Daniel M. Beagan
Materials Science · Indiana University
Publications
71
Citations
221
Est. group size
—
Recurring co-author estimate
Active years
9
Publishing since 2018
Daniel M. Beagan works in synthetic inorganic and coordination chemistry, designing metal complexes and specialized organic ligands that control how molecules bind and react. Recent work includes iron complexes that couple nitrogen-based (nitrosyl) ligands, nickel systems that react with oxygen for catalytic oxidation, and boron-based molecules that selectively recognize anions. Much of the research relies on determining crystal structures by X-ray diffraction to reveal precise molecular arrangements.
Publication activity has been uneven year to year, with peaks in 2021 and 2023 and lower counts in between, averaging about 5.6 publications per year over the last five years.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- N–N Coupling of Nitrosyl Ligands in a Dinitrosyl Iron Complex Mediated by Exogenous Acids
Inorganic Chemistry · 2026
- N-N Coupling of Nitrosyl Ligands in a Dinitrosyl Iron Complex Mediated by Exogenous Acids
ChemRxiv · 2026
- CCDC 2497302: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2026
- CCDC 2411051: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2026
- CCDC 2411052: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2026
- <i>Gem</i> ‐Diboronic Acids: A Motif for Anion Recognition in Competitive Media
Angewandte Chemie International Edition · 2025
- N-N Coupling of Nitrosyl Ligands in a Dinitrosyl Iron Complex Mediated by Exogenous Acids
ChemRxiv · 2025
- <i>Gem</i> ‐Diboronic Acids: A Motif for Anion Recognition in Competitive Media
Angewandte Chemie · 2025
- Appended Lewis Acids Enable Dioxygen Reactivity and Catalytic Oxidations with Ni(II)
Journal of the American Chemical Society · 2024
- CCDC 2214460: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2023
- A Bidentate Ligand Featuring Ditopic Lewis Acids in the Second Sphere for Selective Substrate Capture and Activation
Angewandte Chemie International Edition · 2023
- A Bidentate Ligand Featuring Ditopic Lewis Acids in the Second Sphere for Selective Substrate Capture and Activation
Angewandte Chemie · 2023
- CCDC 2214449: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2023
- CCDC 2214453: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2023
- CCDC 2214452: Experimental Crystal Structure Determination
The Cambridge Structural Database · 2023
- The Cambridge Structural Database×47
- Dalton Transactions×4
- ChemRxiv×4
- Angewandte Chemie International Edition×2
- ACS Central Science×2
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
Claim or correct this profile