Jiali Li Source Confirmed
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Professor
University of Arkansas at Fayetteville
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Biography and Research Information
OverviewAI-generated summary
Jiali Li's research focuses on the application of nanopore technology for the characterization of biomolecular aggregation and structure. Her recent publications investigate the simultaneous determination of the size and shape of single α-synuclein oligomers in solution, and the characterization of tau and tubulin protein aggregation using solid-state nanopore methods combined with atomic force microscopy. Li has also explored the aggregation and oligomerization of ß-lactoglobulin protein utilizing a solid-state nanopore sensor.
Further research from Li's group includes tracking single-molecule ferritin reassembly and disassembly with polymer-coated nanopores and understanding the mechanism of bent DNA amplifying sensors through all-atom molecular dynamics simulations. Additionally, her work extends to sensing RNA stability with a silicon nitride nanopore device. Prior to this, she was involved in establishing and functionally characterizing immortalized rabbit dermal papilla cell lines, and in reservoir development and performance analysis through waterflooding.
Li holds a designation as a highly cited researcher, with a total of 62 publications that have garnered over 5,231 citations. Her h-index is 25. She maintains an active laboratory website.
Metrics
- h-index: 25
- Publications: 62
- Citations: 5,231
Selected Publications
- Tracking single-molecule ferritin reassembly and disassembly using polymer-coated nanopores (2025) DOI
- Understanding the Mechanism of Bent DNA Amplifying Sensors Using All-Atom Molecular Dynamics Simulations (2025) DOI
- BPS2025 - Sensing RNA stability by a silicon nitride nanopore device (2025) DOI
- Dependence of protein shape and stability on electric field strength and solution environment (2024) DOI
- Probing heat shock protein-coding RNA of Sulfolobus solfataricus P2 through a solid-state nanopore under different pH and temperature (2024) DOI
- Aggregation and Oligomerization Characterization of ß-Lactoglobulin Protein Using a Solid-State Nanopore Sensor (2023) DOI
- Detecting DNA-Binding Sites of Regulation Proteins with Ion Beam Sculpted Silicon Nitride Nanopores (2023) DOI
- Simultaneous Determination of the Size and Shape of Single α-Synuclein Oligomers in Solution (2023) DOI
- Aggregation and Oligomerization Characterization of ß-lactoglobulin Protein by a Solid State Nanopore Sensor (2023) DOI
- Tau and tubulin protein aggregation characterization by solid-state nanopore method and atomic force microscopy (2023) DOI
- Simultaneous Determination of the Size and Shape of Single α-Synuclein Oligomers in Solution (2023) DOI
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