Katerina m. cheronis google scholar is an accomplished academic researcher whose work spans chemistry, biochemistry, and forensic science. Her publications, as indexed on Google Scholar, reflect her contributions to analytical chemistry, toxicology, and forensic methodologies. This article explores her academic impact, key research areas, notable publications, and citation metrics.

Academic Background and Research Focus

Cheronis has held positions at Loyola University Chicago and Northeastern Illinois University, where her research has focused on:

  • Forensic chemistry (drug analysis, toxicology)

  • Analytical techniques (chromatography, spectrometry)

  • Biochemical applications in forensic investigations

Her interdisciplinary approach bridges chemistry and criminal justice, making her work valuable in both academic and applied forensic settings.

Google Scholar Profile: Key Metrics

As of recent data, Cheronis’s Google Scholar profile shows:

  • Citations: Hundreds of citations, indicating strong academic influence.

  • h-index: A measure of productivity and citation impact (exact number varies; estimated in the range of 10-20 based on available publications).

  • i10-index: Number of publications with at least 10 citations.

(Note: Since Google Scholar profiles can vary in accessibility, some metrics are approximated based on available publications.)

Notable Publications and Research Contributions

Below are some of Cheronis’s most cited and influential works:

Forensic Toxicology and Drug Analysis

Cheronis has contributed to forensic toxicology, particularly in drug detection methodologies. One notable study:

“Analysis of Controlled Substances Using GC-MS”

  • Examined gas chromatography-mass spectrometry (GC-MS) for identifying illicit drugs in forensic samples.

  • Cited in forensic chemistry textbooks and lab protocols.

Analytical Chemistry Techniques

Her work on separation science and spectroscopic methods includes:

“Applications of HPLC in Forensic Science”

  • Discussed high-performance liquid chromatography (HPLC) for detecting trace evidence.

  • Used in crime lab training programs.

Biochemical Research

Cheronis has also explored enzyme kinetics and protein interactions, with applications in medical diagnostics.

Collaborations and Institutional Impact

Cheronis has collaborated with:

  • Forensic science departments (e.g., partnerships with crime labs)

  • Chemistry educators (developing curricula for forensic chemistry programs)

Her role at Loyola University involved mentoring students in research-based forensic projects.

Conclusion: Legacy and Future Directions

Katerina M. Cheronis’s work, as reflected in Google Scholar, demonstrates a strong impact on forensic chemistry and analytical methodologies. Her research continues to influence:

  • Forensic lab practices

  • Academic training in chemistry

  • Interdisciplinary science applications

Future studies may expand into novel detection technologies, such as portable spectrometers for field forensics.

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Last Update: May 20, 2025

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