C
Collin Britten Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
5 h-index
11 pubs
189 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Collin Britten's research focuses on the molecular mechanisms of viral vectors and the development of novel biomaterials. His work includes investigating the immunogenicity of adeno-associated virus (AAV) capsid proteins, specifically studying ways to rationally control T-cell responses to specific epitopes. Britten also explores the synthesis and properties of advanced hydrogels, examining their swelling behavior, mechanical characteristics, and potential applications in areas like expansion microscopy. Additionally, his research has touched upon the solid-electrolyte interface and its impact on dendrite formation in zinc metal electrodes. Britten has published 11 papers, accumulating 185 citations, and holds an h-index of 5. He has collaborated with several researchers at the University of Arkansas at Fayetteville, including Keisha B. Walters on 8 shared publications.
Metrics
- h-index: 5
- Publications: 11
- Citations: 189
Selected Publications
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Stimuli-Responsive Phosphate Hydrogel: A Study on Swelling Behavior, Mechanical Properties, and Application in Expansion Microscopy (2024)
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Synthesis of phosphate hydrogels with excellent swelling behavior prepared by ascorbic acid -mediated ARGET ATRP (2024)
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Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022) (2022)
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Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (2021)
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Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (2021)
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Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (2021)
Collaboration Network
Top Collaborators
Keisha B. Walters
University of Arkansas at Fayetteville
8 shared publications
In database
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
- Facile Synthesis of Tertiary Amine Pendant Polymers by Cu<sup>0</sup>-Mediated ATRP under Aqueous Conditions
- Stimuli-Responsive Phosphate Hydrogel: A Study on Swelling Behavior, Mechanical Properties, and Application in Expansion Microscopy
- Synthesis of phosphate hydrogels with excellent swelling behavior prepared by ascorbic acid -mediated ARGET ATRP
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
Showing 5 of 8 shared publications
Darrell Gregory
Oklahoma State University Oklahoma City (US)
4 shared publications
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022)
Ömer Özgür Çapraz
Oklahoma State University Oklahoma City (US)
4 shared publications
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Investigating the Impact of Solid-Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022)
Brandon Abbott
University of Oklahoma (US)
3 shared publications
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022)
Batuhan Bal
Oklahoma State University (US)
2 shared publications
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022)
Bertan Özdoğru
Oklahoma State University (US)
2 shared publications
- Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes
- Cover Feature: Impact of the Solid‐Electrolyte Interface on Dendrite Formation: A Case Study Based on Zinc Metal Electrodes (ChemElectroChem 4/2022)
Yokly Leng
University of Oklahoma (US)
2 shared publications
- Stimuli-Responsive Phosphate Hydrogel: A Study on Swelling Behavior, Mechanical Properties, and Application in Expansion Microscopy
- Synthesis of phosphate hydrogels with excellent swelling behavior prepared by ascorbic acid -mediated ARGET ATRP
Fatema Tarannum
University of Arkansas at Fayetteville
2 shared publications
In database
- Stimuli-Responsive Phosphate Hydrogel: A Study on Swelling Behavior, Mechanical Properties, and Application in Expansion Microscopy
- Synthesis of phosphate hydrogels with excellent swelling behavior prepared by ascorbic acid -mediated ARGET ATRP
Alex N. Frickenstein
Oklahoma State University Oklahoma City (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
Jordan M. Hagood
Oklahoma State University Oklahoma City (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
Molly McNally
Oklahoma State University Oklahoma City (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
Catherine A. Vopat
University of Oklahoma (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
Eian G. Patterson
University of Oklahoma (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
William M. MacCuaig
Oklahoma State University Oklahoma City (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
Ajay N. Jain
University of Oklahoma (US)
1 shared publication
- Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect
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