them to serve as reservoirs for unique phosphorus-based living-catalysts for isocyanate trimerization
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
We show that the 2-phosphaethynolate anion, OCP−, is a simple and efficient catalyst for the cyclotr...
We show that the 2-phosphaethynolate anion, OCP−, is a simple and efficient catalyst for the cyclotr...
The reaction of Na(OCP) with mesitoyl chloride delivers an ester functionalized 1,2,4-oxadiphosphole...
This thesis describes a novel synthesis of the 2-phosphaethynolate anion, [PCO]â, via reaction of th...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
This thesis describes a novel synthesis of the 2-phosphaethynolate anion, [PCO]–, via reaction of th...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The reaction of magnesium chloride with two equivalents of sodium phosphaethynolate, Na[OCP]·(dioxan...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Producción CientíficaThe unsymmetric PIII/PV cyclodiphosphazane framework [(S[double bond, length as...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
We show that the 2-phosphaethynolate anion, OCP−, is a simple and efficient catalyst for the cyclotr...
We show that the 2-phosphaethynolate anion, OCP−, is a simple and efficient catalyst for the cyclotr...
The reaction of Na(OCP) with mesitoyl chloride delivers an ester functionalized 1,2,4-oxadiphosphole...
This thesis describes a novel synthesis of the 2-phosphaethynolate anion, [PCO]â, via reaction of th...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
This thesis describes a novel synthesis of the 2-phosphaethynolate anion, [PCO]–, via reaction of th...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The formation of isocyanurate via cyclotrimerization of isocya-nates is widely reported to provide a...
The reaction of magnesium chloride with two equivalents of sodium phosphaethynolate, Na[OCP]·(dioxan...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Producción CientíficaThe unsymmetric PIII/PV cyclodiphosphazane framework [(S[double bond, length as...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...
Main-group metals are inherently labile, hindering their use in catalysis. We exploit this lability ...