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School of Division of General Studies
Kook Joe Shin

Chair Professor / UNIST

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1344472832821

Kook Joe Shin, Chair Professor

Division Of General Studies

UNIST,

Tel : +82-52-217-2026(O), +82-10-71956654(CP)

Email : shinkj@unist.ac.kr

 

EDUCATION

Mar 1965 ~ Feb 1970 Dept of Chemistry, Seoul National Univ B. Sc.

Sep 1973 ~ Feb 1978 Dept of Chemistry, McGill Univ, Montreal, Canada Ph. D.

 

PROFESSIONAL EXPERIENCE

Jan 1970 ~ Dec 1972 Army, Republic of Korea Enlisted as a Soldier

Oct 1977 ~ Aug 1979 Dept of Chemistry, Univ of Toronto Research Associate

Sep 1979 ~ Feb 2012 Dept of Chemistry, Seoul National Univ Professor

May 1985 ~ Jun 1987 Organizing Committee, Deputy Secretary General

“Asian Chemical Congress ’87 Seoul”

hosted by the Korean Chemical Society

Jan 1991 ~ Dec 1991 The Korean Chemical Society Secretary General

Aug 1991 ~ Aug 1993 College of Natural Sciences, Associate Dean

Seoul National University

May 1994 ~ May 1996 Organizing Committee, Deputy Secretary General

“50th Anniversary International Conference of The Korean Chemical Society”

Aug 1994 ~ Jul 1997 The Presidential Commission on Policy Member Planning, Republic of Korea

Mar 1997 ~ Mar 1999 Research Institute for Basic Science, Director

Seoul National University

Mar 1997 ~ Mar 1999 Association of University President Research Institutes for Basic Science in Korea

Jun 1998 ~ Present International Union of Pure Fellow & Applied Chemistry

Jan 2000 ~ Dec 2000 The Korean Chemical Society Vice President

Jan 2000 ~ Dec 2001 International Union of Pure National Representative & Applied Chemistry (NR110)

Jan 2002 ~ Dec 2002 Division of Physical Chemistry, President The Korean Chemical Society

Aug 4~9, 2002 Organizing Committee, Chairman “The 3rd International Workshop on Diffusion Assisted Reactions,”

Seoul National University

Oct 19, 2002 “Taikyue Ree Centennial Symposium”, Organizer The Korean Chemical Society

Oct 16, 2003 “Shoon Kyung Kim Memorial Symposium”, Organizer The Korean Chemical Society

Jan 2004 ~ Dec 2006 The Korean Union of Chemical Science Board Member and Technological Societies

Jan 2005 ~ Dec 2005 The Korean Federation of Science and Board Member Technology Societies

Jan 2005 ~ Dec 2005 The Korean Union of Chemical Science Vice President and Technological Societies

Jan 2005 ~ Dec 2005 The Korean Chemical Society President

Jan 2006 ~ Dec 2009 International Advisory Board, Member “Chemistry – An Asian Journal”

Jul 2006 ~ Feb 2012 The Royal Society of Chemistry Fellow

Feb 2012 ~ June 2012 Seoul National University Professor Emeritus

July 2012 ~ Present Ulsan National Institute of Science and Technology Chair Professor

 

AWARDS

Oct 20, 1984 29th Research Award for Academic Progress,

The Korean Chemical Society

Sep 10, 1999 1st Research Award, College of Natural Sciences,

Seoul National University

Oct 22, 1999 6th Taikyue Ree Award, The Korean Chemical Society

Feb 29, 2012 Jade Order of Service Merit, Republic of Korea

research

※ 용액중의 화학반응에 관한 동역학적 연구

본 연구실에서는 용액 중에서 진행되는 화학반응을 분자수준에서 이해할 수 있도록 미시적인 동역학 이론을 설립하였다. 주위의 용매분자들의 집합적인 영향을 고려하면서 반응분자들의 반응동역학을 설명할 수 있는 미시적인 운동방정식으로부터 거시적인 확산-반응 진화방정식을 유도하고, 이로부터 확산계수와 같은 운반성질을 규명한다. 또한 화학반응의 속도계수 등을 구하여 거시적인 반응속도법칙의 근원을 미시적으로 분석한다. 최근에는 형광소광반응, 가역반응, 및 들뜬상태의 화학반응에 관한 연구가 활발히 진행되고 있다. 연구 대상의 화학반응계는 쌍생 분자쌍으로부터 시작하여 유사 1차 반응에 대한 고찰을 하고 더 나아가 Michaelis-Menten 효소반응과 같은 다단계의 화학반응을 포함하고 있다. 특히 Michaelis-Menten 반응에서 종래에 널리 알려진 직선 형태의 Lineweaver-Burk plot 이 실제로는 기질의 농도가 커지면 비선형 곡선을 나타낸다는 것을 이론적으로 규명할 수 있었다. 또한 이론적인 연구를 보완하기 위하여 Monte Carlo, Brownian dynamics, Moelcular dynamics 등의 각종 Computer Simulation 알고리듬을 개발하여 수행하고 있다.

 

※ 비선형화학반응

주기적으로 반응용액의 색이 바뀌는 현상이나 또는 공간적으로 색을 지닌 반응의 파동이 전파되어 나아가는 현상들을 연구한다. 이 분야는 크게는 생명의 기원과도 관계가 있는 것으로 알려져 있어서 많은 생화학적인 계에서도 관측되는 현상을 연구하는데 쓰이고 있으며, 구체적으로는 어떠한 화학반응의 메카니즘이 이러한 현상을 초래하는가 하는 것과 근본적으로는 통계역학에서 가장 중요시하고 있는 무질서 현상의 근원과 자발적, 질서적인 구조와의 관계, 또는 평형 및 정상상태의 안정도 등을 조사하는데 중요한 역할을 하고 있다. 최근에는 화학 실험실에서 대표적인 비선형 화학반응의 사례로 꼽히고 있는 Briggs-Rauscher 반응 (화학시계로 널리 알려져 있음)의 반응 메카니즘과 복잡한 진동현상을 규명하였다. 또한 두 개의 CSTR-Belousov-Zhabotinsky 반응계가 나타내는 Chaos의 Synchronization 및 Control 에 관한 매우 흥미로운 연구도 활발히 진행 중에 있다.

 

※ 용액 중 분자들의 재배치운동

이 연구는 분자들의 병진운동보다는 회전운동에 관심을 두고 있으며, 분자들의 대칭성과 주위분자들의 영향에 따라서 분자들의 회전이 등방성을 지니고 있는지 또는 비등방성을 지니고 있는지를 규명하며, 이에 관계되는 회전확산계수 등을 구하여 정량적인 정보를 알 수 있게 된다. 현재까지 제안된 여러 가지 이론적인 모델을 비교검토하고 보다 현실적인 이론을 정립하는 것이 이 연구의 목적이며, 같은 현상을 관찰하는 여러 가지 실험적 방법들 중에 특히 라만(Raman)분광법과 핵자기 이완법 (NMR)을 대상으로 상호 상관관계를 조사한다.

 

※ 고체표면에서 흡착된 원자/분자의 확산

표면에서 일어나는 여러 가지 촉매현상과 반도체의 성질을 연구한다. 이러한 현상은 퍼텐샬 장벽의 통과를 수반하고 있으므로 흔히 전이 상태 이론을 도입하게 된다. 그러나 고체표면을 구성하고 있는 원자들의 진동운동이 중요한 영향을 미치게 되므로 이에 대한 고려를 이론적으로 또한 컴퓨터 모의실험을 통하여 규명하고자 한다

publications

86. Bulletin of Korean Chemical Society (BKCS) Vol. 33, Number 3, March 20, 2012.

“Festschrift for Professor Kook Joe Shin” to commemorate Professor Kook Joe Shin’s honorable retirement.

85. K. Park, K. J. Shin, and H. Kim

“Excited-state reversible geminate A* + B <=> C* + D reaction in two dimensions.”

Chem. Asian J. 5(5), 1213-1219 (2010).

84. S. Y. Reigh, K. J. Shin, and H. Kim

“Effect of an external field on the reversible reaction of a neutral particle and a charged particle in three dimensions. II. Excited-state Reaction.”

J. Chem. Phys. 164112 (2010).

 

83. K. Park, K. J. Shin, and H. Kim

“Excited-state reversible geminate recombination in two dimensions.”

J. Chem. Phys. 131(15), 154105 (2009).

 

82. S. Y. Reigh, K. J. Shin, and M. Tachiya

“Effect of an external field on the diffusion-influenced reversible reaction of a neutral particle and a charged particle in three dimensions.”

J. Chem. Phys. 129(23), 234501 (2008).

 

81. S. Park and K. J. Shin

“Diffusion-influenced excited-state reversible geminate ABCD reaction in the presence of an external field.” Chem. Asian J. 3(8-9), 1266-1276 (2008).

Invited Paper for Special issue for Professor Ryoji Noyori’s 70th Birthday

 

80. S. Park and K. J. Shin

“Diffusion-influenced reversible geminate ABCD reaction in the presence of an external field.” J. Phys. Chem. B. 112(19), 6241-6249 (2008).

Invited Paper for Special issue of “Attila Szabo Festschrift”

 

79. H. Kim and K. J. Shin

“Diffusion influence on Michaelis-Menten kinetics. II. The low substrate concentration limit.” J. Phys.: Condens. Matter 19 (6), 065137(13pp) (2007).

Invited Paper for Special issue on “Chemical Kinetics Beyond the Textbook: Fluctuations, Many-Particle Effects and Anomalous Dynamics”

 

78. S. Park and K. J. Shin

“Diffusion-influenced reversible trapping problem in the presence of an external field.”

Chem. Asian J. 1(1-2), 216-223 (2006).

 

77. S. Park, K. J. Shin, A. V. Popov, and N. Agmon

“Diffusion-influenced excited-state reversible transfer reactions, A*+B <=>C*+D,

with two different lifetimes: Theories and simulations.”

J. Chem. Phys. 123 (3), 34507-34520 (2005).

 

76. K.-R. Kim, K. J. Shin, and D. J. Lee

“Complex oscillations in a simple model for the Briggs-Rauscher reaction.”

J. Chem. Phys. 121 (6), 2664-2672 (2004).

 

75. S. Park, K. J. Shin, and N. Agmon

“Exact solution of the excited-state geminate A*+B <=>C*+D reaction with two different lifetimes and quenching.”

J. Chem. Phys. 121 (2), 868-876 (2004).

 

74. H. Kim and K. J. Shin

“Diffusion-influenced reversible geminate recombination in one dimension.

III. Field effect on the excited-state reaction.”

J. Chem. Phys. 120 (19), 9142-9150 (2004).

 

73. J. Park, H. Kim, and K. J. Shin

“Excluded volume effect on diffusion-influenced reactions in one dimension.”

J. Chem. Phys. 118 (21), 9697-9703 (2003).

 

72. C. Oh, H. Kim, and K. J. Shin

“Excited-state diffusion-influenced reversible association-dissociation reaction: Brownian dynamics simulation in three dimensions.”

J. Chem. Phys. 117 (7), 3269-3277 (2002).

 

71. K.-R. Kim, D. J. Lee, and K. J. Shin

“A simplified model for the Briggs-Rauscher reaction mechanism,”

J. Chem. Phys. 117 (6), 2710-2717 (2002).

 

70. H. Kim, M. Yang, M.-U. Choi, and K. J. Shin

“Diffusion influence on Michaelis-Menten kinetics.”

J. Chem. Phys. 115 (3), 1455-1459 (2001).

 

69. K. Kwac, M. Yang, and K. J. Shin

“Excited-state reversible association-dissociation reaction: Renormalized kinetic theory in configuration space.”

J. Chem. Phys. 114 (9), 3883-3897 (2001).

 

68. H. Kim, K. J. Shin, and Noam Agmon

“Diffusion-influenced reversible geminate recombination in one dimension. II. Effect of a constant field.”

J. Chem. Phys. 114 (9), 3905-3913 (2001).

 

67. H. Kim and K. J. Shin

“On the diffusion-influenced reversible trapping problem in one dimension.”

J. Chem. Phys. 112 (19), 8312-8317 (2000).

 

66. H. Kim and K. J. Shin

“Single species diffusion-influenced reaction A + A => αA : Validity of the Smoluchowski approaches.”

Phys. Rev. E 61(4), 3426-3434 (2000).

 

65. M. Yang and K. J. Shin

“Verification of kinetic theoretical prediction of diffusion-influenced reversible reaction by molecular dynamics simulation.”

Bull. Korean Chem. Soc. 21(1), 93-96 (2000).

 

64. H. Kim, K. J. Shin, and N. Agmon

“Excited-state reversible geminate recombination with quenching in one dimension.”

J. Chem. Phys. 111(9), 3791-3799 (1999).

 

63. H. Kim, M. Yang, and K. J. Shin

“Dynamic correlation effect in reversible diffusion-influenced reactions: Brownian dynamics simulation in three dimensions.”

J. Chem. Phys. 111(3), 1068-1075 (1999).

 

62. H. Kim, M. Yang, and K. J. Shin

“Long time behavior of reversible diffusion-influenced reaction perturbed by photolysis: Brownian dynamics simulation.”

J. Chem. Phys. 110 (8), 3946-3950 (1999).

 

61. H. Kim and K. J. Shin

“Exact solution of the reversible diffusion-influenced reaction for an isolated pair in three dimensions.”

Phys. Rev. Lett. 82 (7) 1578-1581 (1999).

 

60. J. Sung, K. J. Shin, and S. Lee

“Relaxation kinetics of diffusion-influenced reactions of the type A + B <=> C perturbed by flash photolysis.”

J. Chem. Phys. 109 (20), 9101-9116 (1998).

 

59. H. Kim, S. Shin, and K. J. Shin

“A test of the boundary doubling method for the numerical solution of diffusion-reaction systems.”

Chem. Phys. Lett. 291 (3-4), 341-345 (1998).

 

58. M. Yang, S. Lee, and K. J. Shin

“Kinetic theory of bimolecular reactions in liquid. III. Reversible association-dissociation A + B <=> C.”

J. Chem. Phys. 108 (21), 9069-9085 (1998).

 

57. M. Yang, S. Lee, and K. J. Shin

“Kinetic theory of bimolecular reactions in liquid. II. Reversible reaction

A + B <=> C + B.”

J. Chem. Phys. 108 (20), 8557-8571 (1998).

 

56. H. Kim, S. Shin, and K. J. Shin

“On the numerical solution of kinetic equations for diffusion-influenced bimolecular reactions.”

J. Chem. Phys. 108 (14), 5861-5869 (1998); 109(5), 2045 (E) (1998).

 

55. M. Yang, S. Lee, and K. J. Shin

“Kinetic theory of bimolecular reactions in liquid. I. Steady-state fluorescence quenching kinetics.”

J. Chem. Phys. 108 (1), 117-133 (1998).

 

54. J. Sung, K. J. Shin, and S. Lee

“Many-particle effects on the relaxation kinetics of fast reversible reaction of the type

A + B <=> C.”

J. Chem. Phys. 107 (22), 9418-9436 (1997).

 

53. J. Jang and K. J. Shin

“Extended diffusion theory of reorientation of symmetric top molecules with internal rotation: Application to mesitylene.”

Chem. Phys. Lett. 279 (5-6), 344-348 (1997).

 

52. M. Yang, S. Lee, and K. J. Shin

“Power law behavior in the asymptotic relaxation of reversible diffusion-influenced reaction A + B <=> AB perturbed by photolysis.”

Phys. Rev. Lett. 79 (19), 3783-3786 (1997).

 

51. J. Jang and K. J. Shin

“Extended diffusion theory of reorientation of symmetric top molecules with internal rotation.”

J. Chem. Phys. 106 (17), 6813-6819 (1997).

 

50. H. Kim, S. Shin, S. Lee, and K. J. Shin

“Monte Carlo simulation study of recombination dynamics in solution.”

J. Chem. Phys. 105 (17), 7705-7711 (1996).

 

49. J. Kim, Y. Jung, J. Jeon, K. J. Shin, and S. Lee

“Diffusion-influenced radical recombination in the presence of a scavenger.”

J. Chem. Phys. 104, 5784-5797 (1996).

 

48. K. Kwac, S. Shin, S. Lee, and K. J. Shin

“Theoretical studies of surface diffusion: Multidimensional TST and effect of surface vibrations.”

Bull. Korean Chem. Soc. 17, 192-198 (1996).

 

47. K. R. Kim, D. J. Lee, and K. J. Shin

“The effect of external noise on dynamic behaviors of the Schloegl model with the second order transition for a photochemical reaction.”

Bull. Korean Chem. Soc. 16, 1119-1121 (1995).

 

46. K. R. Kim, D. J. Lee, and K. J. Shin

“The effect of external noise on dynamic behaviors of the Schloegl model with the first order transition for a photochemical reaction.”

Bull. Korean Chem. Soc. 16, 1113-1118 (1995).

 

45. K. Kwac, S. Lee, and K. J. Shin

“Multidimensional frictional coupling effect in the photoisomerization of trans-stilbene.”

Bull. Korean Chem. Soc. 16, 427-432 (1995).

 

44. Y. E. Lee Koo, K. J. Shin, and R. Kopelman

“Macro-dynamics of elementary bimolecular reactions: A Monte-Carlo bridge between experiment and theory.”

J. Phys. Chem. 99, 1228-1234 (1995).

 

43. S. Jang, K. J. Shin, and S. Lee

“Effects of excitation migration and translational diffusion in the luminescence quenching dynamics.”

J. Chem Phys. 102, 815-827 (1995).

 

42. J. Sung, K. J. Shin, and S. Lee

“Effect of light intensity on the fluorescence quenching kinetics probed by frequency- domain fluorometry.”

J. Chem. Phys. 101, 7241-7247 (1994).

 

41. K. R. Kim, D. J. Lee, C. J. Kim, and K. J. Shin

“The Schloegl model with the second order transition under the influence of a singular multiplicative random force.”

Bull. Korean Chem. Soc. 15, 631-636 (1994).

 

40. K. R. Kim, D. J. Lee, C. J. Kim, and K. J. Shin

“On the stationary probability distributions for the Schloegl model with the first order transition under the influence of a singular multiplicative noise.”

Bull. Korean Chem. Soc. 15, 627-631 (1994).

 

39. M. H. Ryu, D. J. Lee, S. Lee, and K. J. Shin

“A nonlinear theory for the Oregonator model with an external input.”

Bull. Korean Chem. Soc. 15, 488-496 (1994).

 

38. S. Lee, J. J. Lee, and K. J. Shin

“Theory of diffusion-influenced radical recombination: Interplay between geminate

and bulk recombination.”

Bull. Korean Chem. Soc. 15, 311-320 (1994).

 

37. J. Sung, K. J. Shin, and S. Lee

“Effects of static quenching and light pulse intensity on the time-dependent fluorescence quenching kinetics.”

Chem. Phys. 179, 23-37 (1994).

 

36. K. J. Shin

“Nuclear magnetic relaxation of molecular reorientation in liquid.”

Bull. Korean Chem. Soc. 14, 110-112 (1993).

 

35. M. Yang, S. Lee, S. K. Kim, K. J. Shin, M. H. Ryu, S. H. Lee, and D. J. Lee

“A nonlinear theory for the Lotka-Volterra model with an external input.”

Bull. Korean Chem. Soc. 13, 560-565 (1992).

 

34. J. Sung, K. J. Shin, and S. Lee

“Theory of diffusion-influenced fluorescence quenching: Effects of static quenching on the Stern-Volmer curve.”

Chem. Phys. 167, 17-36 (1992); 185, 413 (E) (1994).

 

33. M. Yang, S. Lee, K. J. Shin, K. Y. Choo, and D. Lee

“Effects of light pulse intensity and quencher concentration on the time-dependent fluorescence quenching kinetics.”

Bull. Korean Chem. Soc. 13, 325-331 (1992).

 

32. S. Lee, M. Yang, K. J. Shin, K. Y. Choo, and D. Lee

“Theory of diffusion-influenced fluorescence quenching: Dependence of the Stern-Volmer curve on light intensity.”

Chem. Phys. 156, 339-357 (1991).

 

31. N. W. Song, K. J. Shin, S. Lee, K. H. Chung, K. Y. Choo, and S. K. Kim

“Infrared multiphoton dissociation of CF2HCl: Laser fluence dependence and the effect of intermolecular collisions.”

Bull. Korean Chem. Soc. 12, 652-658 (1991).

 

30. S. Lee, M. Yang, K. J. Shin, K. Y. Choo, and D. Lee

“Effects of light intensity on the steady-state fluorescence quenching kinetics.”

Bull. Korean Chem. Soc. 12, 414-423 (1991).

 

29. C. J. Kim, D. J. Lee, and K. J. Shin

“On the transition between stable steady states in a model of biochemical systems with positive feedback.”

Bull. Korean Chem. Soc. 11, 557-560 (1990).

 

28. D. J. Lee, K. J. Shin, and S. K. Kim

“The SO(2,1) dynamic group approach to the rotation-vibration spectra of diatomic molecules.” Chem. Phys. Lett. 175, 87-91 (1990).

 

27. M. Yang, S. Lee, Y. S. Kim, and K. J. Shin

“Study of diffusion-controlled reactions in liquids: A perturbation series solution and a numerical solution of the Smoluchowski equation.”

Bull. Korean Chem. Soc. 10, 529-535 (1989).

 

26. C. J. Kim, D. J. Lee, K. J. Shin, J. M. Lee, S. B. Ko, and I. C. Jeon

“The critical phenomena of a model for the metabolic control system with positive feedback.”

Bull. Korean Chem. Soc. 10, 452-458 (1989).

 

25. E. M. Kim and K. J. Shin

“Spin-rotational relaxation of molecular reorientation of oblate symmetric top molecules with internal extended rotational diffusion.”

Bull. Korean Chem. Soc. 10, 430-433 (1989).

 

24. H. Heo, K. J. Shin, and Y. S. Kim

“Relation between the repulsive interaction and the overlap of the electron densities.”

Bull. Korean Chem. Soc. 10, 238-242 (1989).

 

23. C. J. Kim, S. B. Ko, J. M. Lee, I. C. Jeon, D. J. Lee, and K. J. Shin

“The time-correlation functions between fluctuating concentrations in the metabolic system with negative feedbacks.”

Bull. Korean Chem. Soc. 9, 382-384 (1988).

 

22. J. W. Lee, S. Chang, H. Pak, K. J. Shin, M. Kim, and W. Chung

“Effect of potassium promoter on the adsorption of carbon monoxide on silica supported ruthenium.”

Bull. Korean Chem. Soc. 9, 137-143 (1988).

 

21. C. J. Kim, D. J. Lee, S. B. Ko, and K. J. Shin

“The time-correlation functions of concentration fluctuations in the Lotka model near the oscillatory marginal steady state.”

Bull. Korean Chem. Soc. 9, 36-40 (1988).

 

20. M. H. Lee, D. J. Lee, K. J. Shin, Y. Lee, and S. B. Ko

“A nonlinear theory of diffusion-driven instability in the Oregonator.”

Bull. Korean Chem. Soc. 8, 196-200 (1987).

 

19. Y. I. Kim and K. J. Shin

“Study of vibrational dephasing of simple molecules in liquids.”

Bull. Korean Chem. Soc. 8, 105-110 (1987).

 

18. S. Shin and K. J. Shin

“Study of diffusion-controlled processes: Potential shape dependence in one-dimension.”

Bull. Korean Chem. Soc. 8, 83-88 (1987).

 

17. S. Shin and K. J. Shin

“A theoretical investigation of nonlinear chemical reactions near the critical point in the presence of diffusion.”

Bull. Korean Chem. Soc. 7, 283-288 (1986).

 

16. D. Y. Kim, S. Shin, K. J. Shin

“Study of diffusion-controlled processes: Solution of the Smoluchowski equation with a step potential.”

Bull. Korean Chem. Soc. 7, 271-275 (1986).

 

15. K. O. Han, D. J. Lee, J. M. Lee, K. J. Shin, and S. B. Ko

“A nonlinear theory for the Brusselator near the critical point caused by diffusion.”

Bull. Korean Chem. Soc. 7, 224-228 (1986).

 

14. B. C. Min, S. Chang, K. J. Shin, and J. W. Lee

“13C NMR study of segmental motions of n-heptane in neat liquid.”

Bull. Korean Chem. Soc. 6, 354-358 (1985).

 

13. K. H. Kim, K. J. Shin, D. J. Lee, and S. B. Ko

“A stochastic investigation of a dynamical system exhibiting the second-order phase transition.”

Bull. Korean Chem. Soc. 6, 295-299 (1985).

 

12. D. S. Chung, E. M. Kim, and K. J. Shin

“Spin-rotational relaxation study of molecular reorientation in the presence of internal extended rotational diffusion.”

Chem. Phys. Lett. 108, 283-287 (1984).

 

11. K. J. Shin

“Molecular reorientation of oblate symmetric top molecules with internal extended rotational diffusion.”

Bull. Korean Chem. Soc. 4, 228-230 (1983).

 

10. D. S. Chung, M. S. Kim, J. W. Lee, and K. J. Shin

“Molecular reorientation in the presence of the extended diffusion of internal rotation in liquid perdeuterotoluene.”

Bull. Korean Chem. Soc. 4, 25-28 (1983).

 

9. W. I. Lee, K. J. Shin, and M. S. Kim,

“Study of molecular reorientation in liquid with Raman spectroscopy. II. Anisotropic rotation of C6F6 in neat liquid.”

Bull. Korean Chem. Soc. 4, 10-14 (1983).

 

8. D. S. Chung, B. S. Kim, J. W. Lee, and K. J. Shin

“13C nuclear magnetic relaxation under internal extended rotational diffusion of the methyl group in liquid toluene.”

Chem. Phys. Lett. 93, 499-503 (1982).

 

7. K. J. Shin, D. S. Chung, and B. S. Kim

“Molecular reorientation with internal extended rotational diffusion in liquids.”

J. Chem. Phys. 77, 5852-5853 (1982).

 

6. M. S. Kim and K. J. Shin

“Study of molecular reorientation in liquid with Raman spectroscopy. I. Anisotropic rotation of CDCl3 in neat liquid.”

J. Korean Chem. Soc. 26, 205-210 (1982).

 

5. K. J. Shin

“Kinetic theory for chemical reactions in liquids.”

J. Korean Chem. Soc. 25, 291-299 (1981).

 

4. R. I. Cukier, R. Kapral, J. R. Mehaffey, and K. J. Shin

“Microscopic theory of condensed phase chemical reactions. II. Configuration space equations.”

J. Chem. Phys. 72, 1844-1850 (1980).

 

3. R. I. Cukier, R. Kapral, J. R. Mehaffey, and K. J. Shin

“Microscopic theory of condensed phase chemical reactions. I. Pair phase space kinetic equation.”

J. Chem. Phys. 72, 1830-1843 (1980).

 

2. R. Kapral and K. J. Shin

“Generalized Langevin equation approach to reaction dynamics in liquids.”

J. Chem. Phys. 70, 5623-5634 (1979).

 

1. K. J. Shin and R. Kapral

“Kinetic theory of reactive pair dynamics in liquids.”

J. Chem. Phys. 69, 3685-3696 (1978).

 

0. K. J. Shin

“Linear response theory for the nuclear magnetic relaxation and the mechanical energy relaxation of methyl group-containing polymers at low temperature.”

Ph.D. Thesis, McGill University (Montreal, Canada), 1978.

Kook Joe Shin

Chair Professor
shinkj@unist.ac.kr