Latest Update:2024/03/11 13:27:55

IEDA Teruyo

Researcher Name
IEDA Teruyo
Div (Section) name/title
Health and Environmental Risk Division(Environmental Standards Section)/Senior Researcher
Research Subject
Development of global analysis method for organic substances in environment and biota by comprehensive multidimensional separation technique
Degree(s)
Ph.D.
Professional Qualification(s)
Chemistry
Environmental Speciality Field
Analytical chemistry,Environmental chemistry
Membership of Academic Society
The Japan Society for Analytical Chemistry (JSAC) ,Japan Society for Environmental Chemistry
Research Subject
  • Fiscal Year: 2023
    • 26468 : Study on Development of the Environmental Certified Reference Materials and Their Analytical Application
    • 26532 : Evaluation of temporal trends of ecotoxicological risk and mass balance of persistent organic pollutants based on an integrated and comprehensive analysis
    • 26579 : Comprehensive screening of organic halogen compounds in deep-sea sediment core samples from the Japan Sea
    • 26586 : Time Capsule Program for Environmental Specimens
    • 26591 : Study on the Standardization of Environmental Chemical Analysis
    • 26707 : Comprehensive and responsive environmental measurement of various contaminants assisted by intelligence science
  • Fiscal Year: 2022
    • 26117 : Study on Development of the Environmental Certified Reference Materials and Their Analytical Application
    • 26171 : Development of monitoring method for environmental pollution derived from accidents and disasters
    • 26263 : Evaluation of comprehensive search method for organohalogen compounds in sediment core sample by using high-resolution time-of-flight mass spectrometer and selective detector
    • 26300 : Study on the Standardization of Environmental Chemical Analysis
    • 26301 : Time Capsule Program for Environmental Specimens
    • 26307 : Evaluation of temporal trends of ecotoxicological risk and mass balance of persistent organic pollutants based on an integrated and comprehensive analysis
  • Fiscal Year: 2021
    • 25702 : Study on Development of the Environmental Certified Reference Materials and Their Analytical Application
    • 25750 : Development of monitoring method for environmental pollution derived from accidents and disasters
    • 25775 : Study on the Standardization of Environmental Chemical Analysis
    • 25853 : Time Capsule Program for Environmental Specimens
    • 25901 : Comprehensive search for organohalogen compounds by GC×GC-EI/Soft ionization-HRTOFMS method – Evaluation of the non-target screening technique for environmental sample using sediment core -
    • 25902 : Evaluation of temporal trends of ecotoxicological risk and mass balance of persistent organic pollutants based on an integrated and comprehensive analysis
  • Fiscal Year: 2020
    • 25099 : Research Program on Health and Environmental Safety
    • 25142 : Project to Develop Integrated Approaches to Detecting and Assessment of Multiple and Unknown Chemicals, and Building Environmental Monitoring Networks
    • 25331 : Study on impact and dynamics of persistent organic pollutants discharged into marine environment by the Great East Japan Earthquake
    • 25389 : Evaluation of temporal trends of ecotoxicological risk and mass balance of persistent organic pollutants based on an integrated and comprehensive analysis
    • 25394 : Comprehensive search for organohalogen compounds in deep sea sediments of the Japan Sea by soft ionization GC×GC-HRTOFMS method using an inert gas
    • 25443 : Development of monitoring method for environmental pollution derived from accidents and disasters
  • Fiscal Year: 2019
    • 24696 : Research Program on Health and Environmental Safety
    • 24722 : Project to Develop Integrated Approaches to Detecting and Assessment of Multiple and Unknown Chemicals, and Building Environmental Monitoring Networks
    • 24865 : Development of monitoring method for environmental pollution derived from accidents and disasters
    • 24971 : Comprehensive measurement and spatial-temporal analysis of chemical substances in sea sediment core off Hyogo prefecture by non-target analysis method
    • 24976 : Development of a soft ionization method using inert gas for non-target analysis of environmental samples
    • 25010 : Study on impact and dynamics of persistent organic pollutants discharged into marine environment by the Great East Japan Earthquake
  • Fiscal Year: 2018
    • 24305 : Project to develop integrated approaches to detecting and assessment of multiple and unknown chemicals, and building environmental monitoring networks
    • 24355 : Research program on health and environmental safety
    • 24416 : Development of monitoring method for environmental pollution derived from accidents and disasters
    • 24437 : Study on impact and dynamics of persistent organic pollutants discharged into marine environment by the Great East Japan Earthquake
    • 24565 : Development of a soft ionization method using inert gas for non-target analysis of environmental samples
    • 24570 : Non-target measurement and profile analysis of environmental pollutant in deep sea sediment core of the Japan Sea by GC×GC-HRTOFMS
  • Fiscal Year: 2017
    • 23823 : Project to develop integrated approaches to detecting and assessment of multiple and unknown chemicals, and building environmental monitoring networks
    • 23847 : Research program on health and environmental safety
    • 24091 : Development of a soft ionization method using inert gas for non-target analysis of environmental samples
    • 24150 : Non-target analysis for organohalogen compounds in deep sea sediments of the Japan Sea and development of accurate mass spectra database.
    • 24165 : Study on impact and dynamics of persistent organic pollutants discharged into marine environment by the Great East Japan Earthquake
  • Fiscal Year: 2016
    • 23414 : Research program on health and environmental safety
    • 23416 : Project to develop integrated approaches to detecting and assessment of multiple and unknown chemicals, and building environmental monitoring networks
  • Fiscal Year: 2015
    • 23023 : Development of global analysis method for organic substances in environment and biota by comprehensive multidimensional separation technique
Research Result (Publication)
  • all
  • Original Paper
  • Review
Research Result (Presentation)
  • all
  • Research Presentation