Support Program for F&E and ODA
OECD/DAC defines ODA as those flows to countries and territories on the DAC List of ODA Recipients and to multilateral institutions which are:
Period | 1,800 Hours(1 year) |
---|---|
Basic Education (204 Hours) |
Equipment Safety, Basic Science Theory |
General Education (450 Hours) |
Core Equipment Theory & Exercise |
Specialized Education (1,146 Hours) |
Selective Equipment Maintenance/Repair Theory & Exercise, Project Participation, On-site Training |
Period | 1,800 Hours(1 year) |
---|---|
Basic Education (204 Hours) |
Basic Science Theory |
General Education (450 Hours) |
Core Equipment Theory & Exercise, Selective Equipment Exercise |
Specialized Education (1,146 Hours) |
On-Site Job Training, Study Visits |
*Can be customized based on the needs and demands
*Link: 20 Core R&D Equipment
12 Big Science and Technology Classification(Aerospace, Astronomy, Ocean, Polar, Life, Atomic Power, Nuclear Energy, Accelerator, IT, Climate, Machinery, Construction/Transportation)
Please do not hesitate to contact us during anytime for any inquiry or comment at thomasyoun@nfec.go.kr
Please do not hesitate to contact us during anytime for any inquiry or comment at thomasyoun@nfec.go.kr
Equipment for observation of fine structure, analyzing the structure and quantity of surface of the substance by using X-ray energy with own characteristics.
Equipment for observation of fine structure, analyzing the structure and quantity of surface of the substance by using X-ray energy with own characteristics.
Equipment of the Atomic Force Microscope(AFM) and Scanning Tunneling Microscope(STM), that use a probe or sharp tip to create an image of a sample by scanning its surface and recording the resulting interaction
Equipment for analyzing HD 2D/ 3D video, video of living cell, transferring of ion and oxygen free radical by using confocal laser microscope
Equipment for analyzing quantity of certain chemical substance through measurement of reaction size of each time by using mobile and stationery phases of liquid of component of compound.
Equipment for analyzing quality, quantity and micro-ingredient of volatile organic/inorganic sample of which molecular size is under 500 by setting inert gas as mobile phase after evaporation of sample
Equipment for analyzing quantity and quality of each ion element by using conductive detector after separating ion element passing ionic liquid sample through ion exchange column
Equipment that combining the physical separation capabilities of Liquid Chromatography (or HPLC) with the mass analysis capabilities of Mass Spectrometry(MS)
Equipment that combines the features of gas-chromatography and mass spectrometry to identify different substances within a test sample
Equipment which is capable of detecting metals and several non-metals at concentrations as low as one part in 1015 (part per quadrillion, ppq) on non-interfered low-background isotopes
Equipment for measurement of transmissivity and absorption of light by passing it onto sample after spectrum of certain wave (ultraviolet rays and visible light)
Equipment for analyzing quality and quantity of organic matter by analyzing absorption spectrum of substance by using radiation of infrared ray
Equipment for analyzing structure of the substance by analyzing resonance between atomic nucleuses(carbon and hydrogen) and electromagnetic wave of certain frequency through strong magnetic field
Equipment for analyzing ppm-level quantity of metal and metalloid (about 70 elements) by measuring the intensity of radiation absorbed by electronic transition on vaporized or ionized element
Equipment for analyzing quantity and quality of elements of organic/inorganic substances by using the 2nd X-ray (fluorescence) on sample by analyzing X-ray of the sample
Equipment for analyzing composition of surface of sample and chemical combination situation by measuring energy of photoelectron emitted by analyzing X-ray of the sample
Equipment for analyzing quality and crystal structure of the substance by analyzing diffraction pattern which appears through X-ray on sample
Equipment for measurement of changes in thermal property of sample by measuring physical properties, which changes according to changes in temperature, as temperature function
Equipment for analyzing particle size by using light scattering on particle surface of which certain wave is to be measured
Equipment for providing information on molecular formula of unknown thing and analyzing the purity of matrix material by analyzing carbon, hydrogen, oxygen, nitrogen and sulfur which are major components of organic compound.