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E-raamat: Molecule-Based Materials: The Structural Network Approach

(National Electron Accelerator Laboratory for Nuclear Physics and Synchrotron Radiation research (MAX-lab), Lund University, Sweden), (Department of Chemical and Biological Engineering, Chalmers Tekniska Högskola, Sweden)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 02-Dec-2005
  • Kirjastus: Elsevier Science Ltd
  • Keel: eng
  • ISBN-13: 9780080459851
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Molecule-Based Materials: The Structural Network ApproachSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 02-Dec-2005
  • Kirjastus: Elsevier Science Ltd
  • Keel: eng
  • ISBN-13: 9780080459851
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The properties of a material depend not only on the specific atoms and molecules it contains, but also on the arrangement of these in space. Many of these three-dimensional arrangements are described as "3D-nets" or "3D-networks". Molecule-Based Materials: The Structural Network Approach is about the synthesis, description, nomenclature and analysis of such nets and the relation of the nets to the physical properties of the materials. It introduces the mathematics, and includes a short guide to programs useful for retrieving, analysing and naming nets. Complete with illustrations and examples of coordination polymer and hydrogen bonded nets, this unique easy-to-read book examines all aspects of 3D nets and will undeniably prove itself valuable to newcomers, well-seasoned students and researchers working in crystallography, inorganic or organic chemistry.

* Covers all aspects of molecule-based 3D nets, complete with 3D illustrations
* Contains summary tables of all nets
* Easy reading eliminates the need for background knowledge in crystallography or mathematics

Muu info

A brand new book dedicated to all aspects of molecule-based 3D nets
Preface v
Introduction and a short dictionary of network terminology
1(18)
Who is this book written for?
2(1)
Nomenclature used in this book
2(2)
Why did we write this book?
4(4)
Some history
4(1)
A rapid expansion
4(1)
Problems with names and nomenclature
5(1)
What this book is and is not
6(1)
The contents of the book
6(2)
Some words, their origin and current usage
8(11)
Tectons and building blocks
9(1)
Nets of coordination polymers and metal-organic frameworks
10(1)
Crystal engineering and reticular chemistry
11(1)
Supramolecular self assembly using synthons and secondary building units
12(2)
Glossary of terms
14(5)
Why bother with nets?
19(20)
Possible impact on society
19(2)
A fruitful way of looking at molecular crystals with strong, directed intermolecular bonding
21(4)
The analysis of a crystal structure
21(2)
Three reasons for the net approach
23(1)
Seeing the structure in all these structures
24(1)
Synthetic targets for molecular nets: magnetism, chiral channels, gas storage and more
25(7)
Intrinsic properties of 3D-nets
25(1)
Applications
26(6)
Patents related to molecular 3D-nets
32(7)
What is a net?
39(18)
Definitions
40(2)
Short survey of network interactions
42(9)
Covalent bonds
42(1)
Coordinative bonds
43(2)
``Normal'' hydrogen bonds
45(2)
``Weak'' hydrogen bonds
47(2)
π-π and π-σ interactions
49(1)
Phenyl ``embraces''
50(1)
Metal-metal bonds and interactions
50(1)
How to assign nodes
51(2)
Interpenetration
53(4)
``Nature abhors a vacuum''
53(4)
Naming the nets and finding them
57(24)
A state of some concern, but with a solution?
57(1)
Nomenclature
58(11)
Nomenclature according to Wells
60(1)
Schlafli symbol
60(1)
Rings and circuits
61(2)
Extended Schlafli or vertex symbols
63(1)
Zeolite-like abbreviations
64(3)
Some notes on notation
67(1)
Fischer symbol
68(1)
Graph set theory
68(1)
Examples
69(4)
Diamond net
69(3)
CdSO4 net
72(1)
Searching the literature
73(3)
Using words
73(2)
Searching the Cambridge Structural Database
75(1)
Recommendations
76(1)
A few words about Alexander F. Wells
77(4)
The most common 3D-nets
81(18)
Requirements for a 3D-net
82(1)
The most common 3D-nets
83(16)
The 103-srs or (10, 3)-a net, also known as the SrSi2 net
84(2)
The 103-ths or (10, 3)-b net, also called the ThSi2-net
86(1)
The 66-dia or diamond net
87(2)
The 64.82-nbo or NbO net with square planar coordination
89(1)
The 65.8-cds or cadmium sulphate net with square planar coordination
90(2)
The platinum sulphide, (42.84)(42.84)-pts net, a square and a tetrahedron
92(1)
The 46.64-bnn, or boron nitride net
93(1)
The 412.63-pcu net with octahedral nodes
94(5)
Three-connected nets
99(28)
Some remarks concerning the building blocks
99(3)
Link lengths and angles
99(2)
Torsion angles, ω, between consecutive nodes
101(1)
The net and the tecton
102(1)
Uninodal three-connected nets
102(12)
The 123-twt net
102(1)
The (10, 3)-c 103-bto net
103(2)
The (10, 3)-d or 103-utp net
105(1)
Other uninodal (10, 3)-nets
106(2)
The (8, 3)-a and (8, 3)-b nets (83-eta and 83-etb)
108(2)
The (8210)-a, LiGe or 82.10-lig net
110(1)
The 4.142-dia-f net
110(1)
The 4.142-dia-g net
111(1)
The 4.8.10-lvt-a net
112(2)
Binodal three-connected nets
114(6)
The (6.102)(62.10)-nof net
114(1)
The (83)(83)-noj net
115(1)
The (103)(6.102)3-noh net
116(1)
The (82.10)(82.10)-nod or (82.10)-b net
117(1)
The (6.122)(6.102)2-nob net
118(1)
Two uniform binodal nets: (9, 3)-a: (93)(93)-nta and (9, 3)-b: (93)(93)2-ntb
119(1)
Trinodal three-connected nets
120(3)
The (4.122)(4.122)(4.122)-mot-a net
120(1)
The (72.8)2(72.8)(7.123)-noe net
121(1)
(4.122)(4.122)2(123)2-``net 10''
122(1)
Multinodal three-connected nets
123(1)
The (83)(83)(82.10)(82.10) (83)(83)-nos net, a hexanodal net.
123(1)
Summary of three-connected nets
123(4)
Four-connected nets
127(22)
Uninodal tetrahedral nets
127(12)
The SrAl2 or 42.63.8-sra net
127(2)
The sodalite or 42.64-sod net
129(1)
The quartz or 66.82-qtz net
130(2)
The CrB4 or 4.65-crb net
132(1)
The gismondine or 43.83-gis net
133(1)
The lonsdaleite or 66-lon net
134(1)
The Irish ladder or 42.63.8-irl net
135(1)
The polycubane or 43.83-pcb net
136(1)
The 42.63.8-pcl net
137(1)
66-neb, 54.62-unh, 4.65-cag, 66-gsi, 66-mmt, and 4.64.8-zni
138(1)
Uninodal nets with ``square planar'' nodes
139(2)
The 42.84-lvtnet
139(1)
The 86-tcb net
140(1)
Nets with both tetrahedral and square planar nodes
141(8)
The twisted pts or (4.63.82)2(42.62.82)(62.84)-ptt net
142(1)
The or (42.62.82)2(4.64.8)-mog net
143(1)
The (43.63)4(64.102)-asv net
144(5)
Nets with both three-and four-connected nodes
149(16)
Alternating nets with stoichiometry (3-conn)4(4-conn)3 (ns3/ns4 = 4/3)
150(5)
Boracite, (63)4(62.84)3-bor and twisted boracite (63)4(62.82.102)3-tho
150(2)
The Pt3O4 or (83)4(86)3-pto net
152(1)
The C3N4 or (83)4(86)3-ctn net
153(1)
Other alternating nets with stoichiometry (3-conn)4(4-conn)3
154(1)
Nets with 1:1 stoichiometery (ns3/ns4 = 1)
155(2)
The InS or (63)(65.8)-ins net
155(1)
The (4.82)(4.85)-dmc net
156(1)
Nets with 1:2 stoichiometery (ns3/ns4 = 1/2)
157(1)
The (5.82)(4.52.6.7.8)2-dme net
157(1)
A (6.82)(64.8.10)2-net
158(1)
Nets with 4:1 stoichiometery (ns3/ns4 = 4)
158(3)
The (62.10)4(64.102)-jph net
159(1)
The (103)4(106)-dmf net
160(1)
Nets with 2:1 stoichiometery (ns3/ns4 = 2)
161(1)
The (83)(86)2-tfa net based on tetrahedral nodes
161(1)
The (83)(85.12)2 tfc net based on square planar four connected nodes
161(1)
Summary of three- and four-connected nets
162(3)
Nets with higher connectivity than four
165(26)
Five connected nets
165(4)
The 44.66-sqp net
165(1)
The 44.66-nov net
166(2)
The 46.64-bcu-l net
168(1)
The 34.42.84-cab net and other five-connected nets with cubic symmetry
168(1)
Six-connected nets
169(4)
The NiAs or the (412)(49.66)-nia net
169(1)
The 48.54.63-bsn net
170(1)
The 4.9.66-acs net
171(1)
The 48.53.64-smn net
172(1)
Seven-connected nets
173(1)
The 416.54.62-wfq net
173(1)
Eight-connected nets
174(2)
The CsClor 424.64-bcu net
175(1)
A 33.415.58.62 net
175(1)
Nets with three- and five-connected nodes
176(2)
The stacked hexagonal layer net, or (63)(69.8)-hms net
176(1)
The graphite or (63)(69.8)-gra net
177(1)
The (4.82)(4.56.6.82)-mcf-d net
178(1)
Nets with three- and six-connected nodes
178(5)
The rutile or (4.62)(42.610.83)-rtl net
178(1)
The pyrite or (63)(612.83)-pyr net
179(3)
The (4.62)(4.2.610.82)-sit net
182(1)
Nets with four- and six-connected nodes
183(2)
Tetrahedrons and octahedrons; the corundum or (43.63)3(46.69)2-cornet
183(1)
Square planar and octahedral nodes, the (44.62)(48.67)-fsg net
184(1)
Tetrahedrons and octahedrons, another (44.62)(48.66.8) net
185(1)
Tetrahedrons and octahedrons; the (43.63)(46.66.83)-fsh net
185(1)
Nets with four- and eight-connected nodes
185(2)
The fluorite or flu net
185(2)
Summary of higher connected nets
187(4)
Some mathematics related to 3D-nets
191(20)
Nets, Polyhedra and Topology
192(5)
Definitions
192(1)
The Platonic bodies and the (n, p) relation to dimensionality
192(3)
A few words on topology
195(2)
Genus, Tilings and Nets
197(10)
A classification of nets in terms of their genus
197(2)
Comparison to Wells Zt classification
199(3)
Nets as tilings and the concept of transitivity
202(2)
The analysis of the voids as the dual of a net
204(2)
The pqrs to srqp relation of dual nets
206(1)
Glossary
207(4)
Interpenetration - strategies and nomenclature
211(16)
What is interpenetration
211(1)
Strategies to control interpenetration
212(5)
Density of nets
212(1)
Lengths and thickness of links, size of counter ion
213(2)
Analysis of the voids within a net
215(2)
Specially designed ligands
217(1)
Nomenclature
217(10)
3D-nets as specific synthetic targets -- Crystal Engineering
227(18)
Choice of interaction (hydrogen bonds, coordinative bonds etc)
227(4)
Covalent bonds
227(1)
Metal-ligand bonds (coordination bonds)
227(1)
Hydrogen bonds
228(2)
Connecting the building blocks
230(1)
Reaction conditions
231(4)
Solvents and concentrations
231(1)
Templating agents
231(1)
Methods of crystallization
232(1)
Hydrothermal or solvothermal methods
233(1)
Grinding and kneading, mechanochemical methods
234(1)
Synthesis of chiral, porous, 3D nets
235(4)
Intrinsic chiral nets and induced chiral nets
235(2)
Interpenetration
237(1)
Some chiral nets other than srs
238(1)
Some notes on polymorphism and supramolecular isomerism
239(2)
Specific properties of nets and their analysis
241(4)
Computational tools
245(12)
Regular visualisation tools for net discovery and analysis
245(6)
Mercury
246(2)
Diamond
248(3)
Crystal Maker
251(1)
RPluto
251(1)
Software packages that can search for a nets
251(6)
OLEX
251(3)
TOPOS
254(3)
Appendix A 257(1)
Ideal nets 257(14)
Appendix B 271(1)
Stereo drawings 271(40)
Subject Index 311


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