| Monte Carlo simulation study
of recombination dynamics in solution Kim H, Shin S, Lee S, Shin S JOURNAL OF CHEMICAL PHYSICS 105: (17) 7705-7711 NOV 1 1996 |
|
| 5 | Excluded volume effect on diffusion-influenced reactions in one dimension. Park, Joonho; Kim, Hyojoon; Shin, Kook Joe. Journal of Chemical Physics (2003), 118(21), 9697-9703. |
| 4 | Saeki, Akinori; Kozawa, Takahiro; Yoshida, Yoichi; Tagawa, Seiichi; Study on radiation-induced reaction in microscopic region for basic understanding of electron-beam patterning in lithographic process (II) -relation between resist space resolution and space distribution of ionic species-. Japanese Journal of Applied Physics, Part 1: Regular Papers, Short Notes & Review Papers (2002), 41(6B), 4213-4216. [Abstract] |
| 3 | Thomsen, C. L.; Madsen, D.; Poulsen, J. Aa.; Thogersen, J.; Jensen, S. J. Knak; Keiding, S. R. Femtosecond photolysis of aqueous HOCl. J. Chem. Phys. (2001), 115(20), 9361-9369. |
| 2 | Kim H, Shin KJ Single species diffusion-influenced reaction A+A ->alpha A: Validity of the Smoluchowski approach PHYS REV E 61: (4) 3426-3434 Part A APR 2000 |
| 1 | Kim H, Shin S, Shin KJ On the numerical solutions of kinetic equations for diffusion-influenced bimolecular reactions J CHEM PHYS 108: (14) 5861-5869 APR 8 1998 |
| Kim H, Shin S, Shin
KJ On the numerical solutions of kinetic equations for diffusion-influenced bimolecular reactions JOURNAL OF CHEMICAL PHYSICS 108: (14) 5861-5869 APR 8 1998 |
|
| 8 | Genetic algorithm evolution of fuzzy production rules for the on-line control of phenol-formaldehyde resin plants. Cartwright, Hugh M.; Issott, David. Physical and Theoretical Chemistry Laboratory, Oxford University, Oxford, UK. Studies in Fuzziness and Soft Computing (2003), 120(Soft Computing Approaches in Chemistry), 237-264. |
| 7 | Excluded volume effect on diffusion-influenced reactions in one dimension. Park, Joonho; Kim, Hyojoon; Shin, Kook Joe. Journal of Chemical Physics (2003), 118(21), 9697-9703. |
| 6 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| 5 | Nickel B A new algorithm for the numerical solution of diffusion problems related to the Smoluchowski equation Z PHYS CHEM 214: 753-795 Part 6 2000 |
| 4 | Kim H, Shin KJ Single species diffusion-influenced reaction A+A ->alpha A: Validity of the Smoluchowski approach PHYS REV E 61: (4) 3426-3434 Part A APR 2000 |
| 3 | Kim H, Yang M, Shin KJ Dynamic correlation effect in reversible diffusion-influenced reactions: Brownian dynamics simulation in three dimensions J CHEM PHYS 111: (3) 1068-1075 JUL 15 1999 |
| 2 | Kim H, Yang M, Shin KJ Long time behavior of reversible diffusion-influenced reaction perturbed by photolysis: Brownian dynamics simulation J CHEM PHYS 110: (8) 3946-3950 FEB 22 1999 |
| 1 | Kim H, Shin S, Shin KJ A test of the boundary doubling method for the numerical solution of diffusion-reaction systems CHEM PHYS LETT 291: (3-4) 341-345 JUL 17 1998 |
| Kim H, Shin S, Shin KJ A test of the boundary doubling method for the numerical solution of diffusion-reaction systems CHEMICAL PHYSICS LETTERS 291: (3-4) 341-345 JUL 17 1998 |
|
| 5 | Excluded volume effect on diffusion-influenced reactions in one dimension. Park, Joonho; Kim, Hyojoon; Shin, Kook Joe. Journal of Chemical Physics (2003), 118(21), 9697-9703. |
| 4 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| 3 | Kim H, Shin KJ Single species diffusion-influenced reaction A+A ->alpha A: Validity of the Smoluchowski approach PHYS REV E 61: (4) 3426-3434 Part A APR 2000 |
| 2 | Kim H, Yang M, Shin KJ Dynamic correlation effect in reversible diffusion-influenced reactions: Brownian dynamics simulation in three dimensions J CHEM PHYS 111: (3) 1068-1075 JUL 15 1999 |
| 1 | Kim H, Yang M, Shin KJ Long time behavior of reversible diffusion-influenced reaction perturbed by photolysis: Brownian dynamics simulation J CHEM PHYS 110: (8) 3946-3950 FEB 22 1999 |
| Kim H, Shin KJ Exact solution of the reversible diffusion-influenced reaction for an isolated pair in three dimensions PHYSICAL REVIEW LETTERS 82: (7) 1578-1581 FEB 15 1999 |
|
| 17 | Agmon, Noam; Popov, Alexander V. Unified theory of reversible target reactions. Journal of Chemical Physics (2003), 119(13), 6680-6690. |
| 16 | Transition into non-monotonic approach to equilibrium in geminate exchange reaction. Popov, Alexander V.; Agmon, Noam. Department of Physical Chemistry and The Fritz Haber Research Center, The Hebrew University, Jerusalem, Israel. Chemical Physics Letters (2003), 371(3,4), 462-468. |
| 15 | Popov, Alexander V.; Agmon, Noam. Exact solution for the geminate ABCD reaction. Journal of Chemical Physics (2002), 117(12), 5770-5779. |
| 14 | Agmon, Noam. The Dynamics of Preferential Solvation. J. Phys. Chem. A (2002) 106(32) 7256-7260 |
| 13 | Popov, Alexander V.; Agmon, Noam. Three-dimensional simulations of reversible bimolecular reactions: The simple target problem. J. Chem. Phys. (2001), 115(19), 8921-8932. |
| 12 | Popov, Alexander V.; Agmon, Noam. Three-dimensional simulation verifies theoretical asymptotics for reversible binding. Chem. Phys. Lett. (2001), 340(1,2), 151-156. |
| 11 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| 10 | Van Beijeren, H.; Dong, W.; Bocquet, L. Diffusion-controlled reactions: A revisit of Noyes' theory. J. Chem. Phys. (2001), 114(14), 6265-6275. |
| 9 | Kim, Hyojoon; Shin, Kook Joe; Agmon, Noam. Diffusion-influenced reversible geminate recombination in one dimension. II. Effect of a constant field. Journal of Chemical Physics (2001), 114(9), 3905-3912. |
| 8 | Relations among the modern theories of diffusion-influenced reactions.
II. Reduced distribution function theory versus modified integral
encounter theory Jaeyoung Sung et al., J. Chem. Phys. 112, 2128 (2000). |
| 7 | Relations among the modern theories of diffusion-influenced reactions.
I. Reduced distribution function theory versus memory function theory of
Yang, Lee, and Shin Jaeyoung Sung et al., J. Chem. Phys. 111, 10159 (1999). |
| 6 | Excited-state reversible geminate recombination with quenching in one
dimension Hyojoon Kim et al., J. Chem. Phys. 111, 3791 (1999). |
| 5 | Dynamic correlation effect in reversible diffusion-influenced reactions:
Brownian dynamics simulation in three dimensions Hyojoon Kim et al., J. Chem. Phys. 111, 1068 (1999). |
| 4 | Excited-state reversible geminate reaction. III. Exact solution for
noninteracting partners Irina V. Gopich et al., J. Chem. Phys. 110, 10433 (1999). |
| 3 | Agmon N, Gopich IV Kinetic transition in excited-state reversible reactions CHEM PHYS LETT 302: (5-6) 399-404 MAR 26 1999 |
| 2 | N. Agmon Excited-state reversible geminate reaction. II. Contact geminate quenching J CHEM PHYS 110 (4), 2175-2180 (1999). |
| 1 | Gopich IV, Solntsev KM, Agmon N Excited-state reversible geminate reaction. I. Two different lifetimes J CHEM PHYS 110: (4) 2164-2174 JAN 22 1999 |
| Kim H, Yang M, Shin KJ Long time behavior of reversible diffusion-influenced reaction perturbed by photolysis: Brownian dynamics simulation JOURNAL OF CHEMICAL PHYSICS 110: (8) 3946-3950 FEB 22 1999 |
|
| 6 | Popov, Alexander V.; Agmon, Noam. Exact solution for the geminate ABCD reaction. Journal of Chemical Physics (2002), 117(12), 5770-5779. |
| 5 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| 4 | Harriman, Anthony. Photophysical processes in condensed phases. Photochemistry (2000), 31 15-44. |
| 3 | Kim H, Shin KJ On the diffusion-influenced reversible trapping problem in one dimension J CHEM PHYS 112: (19) 8312-8317 MAY 15 2000 |
| 2 | Naumann W Fluorescence quenching by reversible excimer formation: Kinetic study on the basis of generalized, non-Markovian rate equations J CHEM PHYS 111: (6) 2414-2422 AUG 8 1999 |
| 1 | Kim H, Yang M, Shin KJ Dynamic correlation effect in reversible diffusion-influenced reactions: Brownian dynamics simulation in three dimensions J CHEM PHYS 111: (3) 1068-1075 JUL 15 1999 |
| Dynamic correlation effect in
reversible diffusion-influenced reactions: Brownian dynamics simulation in
three dimensions Kim H, Yang M, Shin KJ JOURNAL OF CHEMICAL PHYSICS 111: (3) 1068-1075 JUL 15 1999 |
|
| 15 | Agmon, Noam; Popov, Alexander V. Unified theory of reversible target reactions. Journal of Chemical Physics (2003), 119(13), 6680-6690. |
| 14 | Proton dissociation and solute-solvent interactions following electronic excitation of photoacids. Pines, Ehud; Pines, Dina. Chemistry Department, Ben-Gurion University of the Negev, Beer Sheva, Israel. Understanding Chemical Reactivity (2002), 23(Ultrafast Hydrogen Bonding Dynamics and Proton Transfer Processes in the Condensed Phase), 155-184. |
| 13 | Three-dimensional simulations of reversible bimolecular reactions. III. The pseudo-unimolecular ABCD reaction. Popov, Alexander V.; Agmon, Noam. Department of Physical Chemistry and the Fritz Haber Research Center, The Hebrew University, Jerusalem, Israel. Journal of Chemical Physics (2003), 118(24), 11057-11065. |
| 12 | Popov, Alexander V.; Agmon, Noam. Three-dimensional simulations of reversible bimolecular reactions. II. The excited-state target problem with different lifetimes. Journal of Chemical Physics (2002), 117(9), 4376-4385. |
| 11 | Oh, Changryul; Kim, Hyojoon; Shin, Kook Joe. Excited-state diffusion-influenced reversible association-dissociation reaction: Brownian dynamics simulation in three dimensions. Journal of Chemical Physics (2002), 117(7), 3269-3277. |
| 10 | Gopich, Irina V.; Szabo, Attila. Kinetics of reversible diffusion influenced reactions: The self-consistent relaxation time approximation. J. Chem. Phys. (2002) 117(2), 507-517 |
| 9 | Popov, Alexander V.; Agmon, Noam. Three-dimensional simulations of reversible bimolecular reactions: The simple target problem. J. Chem. Phys. (2001), 115(19), 8921-8932. |
| 8 | Popov, Alexander V.; Agmon, Noam. Three-dimensional simulation verifies theoretical asymptotics for reversible binding. Chem. Phys. Lett. (2001), 340(1,2), 151-156. |
| 7 | Pines, Dina; Pines, Ehud. Direct observation of power-law behavior in the asymptotic relaxation to equilibrium of a reversible bimolecular reaction. J. Chem. Phys. (2001) |
| 6 | Solntsev, Kyril M.; Huppert, Dan; Agmon, Noam. Challenge in Accurate Measurement of Fast Reversible Bimolecular Reaction. J. Phys. Chem. A (2001), 105(24), 5868-5876. |
| 5 | Kim, Hyojoon; Shin, Kook Joe; Agmon, Noam. Diffusion-influenced reversible geminate recombination in one dimension. II. Effect of a constant field. Journal of Chemical Physics (2001), 114(9), 3905-3912. |
| 4 | Kwac, Kijeong; Yang, Mino; Shin, Kook Joe. Excited-state reversible association-dissociation reaction: Renormalized kinetic theory in configuration space. Journal of Chemical Physics (2001), 114(9), 3883-3897. |
| 3 | Sung JY, Lee S Relations among the modern theories of diffusion-influenced reactions. II. Reduced distribution function theory versus modified integral encounter theory J CHEM PHYS 112: (5) 2128-2138 FEB 1 2000 |
| 2 | Sung J, Lee S Relations among the modern theories of diffusion-influenced reactions. I. Reduced distribution function theory versus memory function theory of Yang, Lee, and Shin J CHEM PHYS 111: (22) 10159-10170 DEC 8 1999 |
| 1 | Kim H, Shin KJ, Agmon N Excited-state reversible geminate recombination with quenching in one dimension J CHEM PHYS 111: (9) 3791-3799 SEP 1 1999 |
| Excited-state reversible
geminate recombination with quenching in one dimension Kim H, Shin KJ, Agmon N JOURNAL OF CHEMICAL PHYSICS 111: (9) 3791-3799 SEP 1 1999 |
|
| 6 | Oh, Changryul; Kim, Hyojoon; Shin, Kook Joe. Excited-state diffusion-influenced reversible association-dissociation reaction: Brownian dynamics simulation in three dimensions. Journal of Chemical Physics (2002), 117(7), 3269-3277. |
| 5 | Solntsev, Kyril M.; Huppert, Dan; Agmon, Noam. Experimental Evidence for a Kinetic Transition in Reversible Reactions. Phys. Rev. Lett. (2001), 86(15), 3427-3430. |
| 4 | Kim, Hyojoon; Shin, Kook Joe; Agmon, Noam. Diffusion-influenced reversible geminate recombination in one dimension. II. Effect of a constant field. Journal of Chemical Physics (2001), 114(9), 3905-3912. |
| 3 | Harriman, Anthony. Photophysical processes in condensed phases. Photochemistry (2001), 32 15-46. |
| 2 | Solntsev KM, Agmon N Dual asymptotic behavior in geminate diffusion-influenced reaction CHEM PHYS LETT 320: (3-4) 262-268 APR 7 2000 |
| 1 | Sung JY, Lee S Relations among the modern theories of diffusion-influenced reactions. II. Reduced distribution function theory versus modified integral encounter theory J CHEM PHYS 112: (5) 2128-2138 FEB 1 2000 |
| Single species diffusion-influenced reaction A+A -> aA: Validity of the Smoluchowski approach. Kim, Hyojoon; Shin, Kook Joe. Phys. Rev. E: (2000), 61(4-A), 3426-3434. | |
| 2 | Theo M. A. O. M. Barenberg et al., Journal of Chemical Physics 117, 9202 (2002) |
| 1 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| On the diffusion-influenced reversible trapping problem in one dimension. Kim, Hyojoon; Shin, Kook Joe. J. Chem. Phys. (2000), 112(19), 8312-8317. | |
| 3 | Excluded volume effect on diffusion-influenced reactions in one dimension. Park, Joonho; Kim, Hyojoon; Shin, Kook Joe. Journal of Chemical Physics (2003), 118(21), 9697-9703. |
| 2 | Plonka, A. Chapter 4. Dispersive kinetics. Annu. Rep. Prog. Chem., Sect. C: Phys. Chem. (2001), 97 91-147. |
| 1 |
Dean G. Duffy, "Green's Functions with Applications" (CRC Press, 2001). pp. 266-267. |
| Diffusion influence on Michaelis-Menten kinetics. Hyojoon Kim, Mino Yang, Myung-Un Choi, and Kook Joe Shin. J. Chem. Phys. (2001) 115(3) 1455-1459 | |
| 3 | Paul, Sujata; Gangopadhyay, Gautam. Power law kinetics in reversible enzyme-catalyzed reaction due to diffusion. Journal of Chemical Physics (2003), 119(6), 3501-3508. |
| 2 | Murugan, R. Solution to Michaelis-Menten enzyme kinetic equation via undetermined gauge functions: Resolving the nonlinearity of Lineweaver-Burk plot. Journal of Chemical Physics (2002), 117(9), 4178-4183. [Abstract] |
| 1 |
Popov, Alexander V.; Agmon, Noam. Exact solution for the geminate ABCD reaction. Journal of Chemical Physics (2002), 117(12), 5770-5779. |
| Evaluation of Quantum Correlation Functions from Classical Data. Hyojoon Kim and Peter J. Rossky Journal of Physical Chemistry B (2002) 106(33) 8240-8247 | |
| 5 | Li, Shenmin; Thompson, Ward H. Simulations of the Vibrational Relaxation of I2 in Xe. Journal of Physical Chemistry A (2003), 107(41), 8696-8704. |
| 4 | An analysis of molecular origin of vibrational energy transfer from solute to solvent based upon path integral influence functional theory. Mikami, Taiji; Okazaki, Susumu. Department of Electronic Chemistry, Tokyo Institute of Technology, Midori-ku, Yokohama, Japan. Journal of Chemical Physics (2003), 119(9), 4790-4797. |
| 3 | Vibrational spectroscopy of HOD in liquid D2O. VI. Intramolecular and intermolecular vibrational energy flow, C. P. Lawrence and J. L. Skinner, The Journal of Chemical Physics -- July 15, 2003 -- Volume 119, Issue 3, pp. 1623-1633 |
| 2 |
A combined time correlation function and instantaneous normal mode study of the sum frequency generation spectroscopy of the water/vapor interface. Perry, Angela; Ahlborn, Heather; Space, Brian; Moore, Preston B. Journal of Chemical Physics (2003), 118(18), 8411-8419. |
| 1 | Quantum dynamics for dissipative systems: a numerical study of the Wigner-Fokker-Planck equation. Zhang, Shesheng; Pollak, Eli. Chemical Physics Department, Weizmann Institute of Science, Rehovot, Israel. Journal of Chemical Physics (2003), 118(10), 4357-4364. |
| Excited-state diffusion-influenced reversible association-dissociation reaction: Brownian dynamics simulation in three dimensions. Changryul Oh, Hyojoon Kim and Kook Joe Shin. J. Chem. Phys. (2002) 117(7) 3269-3277 | |
| 2 | Agmon, Noam; Popov, Alexander V. Unified theory of reversible target reactions. Journal of Chemical Physics (2003), 119(13), 6680-6690. |
| 1 |
Three-dimensional simulations of reversible bimolecular reactions. III. The pseudo-unimolecular ABCD reaction. Popov, Alexander V.; Agmon, Noam. Department of Physical Chemistry and the Fritz Haber Research Center, The Hebrew University, Jerusalem, Israel. Journal of Chemical Physics (2003), 118(24), 11057-11065. |
Last Updated:
03-10-28