400 results on '"Kawasaki, Tsuneomi"'
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2. Asymmetric autocatalysis with amplification of enantiomeric excess utilizing chiral crystals of achiral o-terphenyls as chiral triggers
3. Asymmetric Autocatalysis as an Efficient Link Between the Origin of Homochirality and Highly Enantioenriched Compounds
4. Chapter 1. Asymmetric Autocatalysis: The Soai Reaction, an Overview
5. Chapter 12. Structure Analysis of Asymmetric Autocatalysis by X-ray Crystallography and Circular Dichroism Spectroscopy
6. Chapter 3. Asymmetric Autocatalysis Triggered by the Chirality of Minerals, Organic Crystals, and Surfaces
7. Chapter 2. Asymmetric Autocatalysis Initiated by Enantioenriched Chiral Organic Compounds: The Link Between Circularly Polarized Light and Nearly Enantiopure Organic Compounds
8. Chapter 14. Unusual Aspects of Asymmetric Induction and Amplification Observed in the Soai Reaction
9. Chapter 4. Absolute Asymmetric Synthesis in the Soai Reaction
10. Synthesis of anti-Helicobacter pylori sesquiterpene employing tandem radical cyclization, and determination of the absolute configuration of the natural product
11. Asymmetric autocatalysis of pyrimidyl alkanol and related compounds. Self-replication, amplification of chirality and implication for the origin of biological enantioenriched chirality
12. Achiral 2‐pyridone and 4‐aminopyridine act as chiral inducers of asymmetric autocatalysis with amplification of enantiomeric excess via the formation of chiral crystals.
13. The Origin and Amplification of Chirality Leading to Biological Homochirality
14. Chirally and chemically reversible Strecker reaction
15. Asymmetric Strecker reaction at the solid/solid interface
16. Asymmetric Autocatalysis of Pyrimidyl Alkanol
17. Asymmetric Autocatalysis with Amplification of Chirality
18. Structural Study of Asymmetric Autocatalysis by X-Ray Crystallography
19. List of Contributors
20. Asymmetric Autocatalysis and the Origins of Homochirality of Organic Compounds. An Overview
21. Asymmetric Autocatalysis Initiated by Crystal Chirality of Achiral Compounds
22. Synthesis of Pyrimidine-Terminated Chiral Large Molecular Architectures with Functions of Self-Replication and Self-Improvement by Asymmetric Autocatalysis
23. Quantitative Difference in Solubility of Diastereomeric (2H/1H)-Isotopomers
24. Asymmetric Autocatalysis as a Link Between Crystal Chirality and Highly Enantioenriched Organic Compounds
25. Rotaxanes comprising cyclic phenylenedioxydiacetamides and secondary mono- and bis-dialkylammonium ions: effect of macrocyclic ring size on pseudorotaxane formation
26. Spontaneous absolute asymmetric synthesis promoted by achiral amines in conjunction with asymmetric autocatalysis
27. Asymmetric Autocatalysis Induced by Chiral Crystals of Achiral Tetraphenylethylenes
28. Studies toward the enantioselective synthesis of neurymenolide A: Construction of the macrocyclic core via Claisen rearrangement
29. Asymmetric autocatalysis triggered by carbon isotope ([sup.13]C/[sup.12]C) chirality
30. Synthesis, Photochemical Properties, and Cytotoxicity of 10-Alkylphenazin-2(10H)-ones
31. Asymmetric autocatalysis triggered by triglycine sulfate with switchable chirality by altering the direction of the applied electric field
32. Asymmetric Autocatalysis of Pyrimidyl Alkanol
33. The distribution of chiral asymmetry in meteorites: An investigation using asymmetric autocatalytic chiral sensors
34. Synthesis, antibacterial and cytotoxic evaluation of flavipucine and its derivatives
35. Utilization of a Crown Ether/Amine‐Type Rotaxane as a Probe for the Versatile Detection of Anions and Acids by Thin‐Layer Chromatography
36. Investigation on the Epoxidation of Piperitenone, and Structure-activity Relationships of Piperitenone Oxide for Differentiation-inducing Activity
37. Rotaxanes comprising cyclic phenylenedioxydiacetamides and secondary mono- and bis-dialkylammonium ions: effect of macrocyclic ring size on pseudorotaxane formation
38. Asymmetric Autocatalysis with Amplification of Chirality
39. Asymmetric Autocatalysis Triggered by Carbon Isotope (13C/12C) Chirality
40. Rotational isomerism of amide units in the ring of rotaxanes in response to base/acid stimuli
41. Self-Replication of Chiral α-Amino Acids in Strecker-Type Synthesis via Asymmetric Induction and Amplification of Their Own Chiral Intermediate α-Aminonitriles
42. Role of Asymmetric Autocatalysis in the Elucidation of Origins of Homochirality of Organic Compounds
43. Achiral amino acid glycine acts as an origin of homochirality in asymmetric autocatalysis
44. Formation of enantioenriched alkanol with stochastic distribution of enantiomers in the absolute asymmetric synthesis under heterogeneous solid–vapor phase conditions
45. Absolute asymmetric Strecker synthesis in a mixed aqueous medium: reliable access to enantioenriched α-aminonitrile
46. Ring size affects the kinetic and thermodynamic formation of [2]rotaxanes featuring an unsymmetric bis-crown ether component
47. Rotational isomerism of the amide units in rotaxanes based on a cyclic tetraamide and secondary ammonium ions
48. Chapter 18 - Asymmetric Autocatalysis Initiated by Crystal Chirality of Achiral Compounds
49. Chapter 10 - Structural Study of Asymmetric Autocatalysis by X-Ray Crystallography
50. Chapter 8 - Synthesis of Pyrimidine-Terminated Chiral Large Molecular Architectures with Functions of Self-Replication and Self-Improvement by Asymmetric Autocatalysis
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