Flash Communication: Reversible O–H Bond Activation at a Bicyclic Germanide via Ge-Ligand Cooperativity

Pamela Adienes Benzan Lantigua; Marie N. Velada Dugois; Martin Lutz; Marc-Etienne Moret

doi:10.1021/acs.organomet.5c00486

Flash Communication: Reversible O–H Bond Activation at a Bicyclic Germanide via Ge-Ligand Cooperativity

Pamela Adienes Benzan Lantigua
, Marie N. Velada Dugois
, Martin Lutz
, Marc-Etienne Moret^*

^*Corresponding author for this work

Organic Chemistry and Catalysis, Institute for Sustainable and Circular Chemistry, Faculty of Science, Utrecht University, Universiteitsweg 99, 3584 CG Utrecht, The Netherlands

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Low-valent germanium compounds, such as germylenes, can undergo a variety of activation reactions, but the development of related catalytic processes is hindered by a challenging reductive elimination step. A possible way to overcome this obstacle is element-ligand cooperativity (ELC), which allows generation of reactive species without an oxidation state change at the element center. Here, we report the reactivity of the bicyclic germanide K[(tmim)Ge] (tmimH3 = tris(3-methylindol-2-yl)methane) with a phenolic O–H bonds which, instead of formal oxidative addition, undergoes a reversible O–H addition reaction coupled with cage opening to generate a Ge(II) phenoxide via element-ligand cooperativity.

Original language	English
Pages (from-to)	391-396
Number of pages	6
Journal	Organometallics
Volume	45
Issue number	4
Early online date	4 Feb 2026
DOIs	https://doi.org/10.1021/acs.organomet.5c00486
Publication status	Published - 23 Feb 2026

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© 2026 American Chemical Society

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title = "Flash Communication: Reversible O–H Bond Activation at a Bicyclic Germanide via Ge-Ligand Cooperativity",

abstract = "Low-valent germanium compounds, such as germylenes, can undergo a variety of activation reactions, but the development of related catalytic processes is hindered by a challenging reductive elimination step. A possible way to overcome this obstacle is element-ligand cooperativity (ELC), which allows generation of reactive species without an oxidation state change at the element center. Here, we report the reactivity of the bicyclic germanide K[(tmim)Ge] (tmimH3 = tris(3-methylindol-2-yl)methane) with a phenolic O–H bonds which, instead of formal oxidative addition, undergoes a reversible O–H addition reaction coupled with cage opening to generate a Ge(II) phenoxide via element-ligand cooperativity.",

author = "\{Benzan Lantigua\}, \{Pamela Adienes\} and \{Velada Dugois\}, \{Marie N.\} and Martin Lutz and Marc-Etienne Moret",

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AU - Benzan Lantigua, Pamela Adienes

AU - Velada Dugois, Marie N.

AU - Lutz, Martin

AU - Moret, Marc-Etienne

PY - 2026/2/23

Y1 - 2026/2/23

N2 - Low-valent germanium compounds, such as germylenes, can undergo a variety of activation reactions, but the development of related catalytic processes is hindered by a challenging reductive elimination step. A possible way to overcome this obstacle is element-ligand cooperativity (ELC), which allows generation of reactive species without an oxidation state change at the element center. Here, we report the reactivity of the bicyclic germanide K[(tmim)Ge] (tmimH3 = tris(3-methylindol-2-yl)methane) with a phenolic O–H bonds which, instead of formal oxidative addition, undergoes a reversible O–H addition reaction coupled with cage opening to generate a Ge(II) phenoxide via element-ligand cooperativity.

AB - Low-valent germanium compounds, such as germylenes, can undergo a variety of activation reactions, but the development of related catalytic processes is hindered by a challenging reductive elimination step. A possible way to overcome this obstacle is element-ligand cooperativity (ELC), which allows generation of reactive species without an oxidation state change at the element center. Here, we report the reactivity of the bicyclic germanide K[(tmim)Ge] (tmimH3 = tris(3-methylindol-2-yl)methane) with a phenolic O–H bonds which, instead of formal oxidative addition, undergoes a reversible O–H addition reaction coupled with cage opening to generate a Ge(II) phenoxide via element-ligand cooperativity.

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IS - 4

ER -

Flash Communication: Reversible O–H Bond Activation at a Bicyclic Germanide via Ge-Ligand Cooperativity

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