Satoshi Maeda

Overview

Best Publications

• Systematic exploration of the mechanism of chemical reactions: the global reaction route mapping (GRRM) strategy using the ADDF and AFIR methods

  Satoshi Maeda;Koichi Ohno;Keiji Morokuma;Keiji Morokuma

  647
  Citations

• Global mapping of equilibrium and transition structures on potential energy surfaces by the scaled hypersphere search method: applications to ab initio surfaces of formaldehyde and propyne molecules.

  Satoshi Maeda;Koichi Ohno

  456
  Citations

• A scaled hypersphere search method for the topography of reaction pathways on the potential energy surface

  Koichi Ohno;Satoshi Maeda

  452
  Citations

• Intrinsic reaction coordinate: Calculation, bifurcation, and automated search

  Satoshi Maeda;Yu Harabuchi;Yuriko Ono;Tetsuya Taketsugu

  432
  Citations

• Global Reaction Route Mapping on Potential Energy Surfaces of Formaldehyde, Formic Acid, and Their Metal-Substituted Analogues

  Koichi Ohno;Satoshi Maeda

  325
  Citations

• Development of azo-based fluorescent probes to detect different levels of hypoxia.

  Wen Piao;Satoru Tsuda;Yuji Tanaka;Satoshi Maeda

  298
  Citations

• Implementation and performance of the artificial force induced reaction method in the GRRM17 program

  Satoshi Maeda;Yu Harabuchi;Yu Harabuchi;Makito Takagi;Kenichiro Saita

  254
  Citations

• Finding Reaction Pathways of Type A + B → X: Toward Systematic Prediction of Reaction Mechanisms.

  Satoshi Maeda;Keiji Morokuma;Keiji Morokuma

  243
  Citations

• Exploring transition state structures for intramolecular pathways by the artificial force induced reaction method.

  Satoshi Maeda;Tetsuya Taketsugu;Keiji Morokuma

  224
  Citations

• Communications: A systematic method for locating transition structures of A+B-->X type reactions.

  Satoshi Maeda;Keiji Morokuma

  222
  Citations

• Mechanochemical synthesis of magnesium-based carbon nucleophiles in air and their use in organic synthesis

  Rina Takahashi;Anqi Hu;Pan Gao;Yunpeng Gao

  194
  Citations

• Artificial Force Induced Reaction (AFIR) Method for Exploring Quantum Chemical Potential Energy Surfaces.

  Satoshi Maeda;Yu Harabuchi;Makito Takagi;Tetsuya Taketsugu

  192
  Citations

• Updated Branching Plane for Finding Conical Intersections without Coupling Derivative Vectors.

  Satoshi Maeda;Koichi Ohno;Keiji Morokuma

  187
  Citations

• Finding Reaction Pathways for Multicomponent Reactions: The Passerini Reaction is a Four-Component Reaction†

  Satoshi Maeda;Shinsuke Komagawa;Masanobu Uchiyama;Keiji Morokuma;Keiji Morokuma

  184
  Citations

• Computational Catalysis Using the Artificial Force Induced Reaction Method.

  W. M. C. Sameera;Satoshi Maeda;Keiji Morokuma

  161
  Citations

• No Straight Path: Roaming in Both Ground- and Excited-State Photolytic Channels of NO3 → NO + O2

  Michael P. Grubb;Michelle L. Warter;Hongyan Xiao;Satoshi Maeda

  141
  Citations

• Structures of water octamers (H2O)8: exploration on ab initio potential energy surfaces by the scaled hypersphere search method.

  Satoshi Maeda;Koichi Ohno

  139
  Citations

• Exploring paths of chemical transformations in molecular and periodic systems: An approach utilizing force

  Satoshi Maeda;Yu Harabuchi;Yu Harabuchi

  127
  Citations

• Silane- and peroxide-free hydrogen atom transfer hydrogenation using ascorbic acid and cobalt-photoredox dual catalysis.

  Yuji Kamei;Yusuke Seino;Yuto Yamaguchi;Tatsuhiko Yoshino

  123
  Citations

• From Roaming Atoms to Hopping Surfaces: Mapping Out Global Reaction Routes in Photochemistry

  Satoshi Maeda;Tetsuya Taketsugu;Koichi Ohno;Keiji Morokuma

  117
  Citations

• Kinetic prediction of reverse intersystem crossing in organic donor-acceptor molecules.

  Naoya Aizawa;Yu Harabuchi;Satoshi Maeda;Yong-Jin Pu

  113
  Citations

• Automated global mapping of minimal energy points on seams of crossing by the anharmonic downward distortion following method: a case study of H2CO.

  Satoshi Maeda;Koichi Ohno;Keiji Morokuma

  110
  Citations

• A new approach for finding a transition state connecting a reactant and a product without initial guess: applications of the scaled hypersphere search method to isomerization reactions of HCN, (H2O)2, and alanine dipeptide

  Satoshi Maeda;Koichi Ohno

  102
  Citations