D
Daniel J. Scott Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
High Impact
Lecturer in Inorganic Chemistry
faculty
22 h-index
90 pubs
2,402 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Daniel J. Scott's research program focuses on the development of novel synthetic methodologies, particularly in the area of photoredox catalysis and phosphorus chemistry. His work has explored the use of radical cations as potent photooxidants for various organic transformations. Scott has investigated the direct synthesis of monophosphines from white phosphorus and the photocatalytic arylation of white phosphorus and phosphine gas.
His recent publications also detail the development of routes to monophosphines through the hydrostannylation of red phosphorus. Scott's research has contributed to understanding complex photoredox mechanisms through the isolation of intermediate radical anions. He has also examined the photochemical transformation of chlorobenzenes and white phosphorus into arylphosphines and phosphonium salts, as well as the photocatalytic stannylation of white phosphorus.
Scott holds a lecturer position in Inorganic Chemistry at the University of Arkansas at Fayetteville. His scholarship metrics include an h-index of 22, with 89 total publications and 2,376 total citations. He is recognized as a highly cited researcher and collaborates with David C. Jensen, with whom he shares two publications.
Metrics
- h-index: 22
- Publications: 90
- Citations: 2,402
Selected Publications
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Advanced Genetic Algorithm-Based Network Optimization for Mission Assurance (2026)
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A Framework for Hybrid Agent-Network Analysis for Mission Assurance (2025)
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Implementation of Network Optimization and Resiliency Analysis Towards Mission Assurance (2024)
Collaboration Network
Top Collaborators
Robert Wolf
University of Regensburg (DE)
24 shared publications
- Synthesis of monophosphines directly from white phosphorus
- Photocatalytic Arylation of P<sub>4</sub> and PH<sub>3</sub>: Reaction Development Through Mechanistic Insight
- Photochemical transformation of chlorobenzenes and white phosphorus into arylphosphines and phosphonium salts
- Photocatalytic stannylation of white phosphorus
- Hydrostannylation of Red Phosphorus: A Convenient Route to Monophosphines
Showing 5 of 24 shared publications
Peter Coburger
Isotopen Technologien München (Germany) (DE)
13 shared publications
- Synthesis of a carborane-substituted bis(phosphanido) cobaltate(<scp>i</scp>), ligand substitution, and unusual P<sub>4</sub>fragmentation
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- Unravelling White Phosphorus: Experimental and Computational Studies Reveal the Mechanisms of P<sub>4</sub> Hydrostannylation
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
Showing 5 of 13 shared publications
Gabriele Hierlmeier
12 shared publications
- Shining Fresh Light on Complex Photoredox Mechanisms through Isolation of Intermediate Radical Anions
- Synthesis of a carborane-substituted bis(phosphanido) cobaltate(<scp>i</scp>), ligand substitution, and unusual P<sub>4</sub>fragmentation
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
Showing 5 of 12 shared publications
Jose Cammarata
University of Regensburg (DE)
10 shared publications
- Synthesis of monophosphines directly from white phosphorus
- Photocatalytic Arylation of P<sub>4</sub> and PH<sub>3</sub>: Reaction Development Through Mechanistic Insight
- Photocatalytic stannylation of white phosphorus
- Hydrostannylation of Red Phosphorus: A Convenient Route to Monophosphines
- Photocatalytic Arylation of P<sub>4</sub> and PH<sub>3</sub>: Reaction Development Through Mechanistic Insight
Showing 5 of 10 shared publications
Thomas M. Maier
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Stefan Pelties
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Daniel Pividori
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Karsten Meyer
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Nicolaas P. van Leest
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Bas de Bruin
10 shared publications
- Di<i>‐tert</i>‐butyldiphosphatetrahedrane as a Source of 1,2‐Diphosphacyclobutadiene Ligands
- CCDC 2101037: Experimental Crystal Structure Determination
- CCDC 2101041: Experimental Crystal Structure Determination
- CCDC 2101040: Experimental Crystal Structure Determination
- CCDC 2101036: Experimental Crystal Structure Determination
Showing 5 of 10 shared publications
Samuel J. Horsewill
University of Bath (GB)
6 shared publications
- Shining Fresh Light on Complex Photoredox Mechanisms through Isolation of Intermediate Radical Anions
- Isolation of the elusive [Ru(bipy)<sub>3</sub>]<sup>+</sup>: a key intermediate in photoredox catalysis
- Investigating N2 Fixation Using A Bulky Fe(bisphosphine)2 Framework
- Counterintuitive Photochemistry of an Isolated Acridinyl Radical: ConPET via Preassembly Despite a Long-Lived Excited State
- Counterintuitive Photochemistry of an Isolated Acridinyl Radical: ConPET via Preassembly, Solvated Electrons, or a Long-Lived Excited State?
Showing 5 of 6 shared publications
Ruth M. Gschwind
University of Regensburg (DE)
5 shared publications
- Photocatalytic Arylation of P<sub>4</sub> and PH<sub>3</sub>: Reaction Development Through Mechanistic Insight
- Photochemical transformation of chlorobenzenes and white phosphorus into arylphosphines and phosphonium salts
- Photocatalytic Arylation of P<sub>4</sub> and PH<sub>3</sub>: Reaction Development Through Mechanistic Insight
- Unravelling White Phosphorus: Experimental and Computational Studies Reveal the Mechanisms of P<sub>4</sub> Hydrostannylation
- Schrittweiser Abbau von weißem Phosphor: Experimentelle und computergestützte Studien zum Mechanismus der P<sub>4</sub>‐Hydrostannylierung
Imre Pápai
HUN-REN Research Centre for Natural Sciences (HU)
5 shared publications
- CCDC 1998684: Experimental Crystal Structure Determination
- CCDC 1998683: Experimental Crystal Structure Determination
- Convenient Partial Reduction of CO<sub>2</sub> to a Useful C<sub>1</sub> Building Block: Efficient Access to <sup>13</sup>C‐Labelled N‐Heterocyclic Carbenes
- Counterintuitive Photochemistry of an Isolated Acridinyl Radical: ConPET via Preassembly Despite a Long-Lived Excited State
- Counterintuitive Photochemistry of an Isolated Acridinyl Radical: ConPET via Preassembly, Solvated Electrons, or a Long-Lived Excited State?
Andrew E. Ashley
Imperial College London (GB)
5 shared publications
- Investigating N2 Fixation Using A Bulky Fe(bisphosphine)2 Framework
- CCDC 1998684: Experimental Crystal Structure Determination
- CCDC 1998683: Experimental Crystal Structure Determination
- Convenient Partial Reduction of CO<sub>2</sub> to a Useful C<sub>1</sub> Building Block: Efficient Access to <sup>13</sup>C‐Labelled N‐Heterocyclic Carbenes
- Investigating N <sub>2</sub> Fixation Using a Bulky Fe(bisphosphine) <sub>2</sub> Framework
Joshua P. Barham
4 shared publications
- Hole-mediated photoredox catalysis: tris( <i>p</i> -substituted)biarylaminium radical cations as tunable, precomplexing and potent photooxidants
- Shining Fresh Light on Complex Photoredox Mechanisms through Isolation of Intermediate Radical Anions
- CCDC 2035879: Experimental Crystal Structure Determination
- CCDC 2038665: Experimental Crystal Structure Determination