41 results on '"Tiger, R. P."'
Search Results
2. Mechanisms of Reactions of Green Chemistry of Polyurethanes and Problems of Using Renewable Vegetable Raw Materials
3. Various Reactivity of Cyclocarbonate-Containing Chains of Vegetable Oil Triglycerides as the Cause of the Abnormal Kinetics of Urethane Formation with Their Participation
4. Molecular Organization of Reagents in the Kinetics and Catalysis of Liquid-Phase Reactions: XIII. Cyclic Transition States Involving Solvent Molecules in the Mechanism of Aminolysis of Cyclocarbonates in an Alcohol Medium
5. Reactivity of New Monomers of the Polyurethanes Green Chemistry, the Reaction Mechanism, and the Medium Effect
6. Polyurethanes without Isocyanates and Isocyanates without Phosgene as a New Field of Green Chemistry: Mechanism, Catalysis, and Control of Reactivity
7. Green Chemistry of Polyurethanes: Synthesis, Functional Composition, and Reactivity of Cyclocarbonate-Containing Sunflower Oil Triglycerides—Renewable Raw Materials for New Urethanes
8. Structure of Associated Mixtures with Various Number of Intermolecular Bonds: Numerical Simulation
9. Comparative Reactivity of Cyclocarbonate Groups of Oligomeric Triglycerides Based on Soybean Oil and Model Compounds in the Reactions of Nonisocyanate Urethane Formation
10. Green chemistry of polyurethanes
11. The supermolecule method, as applied to studies of liquid-phase reaction mechanisms taking cyclocarbonate aminolysis in dioxane as an example: specific features
12. Green chemistry of polyurethanes: Synthesis, structure, and functionality of triglycerides of soybean oil with epoxy and cyclocarbonate groups—renewable raw materials for new urethanes
13. Bifunctional catalysis by acetic acid in the urethane formation from cyclocarbonates and amines: quantum chemical and kinetic study
14. Nonisocyanate polyurethanes from amines and cyclic carbonates: Kinetics and mechanism of a model reaction
15. Structure of solutions of associated molecules: A numerical model
16. Kinetics of molecular reactions in polymer solutions: Numerical model
17. Quantum chemical study of the arylacyl azide complexes with Lewis acids and their Curtius rearrangement to isocyanates
18. Mechanism of urethane formation from cyclocarbonates and amines: a quantum chemical study
19. Reaction of cyclocarbonates with amines as an alternative route to polyurethanes: A quantum-chemical study of reaction mechanism
20. Heterogenization of tin-containing polymer catalysts as a method of increasing their activity in the urethane-formation reaction
21. Molecular organization of reactants in the kinetics and catalysis of liquid phase reactions: XII. Mechanism of the boron trifluoride-catalyzed Curtius thermal rearrangement of benzoyl azide into phenyl isocyanate
22. “ortho-Effect” in thermal curtius rearrangement of alkylbenzoyl azides into isocyanates: A quantitative interpretation
23. Mechanism and structural aspects of thermal Curtius rearrangement. Quantum chemical study
24. Molecular Organization of Reagents in the Kinetics and Catalysis of Liquid-Phase Reactions: XI. Manifestation of the Structure of Solution in the Kinetics of Water Addition to Isocyanate in Water–Dioxane Mixtures
25. Molecular organization of reactants in the kinetics and catalysis of liquid phase reactions: IX. The catalytic assistance of an alcohol as a component of the medium in the aminolysis of esters
26. Molecular organization of reactants in the kinetics and catalysis of liquid phase reactions: X. Synergism in the combined catalysis of urethane formation by organotin compounds and tertiary amines
27. Green chemistry of polyurethanes: The catalytic n-butylaminolysis of ethylene carbonate as a model chain-growth reaction in the formation of nonisocyanate polyurethanes
28. The kinetics of the thermal decomposition of hexafluoroisopropylidene-p,p′-diphenyldiacyl diazide in bulk and in solution
29. Structure of some homo- and heteroassociates of methanol with trimethylamine and quantum-chemical substantiation of the role of hydrogen bonding in the mechanism of urethane-formation reactions
30. Quantum-chemical treatment of the mechanism of urethane formation by the extended Hückel method
31. Kinetics and mechanism of the hydrolysis of dichloranhydrides of carboxylic acids: Communication 2. Reaction rate as a function of temperature and the relation between energy and entropy of activation and the polarity of the medium
32. Investigation of the kinetics and mechanism of the hydrolysis of dichlorides of carboxylic a-cids: 3. Hydrolysis of acid chlorides in the presence of acids and alkalis
33. Kinetics and mechanism of the hydrolysis of dichlorides of carboxylic acids: Communication 1. Reaction rate as a function of polarity of the medium
34. Numerical computations of molecular reactions in associated systems caused by the formation of fractal structures
35. Numerical computations of molecular reactions in associated systems caused by the formation of fractal structures.
36. Classification of initiation reactions of cationic polymerisation of olefins
37. ChemInform Abstract: EINFLUSS DER AUTASSOZIATION AUF DIE REAKTIVITAET VON ALKOHOLEN BEI DER NUKLEOPHILEN ADDITION UND SUBSTITUTION
38. ChemInform Abstract: ELEKTRONENSTRUKTUR UND REAKTIONSVERHALTEN VON ARYLISOCYANATEN
39. Kinetics and mechanism of the hydrolysis of dichlorides of carboxylic acids
40. ChemInform Abstract: SAURE HYDROLYSE VON ISOCYANATEN
41. ChemInform Abstract: SAUERSTOFFISOTOPENAUSTAUSCH BEI DER HYDROLYSE VON METHYLISOCYANAT UND MECHANISMUS DER URETHANBLDG.
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.