Chen Sun Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
John Brown University
faculty
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Biography and Research Information
OverviewAI-generated summary
Dr. Chen Sun's research at John Brown University encompasses a broad range of materials science and engineering topics, with a strong emphasis on luminescence and optoelectronic applications. His work explores perovskite materials, organic electronics, and conducting polymers, with the goal of creating new light-emitting devices and photovoltaic technologies. Sun's investigations into organic-inorganic hybrid antimony and indium perovskites have yielded highly efficient and stable green light emissions, as well as near-unity photoluminescence quantum yields. He also develops coordination polymers for photocatalytic CO2 reduction, converting it into valuable products like ethanol. His work extends to multimodal machine learning applications and image processing techniques.
Metrics
- h-index: 41
- Publications: 203
- Citations: 5,880
Selected Publications
- Coordination-driven assembly of a ferrocene-functionalized lead iodide framework with enhanced stability and charge transfer for photocatalytic CO<sub>2</sub>-to-CH<sub>3</sub>OH conversion (2025) DOI
- In Situ Halide Vacancy Tuning of Low‐Dimensional Lead Perovskites to Realize Multiple Adjustable Luminescence Performance (2025) DOI
- A FET-based flexible biosensor system for dynamic behavior observation of lipid membrane with nanoparticles <i>in vitro</i> (2024) DOI
- Prediction method of sugarcane important phenotype data based on multi-model and multi-task (2024) DOI
- Oriented generation of 1O2 from peroxymonosulfate via Co3O4 facet engineering (2024) DOI
- Investigation of Hydrogen Embrittlement in 304 Austenitic Stainless Steel Through Acoustic Emission Monitoring and Deep Learning (2024) DOI
- Transcriptome reanalysis and gene expression of 13 detoxification genes for avermectin and pyridaben resistance in Panonychus citri (2024) DOI
- Precise Single‐Atom Modification of Hybrid Lead Chlorides for Electron Donor‐Acceptor Effect and Enhanced Photocatalytic Aerobic Oxidation (2024) DOI
- Theory-driven design of local spin-state modulation at atomically dispersed iron sites for enhanced CO2 electroreduction (2024) DOI
- Dynamic Spectrum Sharing Based on the Rentable NFT Standard ERC4907 (2024) DOI
- Inside Back Cover: Highly Stable MOF‐Type Lead Halide Luminescent Ferroelectrics (Angew. Chem. Int. Ed. 29/2024) (2024) DOI
- Stimulating the biofilm formation of Bacillus populations to mitigate soil antibiotic resistome during insect fertilizer application (2024) DOI
- Study on the fountain effect of the bubble plume formed by submarine gas pipeline leakage (2024) DOI
- Isoreticular Azobenzene Functionalization of Ultrastable Lead Chloride Hybrids for Enhanced Photocatalytic Aerobic Oxidation (2024) DOI
- Highly Stable MOF‐Type Lead Halide Luminescent Ferroelectrics (2024) DOI
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