Journal
papers (refereed/invited):
1. S.-C. Lee, Wang-Chang Su, and Jiunn-Ren Roan, “Higgs production
by Z0 → Hgg”, Phys. Lett.
B 234, 522 (1990).
2. S.-C. Lee, Wang-Chang Su, and Jiunn-Ren Roan,
“Production of Higgs particles through e+ + e- → Hgg”, Phys. Rev. D 42, 1409 (1990).
3. Jiunn-Ren Roan and E. I. Shakhnovich,
“Dynamics of heteropolymers
in dilute solution: E.ective equation of motion and
relaxation spectrum”, Phys. Rev. E 54, 5340 (1996).
4. Jiunn-Ren Roan and E. I. Shakhnovich,
“Stability study of icosahedral
phases in diblock copolymer melt”, J. Chem. Phys. 109, 7591 (1998).
5. Jiunn-Ren Roan and E. I. Shakhnovich,
“Phase separation of a binary fluid containing
surfactants in a Hele-Shaw cell”, Phys. Rev. E 59, 2109 (1999).
6. Jiunn-Ren Roan and Chin-Kun Hu, “Crossover from the
hydrodynamic regime to the thermal fluctuation regime in a two-dimensional phaseseparatingbinary fluid containing surfactants”,
Phys. Rev. E 62, 766 (2000).
7. Jiunn-Ren Roan, “Attraction
between nanoparticles induced by end-grafted homopolymers in good solvent”, Phys. Rev. Lett. 86, 1027 (2001).
8. Jiunn-Ren Roan and Toshihiro Kawakatsu, “Model for phase transitions
in the solid phases of Langmuir monolayers”,
J. Phys. Soc. Japan, 70, 738 (2001).
9. Jiunn-Ren Roan, “Erratum:
Attraction between nanoparticles induced by
end-grafted homopolymers in good solvent”, Phys. Rev. Lett.
87, 059902 (2001).
10. Jiunn-Ren Roan and Toshihiro Kawakatsu,
“Self-consistent-field theory for interacting
polymeric assemblies. I. Formulation, implementation, and
benchmark tests”, J. Chem. Phys. 116, 7283
(2002).
11. Jiunn-Ren Roan and Toshihiro Kawakatsu,
“Self-consistent-field theory for interacting
polymeric assemblies. II. Steric stabilization of
colloidal particles”, J. Chem.
Phys. 116, 7295 (2002).1
12. Jiunn-Ren Roan, “Application of
the Edwards model to steric stabilization of nanoparticles”, Int.
J. Mod. Phys. B 17, 2791 (2003).2
13. Jiunn-Ren Roan, “Self-consistent-field
theory for spherical polymeric assemblies and its application”, Int. J. Mod. Phys. B 18, 2469 (2004).
14. Jiunn-Ren Roan, “Soft nanopolyhedra as a route to multivalent nanoparticles”,
Phys. Rev. Lett.
96, 248301 (2006).3,4,5,6,7
|
1. Selected for the Virtual Journal of Nanoscale Science &
Technology (Vol. 5, Issue 16, April 22, 2002). 2. Invited review. 3. Highlighted in Physical Review Focus 17,
Story 22 (19 June 2006). 4. Highlighted in Chemical & Engineering News Vol. 84, No. 26, p. 10 (26 June
2006). 5. Selected for the Virtual Journal of Nanoscale Science &
Technology (Vol. 14, Issue 1, July 4, 2006). 6. Highlighted in PhysicsCentral:
Physics in Pictures. 7. Selected for materials
distributed in the 2007 March Meeting of the American
Physical Society. |
Invited
talks:
1. Oct. 21, 2002, “Fully three-dimensional self-consistent-field simulations
for binary spherical polymer brushes”, International Symposium for
Young Researchers on ’Modeling and Their Applications’,
2. Nov. 14, 2002, “Fatal attraction and life afterwards: Computational study
of polymeric nanoparticles”, Department of
Physics,
3. Nov. 19, 2002, “Fatal attraction and life afterwards: Computational study
of polymeric nanoparticles”, Department of
Physics,
4. Aug. 28,2003, “Self-consistent-field theory for spherical polymeric
assemblies and its application”, Progress in Statistical and
Nonlinear Physics: Proceedings of the First Cross Taiwan-Strait Conference on
Statistical Physics,
5. Sep. 13, 2003, “Self-consistent-field theory for spherical polymeric
assemblies and its application”, 2003 Soft Matter and Biophysics
Workshop,
6. Oct. 19, 2003, “Lovers of a biophysicist wannabe: Biological wheels”,
The Third Annual Meeting for Newly Appointed Physics Researchers,
Yang-Ming-Shan Tien-Lai Spring Resort, Taiwan.
October 19-20, 2003.
7. Nov. 6, 2003, “Tales of hairy spheres: From polymeric nanospheres
to biological microspheres”, Department of
Applied Science, National Hsinchu University of
Education,
8. Dec. 10, 2004, “Introduction to biophysics”, National Taichung Girls’ Senior High School,
9. Aug. 29, 2005, “Tailor-made multivalent coats for nanoparticles”,
Department of Physics,
10. Sep. 7, 2005, “Solving nonlinear parabolic PDE on a sphere and its
applications in polymer physics”, 2005
Workshop on Nonlinear Phenomena, Chi-Tou Forest
Recreational Area,
11. Dec. 8, 2005, “Nanostructured nanoparticles”, Department of Physics,
12. Dec. 21, 2005, “Soft nano-polyhedra”. Soft-Bio Days 2005,
13. Mar. 30, 2006, “Introduction to biophysics”, Department of Physics,
14. Nov. 11, 2006, “Soft nanopolyhedra”. 2006 NCTS (
15. Dec. 12, 2006, “Soft nanopolyhedra”,
Department of Physics,
16. Jan. 24, 2007, “A polymer-based route to multivalent nanoparticles”,
Annual Meeting of Physical Society,
17. Mar. 1, 2007, “Soft yet small polyhedra; weird
and wild physics”, Department of Physics,
18. Apr. 3, 2007, “When Plato meets Feynman and when Feynman meets
19. Apr. 30, 2007, “Soft nanopolyhedra”,
Department of Physics,
20. Apr. 30, 2007,
“When Plato meets Feynman and when Feynman meets
21. Sep. 26, 2007, “When Plato meets Feynman and when Feynman meets
22. Sep. 27, 2007, “Soft yet small polyhedra”,
Taipei Yinlog Rotary Club,
23. Oct. 1, 2007, “When Plato meets Feynman and when Feynman meets
24. Dec. 22, 2007, “Recent Progress on Site-specific Patterned Colloids”,
2007 Winter Workshop on Low Dimensional Systems and Nanostructures,
25. Jan. 23, 2008, “City of
Conference
talks:
1. Jiunn-Ren Roan (Feb. 13, 2003), “Structure of binary
spherical polymer brushes”, Annual Meeting of the Physical Society of
Republic of China,