Mark Weller (University of Bath Professor of Chemistry), Tina Overton (Monash University Professor of Chemistry Education), Jonathan Rourke (University of Wa Associate Professor of Chemistry
Inorganic Chemistry
Mark Weller (University of Bath Professor of Chemistry), Tina Overton (Monash University Professor of Chemistry Education), Jonathan Rourke (University of Wa Associate Professor of Chemistry
Inorganic Chemistry
- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Leading you from the fundamental principles of inorganic chemistry right through to cutting-edge research at the forefront of the subject, Inorganic Chemistry is the ideal course companion for the duration of your degree.
Andere Kunden interessierten sich auch für
- Jonathan LawA Dictionary of Chemistry16,99 €
- Mark MiodownikStuff Matters9,99 €
- Robert H. Crabtree (Yale University)The Organometallic Chemistry of the Transition Metals92,99 €
- Robert G. Mortimer (Rhodes College Professor Emeritus of ChemistryMathematics for Physical Chemistry48,99 €
- AG Sykes / Grant Mauk (Volume ed.)Advances in Inorganic Chemistry168,99 €
- Jack BarrettInorganic Chemistry in Aqueous Solution24,99 €
- The Chemistry of Inorganic Biomaterials145,99 €
-
-
-
Leading you from the fundamental principles of inorganic chemistry right through to cutting-edge research at the forefront of the subject, Inorganic Chemistry is the ideal course companion for the duration of your degree.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press
- 7 Revised edition
- Seitenzahl: 968
- Erscheinungstermin: Mai 2018
- Englisch
- Abmessung: 274mm x 220mm x 43mm
- Gewicht: 2090g
- ISBN-13: 9780198768128
- ISBN-10: 0198768125
- Artikelnr.: 50881043
- Verlag: Oxford University Press
- 7 Revised edition
- Seitenzahl: 968
- Erscheinungstermin: Mai 2018
- Englisch
- Abmessung: 274mm x 220mm x 43mm
- Gewicht: 2090g
- ISBN-13: 9780198768128
- ISBN-10: 0198768125
- Artikelnr.: 50881043
The author team comprises chemical educators and researchers who are at the cutting edge of their fields, and who are perfectly placed to write a text that is accessible to students, uniformly authoritative and up-to-date in its coverage: Professor Mark Weller, Chair of Energy Materials, University of Bath; Professor Tina Overton, Professor of Chemistry Education, Monash University; Dr Jonathan Rourke, Associate Professor of Chemistry, University of Warwick; Professor Fraser Armstrong, Professor of Chemistry, University of Oxford
Part 1: Foundations
1: Atomic structure
2: Molecular structure and bonding
3: Molecular symmetry
4: The structures of simple solids
5: Acids and bases
6: Oxidation and reduction
7: An introduction to coordination compounds
8: Physical techniques in inorganic chemistry
Part 2: The elements and their compounds
9: Periodic trends
10: Hydrogen
11: The Group 1 elements
12: The Group 2 elements
13: The Group 13 elements
14: The Group 14 elements
15: The Group 15 elements
16: The Group 16 elements
17: The Group 17 elements
18: The Group 18 elements
19: The d-block elements
20: d-Metal complexes: electronic structure and properties
21: Coordination chemistry: reactions of complexes
22: d-Metal organometallic chemistry
23: The f-block elements
Part 3: Expanding our horizons: advances and applications
24: Materials chemistry and nanomaterials
25: Green chemistry
26: Biological inorganic chemistry
27: Inorganic chemistry in medicine
1: Atomic structure
2: Molecular structure and bonding
3: Molecular symmetry
4: The structures of simple solids
5: Acids and bases
6: Oxidation and reduction
7: An introduction to coordination compounds
8: Physical techniques in inorganic chemistry
Part 2: The elements and their compounds
9: Periodic trends
10: Hydrogen
11: The Group 1 elements
12: The Group 2 elements
13: The Group 13 elements
14: The Group 14 elements
15: The Group 15 elements
16: The Group 16 elements
17: The Group 17 elements
18: The Group 18 elements
19: The d-block elements
20: d-Metal complexes: electronic structure and properties
21: Coordination chemistry: reactions of complexes
22: d-Metal organometallic chemistry
23: The f-block elements
Part 3: Expanding our horizons: advances and applications
24: Materials chemistry and nanomaterials
25: Green chemistry
26: Biological inorganic chemistry
27: Inorganic chemistry in medicine
Part 1: Foundations
1: Atomic structure
2: Molecular structure and bonding
3: Molecular symmetry
4: The structures of simple solids
5: Acids and bases
6: Oxidation and reduction
7: An introduction to coordination compounds
8: Physical techniques in inorganic chemistry
Part 2: The elements and their compounds
9: Periodic trends
10: Hydrogen
11: The Group 1 elements
12: The Group 2 elements
13: The Group 13 elements
14: The Group 14 elements
15: The Group 15 elements
16: The Group 16 elements
17: The Group 17 elements
18: The Group 18 elements
19: The d-block elements
20: d-Metal complexes: electronic structure and properties
21: Coordination chemistry: reactions of complexes
22: d-Metal organometallic chemistry
23: The f-block elements
Part 3: Expanding our horizons: advances and applications
24: Materials chemistry and nanomaterials
25: Green chemistry
26: Biological inorganic chemistry
27: Inorganic chemistry in medicine
1: Atomic structure
2: Molecular structure and bonding
3: Molecular symmetry
4: The structures of simple solids
5: Acids and bases
6: Oxidation and reduction
7: An introduction to coordination compounds
8: Physical techniques in inorganic chemistry
Part 2: The elements and their compounds
9: Periodic trends
10: Hydrogen
11: The Group 1 elements
12: The Group 2 elements
13: The Group 13 elements
14: The Group 14 elements
15: The Group 15 elements
16: The Group 16 elements
17: The Group 17 elements
18: The Group 18 elements
19: The d-block elements
20: d-Metal complexes: electronic structure and properties
21: Coordination chemistry: reactions of complexes
22: d-Metal organometallic chemistry
23: The f-block elements
Part 3: Expanding our horizons: advances and applications
24: Materials chemistry and nanomaterials
25: Green chemistry
26: Biological inorganic chemistry
27: Inorganic chemistry in medicine