Isolation of a bent dysprosium bis (amide) single-molecule magnet
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - ACS Publications
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet.
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - europepmc.org
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
[HTML][HTML] Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - ncbi.nlm.nih.gov
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a bent dysprosium bis (amide) single-molecule magnet
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - research.manchester.ac.uk
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet
J Emerson-King, GK Gransbury… - Journal of the American …, 2024 - hal.science
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - pubmed.ncbi.nlm.nih.gov
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a bent dysprosium bis (amide) single-molecule magnet
J Emerson-King, G Gransbury, G Whitehead… - 2023 - chemrxiv.org
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
[PDF][PDF] Isolation of a bent dysprosium bis (amide) single-molecule magnet
J Emerson-King, GK Gransbury, GFS Whitehead… - chemrxiv.org
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
[PDF][PDF] Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet
J Emerson-King, GK Gransbury, GFS Whitehead… - J. Am. Chem …, 2024 - hal.science
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
Isolation of a Bent Dysprosium Bis (amide) Single-Molecule Magnet.
J Emerson-King, GK Gransbury… - Journal of the …, 2024 - europepmc.org
The isolation of formally two-coordinate lanthanide (Ln) complexes is synthetically
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …
challenging, due to predominantly ionic Ln bonding regimes favoring high coordination …