Lecture Notes in Chemistry [Updated at 2016.02.21]

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File Name
Size
01. Introduction to Elementary Molecular Orbital Theory and to Semiempirical Methods (1976).pdf
4.22MB
02. Determination of Liquid Water Structure - Coordination Numbers for Ions and Solvation for Biological Molecules (1976).pdf
8.56MB
03. The Consistent Force Field_ A Documentation (1977).pdf
10.06MB
04. Topological Approach to the Chemistry of Conjugated Molecules (1977).pdf
3.18MB
05. A General SCF Theory (1978).pdf
3.99MB
06. Sulphone Molecular Structures (1978).pdf
5.61MB
07. Ion Cyclotron Resonance Spectrometry (1978).pdf
10.39MB
08. Selected Topics of the Theory of Chemical Elementary Processes (1978).pdf
9.89MB
09. Crystals as Giant Molecules (1978).pdf
3.09MB
10. Charge Transfer Processes in Condensed Media (1979).pdf
26.63MB
11. The Transfer of Molecular Energies by Collision - Recent Quantum Treatments (1979).pdf
7.37MB
12. The Permutation Group in Physics and Chemistry (1979).pdf
5.66MB
13. Electronic States of Molecules and Atom Clusters - Foundations and Prospects of Semiempirical Methods (1980).pdf
4.57MB
14. Aspects of the Linear and Magnetic Circular Dichroism of Planar Organic Molecules (1980).pdf
1.63MB
15. Steric Fit in Quantitative Structure-Activity Relations (1980).pdf
3.49MB
16. Ab Initio Calculations (1980).pdf
11.1MB
17. Electrochemistry - A Reformulation of the Basic Principles (1980).pdf
14.23MB
18. Collision Theory and Statistical Theory of Chemical Reactions (1980).pdf
28.95MB
19. Computational Aspects for Large Chemical Systems (1980).pdf
6.15MB
20. Theory of Rate Processes in Condensed Media (1980).pdf
7.21MB
21. Pattern Recognition in Chemistry (1980).pdf
7.31MB
22. The Unitary Group for the Evaluation of Electronic Energy Matrix Elements (1981).pdf
20.26MB
23. Digital Simulation in Electrochemistry (1981).pdf
3.11MB
24.Chemistry, Quantum Mechanics and Reductionism (1981).pdf
15.9MB
25. Intermolecular Forces and Their Evaluation by Perturbation Theory (1981).pdf
12.26MB
26. Lattice Dynamics of Molecular Crystals (1981).pdf
6.64MB
27. Monte Carlo Applications in Polymer Science (1981).pdf
6.2MB
28. Symmetry Properties of Molecules (1982).pdf
1.9MB
29. Unified Valence Bond Theory of Electronic Structure (1982).pdf
5.37MB
30. Qualitative Valence-Bond Descriptions of Electron-Rich Molecules (1982).pdf
5.05MB
31. Ion Cyclotron Resonance Spectrometry II (1982).pdf
12.85MB
32. Second-Order Phase Transitions and the Irreducible Representation of Space Groups (1982).pdf
2.06MB
33. Electrical Double Layer at a Metal-dilute Electrolyte Solution Interface (1983).pdf
9.13MB
34. Unified Valence Bond Theory of Electronic Structure - Applications (1983).pdf
10.4MB
35. Wavefunctions and Mechanisms from Electron Scattering Processes (1984).pdf
9.68MB
36. Perspectives in Theoretical Stereochemistry (1984).pdf
11.87MB
37. Potential Energy Functions in Conformational Analysis (1985).pdf
8.47MB
38. Molecular Orbitals and their Energies, Studied by the Semiempirical HAM Method (1985).pdf
11.27MB
39. Electrochemistry on Liquid_Liquid Interfaces (1985).pdf
2.21MB
40. Time-Dependent Reactivity of Species in Condensed Media (1986).pdf
4.87MB
41. Relativistic Theory of Atoms and Molecules - A Bibliography 1916–1985 (1986).pdf
7.38MB
42. GRMS or Graphical Representation of Model Spaces Vol. 1 Basics (1986).pdf
5.66MB
43. Hypervirial Theorems (1987).pdf
10MB
44. Supercomputer Simulations in Chemistry (1986).pdf
7.96MB
45. One-Dimensional Organometallic Materials - An Analysis of Electronic Structure Effects (1987).pdf
5.82MB
46. Kekulé Structures in Benzenoid Hydrocarbons (1988).pdf
7.54MB
47. Angular Momentum Theory Applied to Interactions in Solids (1988).pdf
3.47MB
48. Hartree-Fock Ab Initio Treatment of Crystalline Systems (1988).pdf
11.01MB
49. The Positive Muon as a Probe in Free Radical Chemistry - Potential and Limitations of the μSR Techniques (1988).pdf
4.07MB
50. Aspects of Many-Body Effects in Molecules and Extended Systems (1989).pdf
18.28MB
51. Synthon Model of Organic Chemistry and Synthesis Design (1989).pdf
7.36MB
52. Many-Body Methods in Quantum Chemistry (1989).pdf
9.43MB
53. Large Order Perturbation Theory and Summation Methods in Quantum Mechanics (1990).pdf
12.25MB
54. Theory of Coronoid Hydrocarbons (1991).pdf
6.35MB
55. Elementary Introduction to Spatial and Temporal Fractals (1991).pdf
6.28MB
56. Properties of Chemically Interesting Potential Energy Surfaces (1991).pdf
6.9MB
57. Transport, Relaxation, and Kinetic Processes in Electrolyte Solutions (1992).pdf
7.39MB
58. Lecture Notes in Quantum Chemistry - European Summer School in Quantum Chemistry (1992).pdf
19.58MB
59. Research in Atomic Structure (1993).pdf
3.83MB
60. Relativistic Theory of Atoms and Molecules II - A Bibliography 1986–1992 (1993).pdf
13.19MB
61. Ab Initio Variational Calculations of Molecular Vibrational-Rotational Spectra (1993).pdf
4.45MB
62. Theory of Coronoid Hydrocarbons II (1994).pdf
9.04MB
63. Atoms, Chemical Bonds and Bond Dissociation Energies (1994).pdf
14.66MB
64. Lecture Notes in Quantum Chemistry II - European Summer School in Quantum Chemistry (1994).pdf
15.72MB
65. Overlap Determinant Method in the Theory of Pericyclic Reactions (1995).pdf
4.36MB
66. Computer Simulations of Protein Structures and Interactions (1995).pdf
13.36MB
67. Quantum-Mechanical Ab-initio Calculation of the Properties of Crystalline Materials (1996).pdf
22.78MB
71. Potential Energy Surfaces - Proceedings of the Mariapfarr Workshop in Theoretical Chemistry (1999).pdf
7.49MB
73. Molecular Quantum Similarity in QSAR and Drug Design (2000).pdf
5.25MB
74. Mathematical Models and Methods for Ab Initio Quantum Chemistry (2000).pdf
8.21MB
75. Reaction and Molecular Dynamics (2000).pdf
20.22MB
76. Relativistic Theory of Atoms and Molecules III - A Bibliography 1993–1999 (2000).pdf
12.51MB
77. Methods in Reaction Dynamics (2001).pdf
5.15MB
78. The Exploration of Supramolecular Systems and Nanostructures by Photochemical Techniques (2012).pdf
3.69MB
79. Conservation Science for the Cultural Heritage - Applications of Instrumental Analysis (2013).pdf
10.13MB
80. Applied Cross-Coupling Reactions (2013).pdf
18.89MB
81. Ion-Selective Electrodes (2013).pdf
4.94MB
82. Principles of Polymer Design and Synthesis (2013).pdf
22.75MB
83. Laser Photodissociation and Spectroscopy of Mass-separated Biomolecular Ions (2013).pdf
3.78MB
84. Biosensors - Essentials (2014).pdf
4.36MB
85. Organometallic Reactions and Polymerization (2014).pdf
11.67MB
86. An Introduction to Ceramics (2014).pdf
4.12MB
87. Hydrogen Bonded Supramolecular Structures (2015).pdf
20.84MB
88. Hydrogen Bonded Supramolecular Materials (2015).pdf
13.32MB
89. Computer–Based Structure Elucidation from Spectral Data - The Art of Solving Problems (2015).pdf
24.19MB
90. Bonding in Electron-Rich Molecules 2nd ed (2016).pdf
11.72MB
91. Organic Optoelectronic Materials (2015).pdf
14.36MB

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