Paisan Kanthang, Ph.D

Paisanดร.ไพศาล การถาง
Dr.Paisan Kanthang
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ตำแหน่ง : คณบดี
Contact
: (+66) 0-2836-3003
E-mail : paisan.ka@rmutp.ac.th   Facebook
EducationCurrent ResearchExpertiseResearchPublication
Ph.D. (Physics) Mahidol University, Thailand  2008
M.Sc. (Physics) Mahidol University, Thailand  2004
B.Sc. (Physics) Naresuan University, Thailand  2000
  • Biophysics and System Biology
  • Biological synthesis of metallic nanoparticles
  • Agrophysics
  • Image Processing for sub-cellular level
  • Fractional Dynamics
  • Synergetics and Nonextensive Statistical Mechanics (Tsallis’s Theory)
  • Econophysics
  • Material physics for jewelry industry
  • x
  • xx
  1. Saengpayab Y., Kanthang P., Schreier S., Modchang C., Nuttavut N., Triampo D., Triampo W. Biophysical approach to investigate temperature effects on protein dynamics. EPJAP. 2015; 71: 31201. (Impact Factor 0.774)
  2. Vuttivorakulchai K, Kanthang P, Saiz Rivera A. The physics aspect of price index changes: Super- diffusive approach. IJPS. 2011; 6: 5850–5856. (Impact Factor 0.554)
  3. Aroonnual S, Ngamsaad W, Kanthang P, Nuttawut N, Triampo W, Triampo D, Krittanai C. Spatial distributions and energy landscape of MinE protein dynamics via the biophysical spot tracking technique. IJPS. 2011; 6: 3795–3806. (Impact Factor 0.554)
  4. Kanthang P,  Ngamsaad W, Nuttavut N, Triampo W, Triampo D, Krittanai C. Biophysical approach for studying the MinD protein dynamics and energy landscape: a novel use of the spot tracking technique. EPJAP. 2011; 55: 11201. (Impact Factor 0.899)
  5. Ngamsaad W, Kanthang P, Modchang C, Sriyab S, Triampo W. The effect of boundary conditions on the mesoscopic lattice Boltzmann method : Case study of a reaction–diffusion based model for Min-protein oscillation. Applied Mathematics and Computation. 2010; 217:2339-47.  (Impact Factor 1.124)
  6. Yojina J, Ngamsaad W, Nuttavut N, Triampo D, Lenbury Y, Kanthang P, Sriyab S, Triampo W. Investigating flow patterns in a channel with complex obstacles using the lattice Boltzmann method. Journal of Mechanical Science and Technology. 2010; 24(10):2025-34. (Impact Factor 0.258)
  7. Yojina J, Ngamsaad W, Nuttavut N, Triampo D, Lenbury Y, Triampo W, Kanthang P and Sriyab S. More Realistic Model for Simulating Min Protein Dynamics: Lattice Boltzmann Method Incorporating the Role of Nucleoids. International Journal of Computational and Mathematic Sciences. 2010;4(3): 177-182.
  8. Ngamsaad W, Yojina J, Kanthang P, Modchang C, Krittanai C, Triampo D, Nuttawut N, Triampo W. Quantitative approach of Min protein researches and applications: Experiments, mathematical modeling and computer simulations. African Journal of Biotechnology. 2009;8(25):7350-7362. (Impact Factor 0.547)
  9. Sriyab S, Yojina J, Ngamsaad W, Kanthang P, Modchang C, Nuttavut N, Lenbury Y, Krittanai C, Triampo W. Mesoscale modeling technique for studying the dynamics oscillation of Min protein: Pattern formation analysis with lattice Boltzmann method. Computers in biology and medicine 2009; 39: 412-424. (Impact factor 1.170)
  10. Unai S, Kanthang P, Junthon U, Ngamsaad W, Triampo W, Modchang C, Krittanai C. Quantitative analysis of time-series fluorescence microscopy using a spot tracking method: application to Min protein dynamics. Biologia 2009; 64: 27-42. (Impact factor 0.207)
  11. Junthorn U, Unai S, Kanthang P, Ngamsaad W, Modchang C, Triampo W,  Krittanai C, Triampo D, Lenbury Y. Single-Particle Tracking Method for Quantitative Tracking and Biophysical Studies of the MinE Protein. Journal of the Korean physical society 2008; 52: 639-48. (Impact factor 1.204)
  12. Modchang C, Triampo W, Kanthang P, Junthorn U, Unai S, Ngamsaad W, Nuttavut N, Triampo D, Lenbury Y. Stochastic Modeling of External Electric Field Effect on Escherichia coli Min Protein Dynamics. Journal of the Korean physical society 2008; 53: 851-62. (Impact factor 1.204)
  13. Ngamsaad W, Triampo W, Kanthang P, Modchang C, Nuttavut N, Tang IM, Lenbury Y. A lattice Boltzann method for modeling the dynamic pole-to-pole oscillations of Min proteins for determining the position of the mid-cell division plane. Journal of the Korean physical society  2005; 46: 1025-30. (Impact factor 0.828)
  14. Modchang C, Kanthang P, Triampo W, Ngamsaad W, Nuttavut N, Tang IM, Lenbury Y. Modeling of the Dynamic Pole-to-Pole Oscillations of the Min Proteins in Bacterial Cell Division: The Effect of an External Field. Journal of the Korean physical society 2005; 46: 1031-6. (Impact factor 0.828)

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