Colin D. Heyes Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Federal Grant PI High Impact

Professor / Department Chair

University of Arkansas

Last publication 2025 Last refreshed 2026-05-22

faculty

24 h-index 63 pubs 2,268 cited

Research Areas

Links

ORCID Lab Website

OverviewAI-generated summary

Colin D. Heyes' research program focuses on the relationships between structure and optoelectronic properties in colloidal quantum dots, particularly those composed of I-(II)-III-VI elements. He has received funding from the National Science Foundation (NSF) for work investigating structure-opt oelectronic property relationships in homogeneous and gradient alloyed colloidal quantum dots.

His recent publications explore the application of quantum dots in advanced imaging techniques, such as super-resolution fluorescence imaging, and their use in light-emitting diodes (QLEDs) through resonant energy transfer. Additionally, his work delves into the structural dynamics of intrinsically disordered proteins and the integration of computational and experimental approaches, including single-molecule Förster Resonance Energy Transfer (FRET), to understand molecular behavior. He also investigates methods for measuring nucleotide triphosphate hydrolysis rates and inorganic phosphate release.

Metrics

h-index: 24
Publications: 63
Citations: 2,268

Selected Publications

All-inorganic QLEDs utilizing resonant energy transfer between non-stoichiometric nickel oxide hole transport layer and alloyed CdSe/ZnS quantum dots (2025)

1 citation DOI OpenAlex
BPS2025 - Measurement of nucleotide triphosphate hydrolysis rates and inorganic phosphate release using a coumarin-labeled phosphate binding protein (2025)

DOI OpenAlex
cpSRP43 Is Both Highly Flexible and Stable: Structural Insights Using a Combined Experimental and Computational Approach (2023)

2 citations DOI OpenAlex
Compact, Fast Blinking Cd-Free Quantum Dots for Super-Resolution Fluorescence Imaging (2023)

17 citations DOI OpenAlex
An integrative approach to molecular dynamics and single molecule FRET techniques (2023)

1 citation DOI OpenAlex
Transient local secondary structure in the intrinsically disordered C‐term of the Albino3 insertase (2022)

1 citation DOI OpenAlex
cpSRP43 is both highly flexible and stable: Structural insights using a combined experimental and computational approach (2022)

DOI OpenAlex
Site-specific labeling and functional efficiencies of human fibroblast growth Factor-1 with a range of fluorescent Dyes in the flexible N-Terminal region and a rigid β-turn region (2021)

DOI OpenAlex
Transient local secondary structure in the intrinsically disordered C-term of the Albino3 insertase (2021)

5 citations DOI OpenAlex
Integrating Molecular Dynamics and smFRET Data to Study the Conformational Ensemble of the C-Terminus of Albino3 Protein (2021)

DOI OpenAlex