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Manager Engineer

Location:
Westchester County, NY
Posted:
September 19, 2016

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Resume:

Iksu Chong

*** ******** *****, ****** ** *****

E-mail: ********@*****.***

Tel: Home 914-***-****

Cel: 914-***-****

Chemical engineer with substantial expertise in research and industry in the fields of glass and ceramics is seeking challenging new research post in the United States. Have worked collaboratively and independently on a number of innovative glass patents, and have been published in leading academic and scientific journals. EDUCATION:

2/1990 Bachelor of Chemistry, Hanyang University, South Korea 2/1992 Master of Chemistry, Hanyang University, South Korea 9/1997 Ph.D Kyoto University, Japan

Thesis: ‘Crystal growth and magnetic properties of Pb-doped Bi- based superconductors’ WORK HISTORY:

3/2007-4/2016 YOKOWO Co. LTD electronic component maker Deputy General Manager R&D Division

Worked on production line of LTCC (Low Temperature Co-fired Ceramics). Worked on synthesis of ferrite for high frequency device.

Worked on synthesis and process of transparent materials (alumina and spinel, zirconia).Worked on high frequency absorber.

Worked on heat sink (AlN) and carbon-nanotube (CNT). Worked on Synthesis and characterization of phosphorus materials.

9/2004-4/2016 National Institute for Material Science Visiting researcher

Worked on High Luminescence Glass.

Worked on Synthesis and characterization of phosphorus materials. Worked Synthesis and characterization of ferrite material for microwave component. Worked Synthesis and characterization of dielectric materials. Worked on synthesis and process of transparent materials (alumina, spinel, zirconia and quartz). Worked on synthesis and process of transparent and conductive materials (alumina, spinel, zirconia and quartz, oxide ceramics material).

1/2001-2/2007 Kohoku Kogyo Co., LTD. electronic component maker Deputy General Manager Optical Parts R&D Division

Worked on production line of optical communication components (optical connector, zirconia and quartz).

Worked on High Luminescence Glass.

Synthesis and characterization of phosphorus materials. Worked on synthesis of transparent material

1/2001-9/2003 New Glass Forum Nano technology on glass project Senior researcher

Worked in Fabrication of 3 dimensional Optical circuit by irradiation of ultra short pulse laser.

Synthesis of functional glass.

High Luminescence materials.

1/1999-12/2000 National institute for Metals

JST Domestic research fellow

Worked in Fabrication of Bi-2212 superconductive wires by controlling of micro structure 9/1997-12/1998 Kyoto University, Institute of Chemistry Lecturer

Supervised a Ph. D course student and master course students. Research of Growth of single crystal and synthesis of superconductors SUMMARY OF QUALIFICATIONS:

Engineer and researcher in field of Complex material (metal or ceramics and polymer), Heat sink

(nitride), Synthesis of inorganic materials (Fluorescence materials, oxide material) and characterization, Ceramics process, LTCC (Low temperature co-fired ceramics), Synthesis of functional glass (melting, sol-gel process), Single crystal growth, Powder process, Connectors for optical communication components, Sintering and grain growth, MACHINE EXPOSURE:

Nanoflash, Fluorescence Spectrophotometer, UV-Vis/ near Spectroscopy, Optical Absorption Spectroscopy, FT-IR, XPS (X-ray Photoelectron Spectroscopy), XRF (X-ray Fluorescence Analysis), ESR (Electron Spin Resonance), Femtosecond laser, CO2 laser, Nano-finder, Ellipssometer, SQUID

(Superconducting Quantum Interference Device), PPMS (Physical Property Measurement System), VSM (Vibrating Sample Magnetometer), SEM (Scanning Electron Microscopy), XRD (X-ray diffraction), AFM, Sputtering machine, CVD (chemical vapor deposition), SPS (Spark Plasma Sintering), TG-DTA, Particle size analysis machine, CIP (Cold Isostatic Pressing), ICP (Inductively Coupled Plasma), Electric furnace, Screen Printing PATENTS:

(In Japan)

1. Pat. No 200*-****** Glass containing compound semiconductor, optical device of the glass and the method of fabrication

2. Pat. No 10-212123 Oxide superconductor

3. Pat. No 200*-****** Glass containing Indium Oxide 4. Pat. No 2007-31183 Glass containing Tin Oxide

5. Pat. No 200*-****** Glass containing Tin Oxide

6. Pat. No 201*-****** Glass containing Tin Oxide and synthetic method 7. Pat. No 2011-54436 Lighting system

8. Pat. No 201*-****** Probe

(in United States)

1.Pat. No 6,482,775B2

(in Europe)

1. EP 1 022 255 B1

Pat.No.PCT JP2014075761

PUBLICATIONS:

1. Non-rare earth white emission phosphor: Ti-doped MgAl2O4 Appl. Phys. Lett. 102, 031104 (2013)

2.Effect of Si addition on In2O3 crystallization in soda-boro-aluminosilicate glass. Journal of Non-crytsalline solids. 351 (200*-****-**** 3. Fermi Surface Topology of Bi2201 Studied byTemperature-Dependent Angle-Resolved Photoemission Spectroscopy, Physica C, 364-365 (2001)590-593.

4. Determination of the Fermi Surface in High-Tc Superconductors byAngle-Resolved Photoemission Spectroscopy, Phys. Rev. B, 63, 22(2001) 224***-*-******-**. 5. Evidence for a Hole-Like Fermi Surface of Bi2Sr2CuO6from Temperature-Dependent 6. Angle-Resolved Photoemission Spectroscopy, Phys.Rev. B, 64, 5 (2001) 054502-1-054502-5.

7. Fermi Surface and Superconducting Gap inSuperstructure-Free Bi1.80Pb0.38Sr2.01CuO6-δ, Phys. Rev. B, 63, 13(2001) 132502-1-132502-4

8. High-Resolution Angle-ResolvedPhotoemission Study of Pb-Substituted Bi2201, J.Phys. & Chem. Solids, 62, 1-2(2001) 157-161.

9. Fermi surface topology of Bi2201 studied by temperature-dependent angle-resolvedphotoemission spectroscopy. Physica C (Proceedings of the 3rd International Conference on New Theories, Discoveries and Applications of Superconductors and Related Materials, Honolulu, Hawaii, USA, Jan. 15-19, 2001)(New3SC-3) vol. 364-365, p. 590-593, 2001 10. Superconducting gap, pseudo gap, and Fermi surface of Bi2201: high energy- and momentum-resolution photoemission study. Physica C (Proceedings of M2SHTSC VI,pt. 4, Houston, Texas, USA, Feb. 20-25, 2000) vol. 341-348, p. 2091-2094, 2000 . 11. Low temperature synthesis of Bi-2212 phase by Li addition. Advances in Superconductivity (Proceedings of the 12th ISS'99, Oct. 17-19, Morioka) vol. 12, p. 536-538, 2000.

12. Epitaxial growth of single-crystalline thin film of Ca14Cu24O41: a heavily hole-doped two-legged spin ladder. Phys. Rev. B vol. 60 no. 6, p. R3720-R3723, 1999 13. Scanning Tunneling Microscope Studies on the Atomic Structures in Bi2Sr2CaCu2O8+! Highly Doped with Pb, Physica C, 314 (1999)299-307.

14. Anisotropy of Bi1.5Pb0.7Sr1.8CaCu2O8+! Single Crystal, Advances in Superconductivity XI:Proceedings of the 11th International Symposium on Superconductivity (ISS'98),Nov.16-19, 1998, Fukuoka (ed. N. Koshizuka and S. Tajima), Springer-VerlagTokyo (1999) 407-410. 15. Hall Anomaly in the Superconducting State of High-Tc Cuprates: Universality in Doping Dependence, Phys. Rev. Lett., 80, 16-199*-****-****. 16. Two-Phase Microstructures Generating Efficient Pinning Centers in the Heavily Pb-SubstitutedBi2Sr2CaCu2O8+! Single Crystals, J. Solid State Chem., 138, (1998)98-110. 17. Dramatically Improved Flux Pinning Properties of Heavily Pb-Doped Bi2212Single Crystals and Ag Composite Tapes Advances in Superconductivity X, Springer-Verlag Tokyo, pp.279-284 (1998).

18. Growth of Pb-Substituted Bi-2201 Single Crystal by Floating Zone Method, Advances in Superconductivity IX: Proceedings of the9th International Symposium on Superconductivity

(ISS'96), Oct. 21-24, 1996,Sapporo, Japan (ed. S. Nakajima and M.Murakami), Springer-Verlag, Tokyo, 1 (1997)449-452

19. Growth of Pb-Substituted Bi-2201 Single Crystal by Floating Zone Method, Journal of the Korean Physical Society, 31, 1 (1997)40-42.

20. ARPES Studies of Pb Substituted Bi2201 Compounds, Physica C, 282-287, Part II(1-997-***-****.

21. Strong Flux Pinning up to Liquid Nitrogen Temperature Discovered in Heavily Pb- Doped and Oxygen Controlled Bi2212 Single Crystals, Physica C, 281, 1 (1997) 69-75.

22. Growth of Heavily Pb-Substituted Bi-2201 SingleCrystals by a Floating Zone Method, Physica C, 290, 1&2(1997) 57-62.

23.High Critical Current Density in the Heavily Pb-Doped Bi2Sr2CaCu2O8+! Superconductor: Generation of Efficient Pinning Centers, Science, 276, 5313 (1997) 770-773.



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