1.電子構造:分子軌道,化学結合,軌道相互作用
2.共役電子系:芳香族性,カルボカチオン
3.分子構造:立体配座解析,分子動力学
4.分子集合体:分子認識,分子組織体
5.化学反応論:ポテンシャルエネルギー,直線自由エネルギー関係,置換基効果,同位体効果,反応中間体
6.有機化学反応:光化学反応,ペリ環状反応
7.有機典型元素化学:有機典型金属化学,アート錯体と高配位化合物,炭素—金属結合の反応
8.有機遷移金属化学:錯体の構造と結合(18電子則,σ結合配位子,σ供与,π逆供与,π結合配位子),錯体の反応(配位子置換反応,酸化的付加,還元的脱離,挿入反応と脱離反応,付加環化反応)
1. Electronic structure: molecular orbital, chemical bonding, and orbital interaction;
2. Conjugated systems: aromaticity and carbocations;
3. Molecular structure: molecular dynamics, molecular recognition, and molecular assembly;
4. Molecular assembly: substituent effect and isotope effect;
5. Chemical reaction: potential energy, free-energy relationship, substituent effect, isotope effect and reaction intermediate;
6. Organic chemical reactions: pericyclic reaction and photochemical reaction;
7. Main group compounds: structure and reactivity, ate-complex and hypercoordinated compounds, and reactivities of carbon-metal bonds;
8. Organotransition metal compounds: structure and reactivity of sigma- and pi-complexes and homogeneous catalytic reaction.