Verfügbarkeit: Trends in chemistry of materials :

Trends in chemistry of materials :: selected research papers of C.N.R. Rao /

In this collection, the author has compiled a set of his papers representing some of the highlights of materials chemistry. It features a section on oxidic materials, which includes high-temperature superconductivity, colossal magnetoresistance, electronic phase separation and multiferroics. The aut...

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1. Verfasser:	Rao, C. N. R. (Chintamani Nagesa Ramachandra), 1934-
Körperschaften:	Indian Institute of Science, Bangalore, Jawaharlal Nehru Centre for Advanced Scientific Research, World Scientific (Firm)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; Hackensack, N.J. : World Scientific Pub. Co., ©2008.
Schriftenreihe:	IISc centenary lecture series ; v. 1.
Schlagworte:	Solid state chemistry. Materials > Analysis. Materials science. Chimie de l'état solide. Matériaux > Analyse. Science des matériaux. SCIENCE > Chemistry > Physical & Theoretical. Materials > Analysis Materials science Solid state chemistry
Online-Zugang:	Volltext
Zusammenfassung:	In this collection, the author has compiled a set of his papers representing some of the highlights of materials chemistry. It features a section on oxidic materials, which includes high-temperature superconductivity, colossal magnetoresistance, electronic phase separation and multiferroics. The author has also included novel methods for making gallium nitride, boron nitride and such materials, by using precursors and the urea decomposition route. Moreover, there is a section dealing with open-framework and hybrid materials of which the latter has a great future since one can make use of the rigidity of inorganic structures and the functionality and flexibility of the organic residues to design materials with novel properties.
Beschreibung:	1 online resource (xxi, 610 pages) : illustrations.
Bibliographie:	Includes bibliographical references.
ISBN:	9789812833846 9812833846

Internformat

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505	0		\|a I. Some highlights of materials chemistry. 1. Novel materials, materials design and synthetic strategies: recent advances and new directions (1999). 2. Chemical synthesis of solid inorganic materials (1993). 3. Superstructures, ordered defects and nonstoichiometry in metal oxides of perovskite and related structures (with J. Gopalakrishnan and K. Vidyasagar, 1984). 4. Intergrowth structures: the chemistry of solid-solid interfaces (with J.M. Thomas, 1985). 5. Virtues of marginally metallic oxides (1996). 6. Experimental and theoretical electronic charge densities in molecular crystals (with G.U. Kulkarni and R.S. Gopalan, 2000). 7. Solid state properties of fullerenes and related materials (with R. Seshadri, 1994) -- II. Phase transitions in solids. 8. Phase transitions and the chemistry of solids (1984). 9. Pm3m-Fm3m transformations of alkali halides: solid solutions of CsCI with KCI, CsBr and SrCI[symbol] (with M. Natarajan and K.J. Rao, 1970). 10. Mechanism of crystal structure transformations: pt. 3. Factors affecting the anatase -- rutile transformation (with S.R. Yoganarasimhan, 1962). 11. Computer simulation of transformation in solids (with S. Yashonath, 1987). 12. A Monte Carlo study of the condensed phases of biphenyl (with A. Chakrabarti and S. Yashonath, 1995). 13. The metal-nonmetal transition: a global perspective (with P.P. Edwards and T.V. Ramakrishnan, 1995). 14. Polymerization and pressure-induced amorphization of [symbol] and [symbol] (with A. Govindaraj, H.N. Aiyer and R. Seshadri, 1995). 15. Phase transformations of mesoporous zirconia (with Neeraj, 1998) -- III. Transition metal oxides: superconductivity, charge-ordering, electronic phase separation and multiferroic. 16. Electron microscopy of ferroelectric bismuth oxides containing perovskite layers (with J.L. Hutchison and J.S. Anderson, 1997). 17. Crystal chemistry and magnetic properties of layered metal oxides possessing the [symbol] or related structures (with P. Ganguly, 1984). 18. Chemical insights into high-temperature superconductors (1991). 19. Structure-property relationships in superconducting cuprates (with A.K. Ganguli, 1995). 20. Stripes and superconductivity in cuprates -- is there a connection? (with N. Kumar, 2003). 21. Charge, spin, and orbital ordering in the perovskite manganates, [symbol] (Ln = rare earth, A = Ca or Sr)(2000). 22. Electron-hole asymmetry in the rare-earth manganates: a comparative study of the hole- and electron-doped materials (with K. Vijaya Sarathy [and others], 2001). 23. Electronic phase separation and other novel phenomena and properties exhibited by mixed-valent rare-earth manganites and related materials (with V.B. Shenoy, 2008). 24. New routes to multiferroics (with C.R. Serrao, 2007). 25. Glassy behaviour of the ferromagnetic and the non-magnetic insulating states of the rare earth manganates [symbol] (Ln = Nd or Gd) (with Asish K. Kundu and P. Nordblad, 2006) -- IV. Open-framework and hybrid network materials. 26. Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities (with S. Natarajan [and others], 2001). 27. Transformations of molecules and secondary building units to materials: a bottom-up approach (with R. Murugavel [and others], 2004). 28. Organically templated metal sulfates, selenites and selenates (with J.N. Behera and M. Dan, 2006). 29. Coordination polymers and hybrid networks of different dimensionalities formed by metal sulfites (with K.P. Rao, 2007). 30. Hybrid structures formed by lead 1,3-cyc1ohexanedicarboxylates (with A. Thirumurugan and R.A. Sanguramath, 2008). 31. Synthesis and magnetic properties of an amine-templated Fe[symbol] (S = 2) Sulfate with a distorted Kagome structure (with J.N. Behera, 2006). 32. Synthesis structure and magnetic properties of an amine-template Mn[symbol] (S = 5/2) sulfate with the Kagome structure (with J.N. Behera, 2007). 33. Structural diversity and chemical trends in hybrid inorganic-organic framework materials (with A.K. Cheetham and R.K. Feller, 2006). 34. An organic channel structure formed by the supramolecular assembly of trithiocyanuric acid and 4,4'-bipyridyl (with A. Ranganathan, V.R. Pedireddi and S. Chatterjee, 1999). 35. Hydrothermal synthesis of organic channel structures: 1:1 hydrogen-bonded adducts of melamine with cyanuric and trithiocyanuric acids (with A. Ranganathan and V.R. Pedireddi, 1999) -- V. Nanomaterials. 36. Size-dependent chemistry: properties of nanocrystals (with G.U. Kulkarni, P.J. Thomas and P.P. Edwards, 2002). 37. Magic nuc1earity giant clusters of metal nanocrystals formed by mesoscale self-assembly (with P.J. Thomas and G.U. Kulkarni, 2001). 38. Carbon nanotubes from organometallic precursors (with A. Govindaraj, 2002). 39. Inorganic nanotubes (with M. Nath, 2003). 40. Synthesis of inorganic nanomaterials (with S.R.C. Vivekchand, K. Biswas and A. Govindaraj, 2007). 41. Water-solubilized aminoc1ay-metal nanopartic1e composites and their novel properties (with K.K.R Datta and M. Eswaramoorthy, 2007). 42. Growth kinetics of ZnO nanorods: capping-dependent mechanism and other interesting features (with K. Biswas and B. Das, 2008). 43. Dip-pen lithography with magnetic [symbol] nanocrystals (with G. Gundiah [and others], 2004). 44. The liquid-liquid interface as a medium to generate nanocrystalline films of inorganic materials (with K.P. Kalyanikutty, 2008). 45. Use of fluorous chemistry in the solubilization and phase transfer of nanocrystals, nanorods and nanotubes (with R. Voggu, K. Biswas and A. Govindaraj, 2006). 46. Ferromagnetism as a universal feature of nanoparticles of the otherwise nonmagnetic oxides (with A. Sundaresan [and others], 2006). 47. MnO and NiO nano particles: synthesis and magnetic properties (with M. Ghosh, K. Biswas and A. Sundaresan, 2006). 48. Assembling covalently linked nanocrystals and nanotubes through click chemistry (with R. Voggu, P. Suguna and S. Chandrasekaran, 2007). 49. A calorimetric investigation of the assembly of gold nanorods to form necklaces (with N. Varghese, S.R.C. Vivekchand and A. Govindaraj, 2008). 50. New method of purification of carbon nanotubes based on hydrogen treatment (with S.R.C. Vivekchand, A Govindaraj and Md. Motin Seikh, 2004). 51. Nitrogen- and boron-doped double-walled carbon nanotubes (with L.S. Panchakarla and A. Govindaraj, 2007). 52. Nature and electronic properties of Y-junctions in CNTs and N-doped CNTs obtained by the pyrolysis of organometallic precursors (with F.L. Deepak [and others], 2005). 53. Hydrogel-assisted synthesis of nanotubes and nanorods of CdS, ZnS and CuS, showing some evidence for oriented attachment (with K.P. Kalyanikutty, M. Nikhila and U. Maitra, 2006). 54. Synthesis, structure and properties of homogeneous BC[symbol]N nanotubes (with K. Raidongia [and others], 2008). 55. Functionalization and solubilization of BN nanotubes by interaction with Lewis bases (with S. Pal, S.R.C. Vivekchand and A. Govindaraj, 2007). 56. GaS and GaSe nanowalls and their transformation to [symbol] and GaN nanowalls (with U.K. Gautam, S.R.C. Vivekchand and A. Govindaraj, 2005). 57. Nanorotors using asymmetric inorganic nanorods in an optical trap (with M. Khan, A.K. Sood and F.L. Deepak, 2006). 58. Mechanical properties of inorganic nanowire reinforced polymer-matrix composites (with S.R.C. Vivekchand and U. Ramamurthy, 2006). 59. Ammonia sensors based on metal oxide nanostructures (with C.S. Rout, M. Hegde and A. Govindaraj, 2007). 60. Study of graphenes prepared by different methods: characterization, properties and solubilization (with K. Subramanyam, S.R.C. Vivekchand and A. Govindaraj, 2008).
520			\|a In this collection, the author has compiled a set of his papers representing some of the highlights of materials chemistry. It features a section on oxidic materials, which includes high-temperature superconductivity, colossal magnetoresistance, electronic phase separation and multiferroics. The author has also included novel methods for making gallium nitride, boron nitride and such materials, by using precursors and the urea decomposition route. Moreover, there is a section dealing with open-framework and hybrid materials of which the latter has a great future since one can make use of the rigidity of inorganic structures and the functionality and flexibility of the organic residues to design materials with novel properties.
650		0	\|a Solid state chemistry. \|0 http://id.loc.gov/authorities/subjects/sh85124636
650		0	\|a Materials \|x Analysis. \|0 http://id.loc.gov/authorities/subjects/sh85082066
650		0	\|a Materials science. \|0 http://id.loc.gov/authorities/subjects/sh85082094
650		6	\|a Chimie de l'état solide.
650		6	\|a Matériaux \|x Analyse.
650		6	\|a Science des matériaux.
650		7	\|a SCIENCE \|x Chemistry \|x Physical & Theoretical. \|2 bisacsh
650		7	\|a Materials \|x Analysis \|2 fast
650		7	\|a Materials science \|2 fast
650		7	\|a Solid state chemistry \|2 fast
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710	2		\|a Jawaharlal Nehru Centre for Advanced Scientific Research. \|0 http://id.loc.gov/authorities/names/n89283053
710	2		\|a World Scientific (Firm) \|0 http://id.loc.gov/authorities/names/no2001005546
758			\|i has work: \|a Trends in chemistry of materials (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCH4tVkTVhpVHC7HFhqPb3P \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|z 9789812833839
830		0	\|a IISc centenary lecture series ; \|v v. 1. \|0 http://id.loc.gov/authorities/names/no2008165194
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Datensatz im Suchindex

DE-BY-FWS_katkey	ZDB-4-EBA-ocn747539690
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author	Rao, C. N. R. (Chintamani Nagesa Ramachandra), 1934-
author_GND	http://id.loc.gov/authorities/names/n50053943
author_corporate	Indian Institute of Science, Bangalore Jawaharlal Nehru Centre for Advanced Scientific Research World Scientific (Firm)
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author_facet	Rao, C. N. R. (Chintamani Nagesa Ramachandra), 1934- Indian Institute of Science, Bangalore Jawaharlal Nehru Centre for Advanced Scientific Research World Scientific (Firm)
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contents	I. Some highlights of materials chemistry. 1. Novel materials, materials design and synthetic strategies: recent advances and new directions (1999). 2. Chemical synthesis of solid inorganic materials (1993). 3. Superstructures, ordered defects and nonstoichiometry in metal oxides of perovskite and related structures (with J. Gopalakrishnan and K. Vidyasagar, 1984). 4. Intergrowth structures: the chemistry of solid-solid interfaces (with J.M. Thomas, 1985). 5. Virtues of marginally metallic oxides (1996). 6. Experimental and theoretical electronic charge densities in molecular crystals (with G.U. Kulkarni and R.S. Gopalan, 2000). 7. Solid state properties of fullerenes and related materials (with R. Seshadri, 1994) -- II. Phase transitions in solids. 8. Phase transitions and the chemistry of solids (1984). 9. Pm3m-Fm3m transformations of alkali halides: solid solutions of CsCI with KCI, CsBr and SrCI[symbol] (with M. Natarajan and K.J. Rao, 1970). 10. Mechanism of crystal structure transformations: pt. 3. Factors affecting the anatase -- rutile transformation (with S.R. Yoganarasimhan, 1962). 11. Computer simulation of transformation in solids (with S. Yashonath, 1987). 12. A Monte Carlo study of the condensed phases of biphenyl (with A. Chakrabarti and S. Yashonath, 1995). 13. The metal-nonmetal transition: a global perspective (with P.P. Edwards and T.V. Ramakrishnan, 1995). 14. Polymerization and pressure-induced amorphization of [symbol] and [symbol] (with A. Govindaraj, H.N. Aiyer and R. Seshadri, 1995). 15. Phase transformations of mesoporous zirconia (with Neeraj, 1998) -- III. Transition metal oxides: superconductivity, charge-ordering, electronic phase separation and multiferroic. 16. Electron microscopy of ferroelectric bismuth oxides containing perovskite layers (with J.L. Hutchison and J.S. Anderson, 1997). 17. Crystal chemistry and magnetic properties of layered metal oxides possessing the [symbol] or related structures (with P. Ganguly, 1984). 18. Chemical insights into high-temperature superconductors (1991). 19. Structure-property relationships in superconducting cuprates (with A.K. Ganguli, 1995). 20. Stripes and superconductivity in cuprates -- is there a connection? (with N. Kumar, 2003). 21. Charge, spin, and orbital ordering in the perovskite manganates, [symbol] (Ln = rare earth, A = Ca or Sr)(2000). 22. Electron-hole asymmetry in the rare-earth manganates: a comparative study of the hole- and electron-doped materials (with K. Vijaya Sarathy [and others], 2001). 23. Electronic phase separation and other novel phenomena and properties exhibited by mixed-valent rare-earth manganites and related materials (with V.B. Shenoy, 2008). 24. New routes to multiferroics (with C.R. Serrao, 2007). 25. Glassy behaviour of the ferromagnetic and the non-magnetic insulating states of the rare earth manganates [symbol] (Ln = Nd or Gd) (with Asish K. Kundu and P. Nordblad, 2006) -- IV. Open-framework and hybrid network materials. 26. Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities (with S. Natarajan [and others], 2001). 27. Transformations of molecules and secondary building units to materials: a bottom-up approach (with R. Murugavel [and others], 2004). 28. Organically templated metal sulfates, selenites and selenates (with J.N. Behera and M. Dan, 2006). 29. Coordination polymers and hybrid networks of different dimensionalities formed by metal sulfites (with K.P. Rao, 2007). 30. Hybrid structures formed by lead 1,3-cyc1ohexanedicarboxylates (with A. Thirumurugan and R.A. Sanguramath, 2008). 31. Synthesis and magnetic properties of an amine-templated Fe[symbol] (S = 2) Sulfate with a distorted Kagome structure (with J.N. Behera, 2006). 32. Synthesis structure and magnetic properties of an amine-template Mn[symbol] (S = 5/2) sulfate with the Kagome structure (with J.N. Behera, 2007). 33. Structural diversity and chemical trends in hybrid inorganic-organic framework materials (with A.K. Cheetham and R.K. Feller, 2006). 34. An organic channel structure formed by the supramolecular assembly of trithiocyanuric acid and 4,4'-bipyridyl (with A. Ranganathan, V.R. Pedireddi and S. Chatterjee, 1999). 35. Hydrothermal synthesis of organic channel structures: 1:1 hydrogen-bonded adducts of melamine with cyanuric and trithiocyanuric acids (with A. Ranganathan and V.R. Pedireddi, 1999) -- V. Nanomaterials. 36. Size-dependent chemistry: properties of nanocrystals (with G.U. Kulkarni, P.J. Thomas and P.P. Edwards, 2002). 37. Magic nuc1earity giant clusters of metal nanocrystals formed by mesoscale self-assembly (with P.J. Thomas and G.U. Kulkarni, 2001). 38. Carbon nanotubes from organometallic precursors (with A. Govindaraj, 2002). 39. Inorganic nanotubes (with M. Nath, 2003). 40. Synthesis of inorganic nanomaterials (with S.R.C. Vivekchand, K. Biswas and A. Govindaraj, 2007). 41. Water-solubilized aminoc1ay-metal nanopartic1e composites and their novel properties (with K.K.R Datta and M. Eswaramoorthy, 2007). 42. Growth kinetics of ZnO nanorods: capping-dependent mechanism and other interesting features (with K. Biswas and B. Das, 2008). 43. Dip-pen lithography with magnetic [symbol] nanocrystals (with G. Gundiah [and others], 2004). 44. The liquid-liquid interface as a medium to generate nanocrystalline films of inorganic materials (with K.P. Kalyanikutty, 2008). 45. Use of fluorous chemistry in the solubilization and phase transfer of nanocrystals, nanorods and nanotubes (with R. Voggu, K. Biswas and A. Govindaraj, 2006). 46. Ferromagnetism as a universal feature of nanoparticles of the otherwise nonmagnetic oxides (with A. Sundaresan [and others], 2006). 47. MnO and NiO nano particles: synthesis and magnetic properties (with M. Ghosh, K. Biswas and A. Sundaresan, 2006). 48. Assembling covalently linked nanocrystals and nanotubes through click chemistry (with R. Voggu, P. Suguna and S. Chandrasekaran, 2007). 49. A calorimetric investigation of the assembly of gold nanorods to form necklaces (with N. Varghese, S.R.C. Vivekchand and A. Govindaraj, 2008). 50. New method of purification of carbon nanotubes based on hydrogen treatment (with S.R.C. Vivekchand, A Govindaraj and Md. Motin Seikh, 2004). 51. Nitrogen- and boron-doped double-walled carbon nanotubes (with L.S. Panchakarla and A. Govindaraj, 2007). 52. Nature and electronic properties of Y-junctions in CNTs and N-doped CNTs obtained by the pyrolysis of organometallic precursors (with F.L. Deepak [and others], 2005). 53. Hydrogel-assisted synthesis of nanotubes and nanorods of CdS, ZnS and CuS, showing some evidence for oriented attachment (with K.P. Kalyanikutty, M. Nikhila and U. Maitra, 2006). 54. Synthesis, structure and properties of homogeneous BC[symbol]N nanotubes (with K. Raidongia [and others], 2008). 55. Functionalization and solubilization of BN nanotubes by interaction with Lewis bases (with S. Pal, S.R.C. Vivekchand and A. Govindaraj, 2007). 56. GaS and GaSe nanowalls and their transformation to [symbol] and GaN nanowalls (with U.K. Gautam, S.R.C. Vivekchand and A. Govindaraj, 2005). 57. Nanorotors using asymmetric inorganic nanorods in an optical trap (with M. Khan, A.K. Sood and F.L. Deepak, 2006). 58. Mechanical properties of inorganic nanowire reinforced polymer-matrix composites (with S.R.C. Vivekchand and U. Ramamurthy, 2006). 59. Ammonia sensors based on metal oxide nanostructures (with C.S. Rout, M. Hegde and A. Govindaraj, 2007). 60. Study of graphenes prepared by different methods: characterization, properties and solubilization (with K. Subramanyam, S.R.C. Vivekchand and A. Govindaraj, 2008).
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Some highlights of materials chemistry. 1. Novel materials, materials design and synthetic strategies: recent advances and new directions (1999). 2. Chemical synthesis of solid inorganic materials (1993). 3. Superstructures, ordered defects and nonstoichiometry in metal oxides of perovskite and related structures (with J. Gopalakrishnan and K. Vidyasagar, 1984). 4. Intergrowth structures: the chemistry of solid-solid interfaces (with J.M. Thomas, 1985). 5. Virtues of marginally metallic oxides (1996). 6. Experimental and theoretical electronic charge densities in molecular crystals (with G.U. Kulkarni and R.S. Gopalan, 2000). 7. Solid state properties of fullerenes and related materials (with R. Seshadri, 1994) -- II. Phase transitions in solids. 8. Phase transitions and the chemistry of solids (1984). 9. Pm3m-Fm3m transformations of alkali halides: solid solutions of CsCI with KCI, CsBr and SrCI[symbol] (with M. Natarajan and K.J. Rao, 1970). 10. Mechanism of crystal structure transformations: pt. 3. Factors affecting the anatase -- rutile transformation (with S.R. Yoganarasimhan, 1962). 11. Computer simulation of transformation in solids (with S. Yashonath, 1987). 12. A Monte Carlo study of the condensed phases of biphenyl (with A. Chakrabarti and S. Yashonath, 1995). 13. The metal-nonmetal transition: a global perspective (with P.P. Edwards and T.V. Ramakrishnan, 1995). 14. Polymerization and pressure-induced amorphization of [symbol] and [symbol] (with A. Govindaraj, H.N. Aiyer and R. Seshadri, 1995). 15. Phase transformations of mesoporous zirconia (with Neeraj, 1998) -- III. Transition metal oxides: superconductivity, charge-ordering, electronic phase separation and multiferroic. 16. Electron microscopy of ferroelectric bismuth oxides containing perovskite layers (with J.L. Hutchison and J.S. Anderson, 1997). 17. Crystal chemistry and magnetic properties of layered metal oxides possessing the [symbol] or related structures (with P. Ganguly, 1984). 18. Chemical insights into high-temperature superconductors (1991). 19. Structure-property relationships in superconducting cuprates (with A.K. Ganguli, 1995). 20. Stripes and superconductivity in cuprates -- is there a connection? (with N. Kumar, 2003). 21. Charge, spin, and orbital ordering in the perovskite manganates, [symbol] (Ln = rare earth, A = Ca or Sr)(2000). 22. Electron-hole asymmetry in the rare-earth manganates: a comparative study of the hole- and electron-doped materials (with K. Vijaya Sarathy [and others], 2001). 23. Electronic phase separation and other novel phenomena and properties exhibited by mixed-valent rare-earth manganites and related materials (with V.B. Shenoy, 2008). 24. New routes to multiferroics (with C.R. Serrao, 2007). 25. Glassy behaviour of the ferromagnetic and the non-magnetic insulating states of the rare earth manganates [symbol] (Ln = Nd or Gd) (with Asish K. Kundu and P. Nordblad, 2006) -- IV. Open-framework and hybrid network materials. 26. Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities (with S. Natarajan [and others], 2001). 27. Transformations of molecules and secondary building units to materials: a bottom-up approach (with R. Murugavel [and others], 2004). 28. Organically templated metal sulfates, selenites and selenates (with J.N. Behera and M. Dan, 2006). 29. Coordination polymers and hybrid networks of different dimensionalities formed by metal sulfites (with K.P. Rao, 2007). 30. Hybrid structures formed by lead 1,3-cyc1ohexanedicarboxylates (with A. Thirumurugan and R.A. Sanguramath, 2008). 31. Synthesis and magnetic properties of an amine-templated Fe[symbol] (S = 2) Sulfate with a distorted Kagome structure (with J.N. Behera, 2006). 32. Synthesis structure and magnetic properties of an amine-template Mn[symbol] (S = 5/2) sulfate with the Kagome structure (with J.N. Behera, 2007). 33. Structural diversity and chemical trends in hybrid inorganic-organic framework materials (with A.K. Cheetham and R.K. Feller, 2006). 34. An organic channel structure formed by the supramolecular assembly of trithiocyanuric acid and 4,4'-bipyridyl (with A. Ranganathan, V.R. Pedireddi and S. Chatterjee, 1999). 35. Hydrothermal synthesis of organic channel structures: 1:1 hydrogen-bonded adducts of melamine with cyanuric and trithiocyanuric acids (with A. Ranganathan and V.R. Pedireddi, 1999) -- V. Nanomaterials. 36. Size-dependent chemistry: properties of nanocrystals (with G.U. Kulkarni, P.J. Thomas and P.P. Edwards, 2002). 37. Magic nuc1earity giant clusters of metal nanocrystals formed by mesoscale self-assembly (with P.J. Thomas and G.U. Kulkarni, 2001). 38. Carbon nanotubes from organometallic precursors (with A. Govindaraj, 2002). 39. Inorganic nanotubes (with M. Nath, 2003). 40. Synthesis of inorganic nanomaterials (with S.R.C. Vivekchand, K. Biswas and A. Govindaraj, 2007). 41. Water-solubilized aminoc1ay-metal nanopartic1e composites and their novel properties (with K.K.R Datta and M. Eswaramoorthy, 2007). 42. Growth kinetics of ZnO nanorods: capping-dependent mechanism and other interesting features (with K. Biswas and B. Das, 2008). 43. Dip-pen lithography with magnetic [symbol] nanocrystals (with G. Gundiah [and others], 2004). 44. The liquid-liquid interface as a medium to generate nanocrystalline films of inorganic materials (with K.P. Kalyanikutty, 2008). 45. Use of fluorous chemistry in the solubilization and phase transfer of nanocrystals, nanorods and nanotubes (with R. Voggu, K. Biswas and A. Govindaraj, 2006). 46. Ferromagnetism as a universal feature of nanoparticles of the otherwise nonmagnetic oxides (with A. Sundaresan [and others], 2006). 47. MnO and NiO nano particles: synthesis and magnetic properties (with M. Ghosh, K. Biswas and A. Sundaresan, 2006). 48. Assembling covalently linked nanocrystals and nanotubes through click chemistry (with R. Voggu, P. Suguna and S. Chandrasekaran, 2007). 49. A calorimetric investigation of the assembly of gold nanorods to form necklaces (with N. Varghese, S.R.C. Vivekchand and A. Govindaraj, 2008). 50. New method of purification of carbon nanotubes based on hydrogen treatment (with S.R.C. Vivekchand, A Govindaraj and Md. Motin Seikh, 2004). 51. Nitrogen- and boron-doped double-walled carbon nanotubes (with L.S. Panchakarla and A. Govindaraj, 2007). 52. Nature and electronic properties of Y-junctions in CNTs and N-doped CNTs obtained by the pyrolysis of organometallic precursors (with F.L. Deepak [and others], 2005). 53. Hydrogel-assisted synthesis of nanotubes and nanorods of CdS, ZnS and CuS, showing some evidence for oriented attachment (with K.P. Kalyanikutty, M. Nikhila and U. Maitra, 2006). 54. Synthesis, structure and properties of homogeneous BC[symbol]N nanotubes (with K. Raidongia [and others], 2008). 55. Functionalization and solubilization of BN nanotubes by interaction with Lewis bases (with S. Pal, S.R.C. Vivekchand and A. Govindaraj, 2007). 56. GaS and GaSe nanowalls and their transformation to [symbol] and GaN nanowalls (with U.K. Gautam, S.R.C. Vivekchand and A. Govindaraj, 2005). 57. Nanorotors using asymmetric inorganic nanorods in an optical trap (with M. Khan, A.K. Sood and F.L. Deepak, 2006). 58. Mechanical properties of inorganic nanowire reinforced polymer-matrix composites (with S.R.C. Vivekchand and U. Ramamurthy, 2006). 59. Ammonia sensors based on metal oxide nanostructures (with C.S. Rout, M. Hegde and A. Govindaraj, 2007). 60. Study of graphenes prepared by different methods: characterization, properties and solubilization (with K. Subramanyam, S.R.C. Vivekchand and A. 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spelling	Rao, C. N. R. (Chintamani Nagesa Ramachandra), 1934- https://id.oclc.org/worldcat/entity/E39PBJyCHbVXvXm8gJvtb7mTpP http://id.loc.gov/authorities/names/n50053943 Trends in chemistry of materials : selected research papers of C.N.R. Rao / C.N.R. Rao. Singapore ; Hackensack, N.J. : World Scientific Pub. Co., ©2008. 1 online resource (xxi, 610 pages) : illustrations. text txt rdacontent computer c rdamedia online resource cr rdacarrier IISc centenary lecture series ; v. 1 Includes bibliographical references. I. Some highlights of materials chemistry. 1. Novel materials, materials design and synthetic strategies: recent advances and new directions (1999). 2. Chemical synthesis of solid inorganic materials (1993). 3. Superstructures, ordered defects and nonstoichiometry in metal oxides of perovskite and related structures (with J. Gopalakrishnan and K. Vidyasagar, 1984). 4. Intergrowth structures: the chemistry of solid-solid interfaces (with J.M. Thomas, 1985). 5. Virtues of marginally metallic oxides (1996). 6. Experimental and theoretical electronic charge densities in molecular crystals (with G.U. Kulkarni and R.S. Gopalan, 2000). 7. Solid state properties of fullerenes and related materials (with R. Seshadri, 1994) -- II. Phase transitions in solids. 8. Phase transitions and the chemistry of solids (1984). 9. Pm3m-Fm3m transformations of alkali halides: solid solutions of CsCI with KCI, CsBr and SrCI[symbol] (with M. Natarajan and K.J. Rao, 1970). 10. Mechanism of crystal structure transformations: pt. 3. Factors affecting the anatase -- rutile transformation (with S.R. Yoganarasimhan, 1962). 11. Computer simulation of transformation in solids (with S. Yashonath, 1987). 12. A Monte Carlo study of the condensed phases of biphenyl (with A. Chakrabarti and S. Yashonath, 1995). 13. The metal-nonmetal transition: a global perspective (with P.P. Edwards and T.V. Ramakrishnan, 1995). 14. Polymerization and pressure-induced amorphization of [symbol] and [symbol] (with A. Govindaraj, H.N. Aiyer and R. Seshadri, 1995). 15. Phase transformations of mesoporous zirconia (with Neeraj, 1998) -- III. Transition metal oxides: superconductivity, charge-ordering, electronic phase separation and multiferroic. 16. Electron microscopy of ferroelectric bismuth oxides containing perovskite layers (with J.L. Hutchison and J.S. Anderson, 1997). 17. Crystal chemistry and magnetic properties of layered metal oxides possessing the [symbol] or related structures (with P. Ganguly, 1984). 18. Chemical insights into high-temperature superconductors (1991). 19. Structure-property relationships in superconducting cuprates (with A.K. Ganguli, 1995). 20. Stripes and superconductivity in cuprates -- is there a connection? (with N. Kumar, 2003). 21. Charge, spin, and orbital ordering in the perovskite manganates, [symbol] (Ln = rare earth, A = Ca or Sr)(2000). 22. Electron-hole asymmetry in the rare-earth manganates: a comparative study of the hole- and electron-doped materials (with K. Vijaya Sarathy [and others], 2001). 23. Electronic phase separation and other novel phenomena and properties exhibited by mixed-valent rare-earth manganites and related materials (with V.B. Shenoy, 2008). 24. New routes to multiferroics (with C.R. Serrao, 2007). 25. Glassy behaviour of the ferromagnetic and the non-magnetic insulating states of the rare earth manganates [symbol] (Ln = Nd or Gd) (with Asish K. Kundu and P. Nordblad, 2006) -- IV. Open-framework and hybrid network materials. 26. Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities (with S. Natarajan [and others], 2001). 27. Transformations of molecules and secondary building units to materials: a bottom-up approach (with R. Murugavel [and others], 2004). 28. Organically templated metal sulfates, selenites and selenates (with J.N. Behera and M. Dan, 2006). 29. Coordination polymers and hybrid networks of different dimensionalities formed by metal sulfites (with K.P. Rao, 2007). 30. Hybrid structures formed by lead 1,3-cyc1ohexanedicarboxylates (with A. Thirumurugan and R.A. Sanguramath, 2008). 31. Synthesis and magnetic properties of an amine-templated Fe[symbol] (S = 2) Sulfate with a distorted Kagome structure (with J.N. Behera, 2006). 32. Synthesis structure and magnetic properties of an amine-template Mn[symbol] (S = 5/2) sulfate with the Kagome structure (with J.N. Behera, 2007). 33. Structural diversity and chemical trends in hybrid inorganic-organic framework materials (with A.K. Cheetham and R.K. Feller, 2006). 34. An organic channel structure formed by the supramolecular assembly of trithiocyanuric acid and 4,4'-bipyridyl (with A. Ranganathan, V.R. Pedireddi and S. Chatterjee, 1999). 35. Hydrothermal synthesis of organic channel structures: 1:1 hydrogen-bonded adducts of melamine with cyanuric and trithiocyanuric acids (with A. Ranganathan and V.R. Pedireddi, 1999) -- V. Nanomaterials. 36. Size-dependent chemistry: properties of nanocrystals (with G.U. Kulkarni, P.J. Thomas and P.P. Edwards, 2002). 37. Magic nuc1earity giant clusters of metal nanocrystals formed by mesoscale self-assembly (with P.J. Thomas and G.U. Kulkarni, 2001). 38. Carbon nanotubes from organometallic precursors (with A. Govindaraj, 2002). 39. Inorganic nanotubes (with M. Nath, 2003). 40. Synthesis of inorganic nanomaterials (with S.R.C. Vivekchand, K. Biswas and A. Govindaraj, 2007). 41. Water-solubilized aminoc1ay-metal nanopartic1e composites and their novel properties (with K.K.R Datta and M. Eswaramoorthy, 2007). 42. Growth kinetics of ZnO nanorods: capping-dependent mechanism and other interesting features (with K. Biswas and B. Das, 2008). 43. Dip-pen lithography with magnetic [symbol] nanocrystals (with G. Gundiah [and others], 2004). 44. The liquid-liquid interface as a medium to generate nanocrystalline films of inorganic materials (with K.P. Kalyanikutty, 2008). 45. Use of fluorous chemistry in the solubilization and phase transfer of nanocrystals, nanorods and nanotubes (with R. Voggu, K. Biswas and A. Govindaraj, 2006). 46. Ferromagnetism as a universal feature of nanoparticles of the otherwise nonmagnetic oxides (with A. Sundaresan [and others], 2006). 47. MnO and NiO nano particles: synthesis and magnetic properties (with M. Ghosh, K. Biswas and A. Sundaresan, 2006). 48. Assembling covalently linked nanocrystals and nanotubes through click chemistry (with R. Voggu, P. Suguna and S. Chandrasekaran, 2007). 49. A calorimetric investigation of the assembly of gold nanorods to form necklaces (with N. Varghese, S.R.C. Vivekchand and A. Govindaraj, 2008). 50. New method of purification of carbon nanotubes based on hydrogen treatment (with S.R.C. Vivekchand, A Govindaraj and Md. Motin Seikh, 2004). 51. Nitrogen- and boron-doped double-walled carbon nanotubes (with L.S. Panchakarla and A. Govindaraj, 2007). 52. Nature and electronic properties of Y-junctions in CNTs and N-doped CNTs obtained by the pyrolysis of organometallic precursors (with F.L. Deepak [and others], 2005). 53. Hydrogel-assisted synthesis of nanotubes and nanorods of CdS, ZnS and CuS, showing some evidence for oriented attachment (with K.P. Kalyanikutty, M. Nikhila and U. Maitra, 2006). 54. Synthesis, structure and properties of homogeneous BC[symbol]N nanotubes (with K. Raidongia [and others], 2008). 55. Functionalization and solubilization of BN nanotubes by interaction with Lewis bases (with S. Pal, S.R.C. Vivekchand and A. Govindaraj, 2007). 56. GaS and GaSe nanowalls and their transformation to [symbol] and GaN nanowalls (with U.K. Gautam, S.R.C. Vivekchand and A. Govindaraj, 2005). 57. Nanorotors using asymmetric inorganic nanorods in an optical trap (with M. Khan, A.K. Sood and F.L. Deepak, 2006). 58. Mechanical properties of inorganic nanowire reinforced polymer-matrix composites (with S.R.C. Vivekchand and U. Ramamurthy, 2006). 59. Ammonia sensors based on metal oxide nanostructures (with C.S. Rout, M. Hegde and A. Govindaraj, 2007). 60. Study of graphenes prepared by different methods: characterization, properties and solubilization (with K. Subramanyam, S.R.C. Vivekchand and A. Govindaraj, 2008). In this collection, the author has compiled a set of his papers representing some of the highlights of materials chemistry. It features a section on oxidic materials, which includes high-temperature superconductivity, colossal magnetoresistance, electronic phase separation and multiferroics. The author has also included novel methods for making gallium nitride, boron nitride and such materials, by using precursors and the urea decomposition route. Moreover, there is a section dealing with open-framework and hybrid materials of which the latter has a great future since one can make use of the rigidity of inorganic structures and the functionality and flexibility of the organic residues to design materials with novel properties. Solid state chemistry. http://id.loc.gov/authorities/subjects/sh85124636 Materials Analysis. http://id.loc.gov/authorities/subjects/sh85082066 Materials science. http://id.loc.gov/authorities/subjects/sh85082094 Chimie de l'état solide. Matériaux Analyse. Science des matériaux. SCIENCE Chemistry Physical & Theoretical. bisacsh Materials Analysis fast Materials science fast Solid state chemistry fast Indian Institute of Science, Bangalore. http://id.loc.gov/authorities/names/n79114240 Jawaharlal Nehru Centre for Advanced Scientific Research. http://id.loc.gov/authorities/names/n89283053 World Scientific (Firm) http://id.loc.gov/authorities/names/no2001005546 has work: Trends in chemistry of materials (Text) https://id.oclc.org/worldcat/entity/E39PCH4tVkTVhpVHC7HFhqPb3P https://id.oclc.org/worldcat/ontology/hasWork Print version: 9789812833839 IISc centenary lecture series ; v. 1. http://id.loc.gov/authorities/names/no2008165194 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=521189 Volltext
spellingShingle	Rao, C. N. R. (Chintamani Nagesa Ramachandra), 1934- Trends in chemistry of materials : selected research papers of C.N.R. Rao / IISc centenary lecture series ; I. Some highlights of materials chemistry. 1. Novel materials, materials design and synthetic strategies: recent advances and new directions (1999). 2. Chemical synthesis of solid inorganic materials (1993). 3. Superstructures, ordered defects and nonstoichiometry in metal oxides of perovskite and related structures (with J. Gopalakrishnan and K. Vidyasagar, 1984). 4. Intergrowth structures: the chemistry of solid-solid interfaces (with J.M. Thomas, 1985). 5. Virtues of marginally metallic oxides (1996). 6. Experimental and theoretical electronic charge densities in molecular crystals (with G.U. Kulkarni and R.S. Gopalan, 2000). 7. Solid state properties of fullerenes and related materials (with R. Seshadri, 1994) -- II. Phase transitions in solids. 8. Phase transitions and the chemistry of solids (1984). 9. Pm3m-Fm3m transformations of alkali halides: solid solutions of CsCI with KCI, CsBr and SrCI[symbol] (with M. Natarajan and K.J. Rao, 1970). 10. Mechanism of crystal structure transformations: pt. 3. Factors affecting the anatase -- rutile transformation (with S.R. Yoganarasimhan, 1962). 11. Computer simulation of transformation in solids (with S. Yashonath, 1987). 12. A Monte Carlo study of the condensed phases of biphenyl (with A. Chakrabarti and S. Yashonath, 1995). 13. The metal-nonmetal transition: a global perspective (with P.P. Edwards and T.V. Ramakrishnan, 1995). 14. Polymerization and pressure-induced amorphization of [symbol] and [symbol] (with A. Govindaraj, H.N. Aiyer and R. Seshadri, 1995). 15. Phase transformations of mesoporous zirconia (with Neeraj, 1998) -- III. Transition metal oxides: superconductivity, charge-ordering, electronic phase separation and multiferroic. 16. Electron microscopy of ferroelectric bismuth oxides containing perovskite layers (with J.L. Hutchison and J.S. Anderson, 1997). 17. Crystal chemistry and magnetic properties of layered metal oxides possessing the [symbol] or related structures (with P. Ganguly, 1984). 18. Chemical insights into high-temperature superconductors (1991). 19. Structure-property relationships in superconducting cuprates (with A.K. Ganguli, 1995). 20. Stripes and superconductivity in cuprates -- is there a connection? (with N. Kumar, 2003). 21. Charge, spin, and orbital ordering in the perovskite manganates, [symbol] (Ln = rare earth, A = Ca or Sr)(2000). 22. Electron-hole asymmetry in the rare-earth manganates: a comparative study of the hole- and electron-doped materials (with K. Vijaya Sarathy [and others], 2001). 23. Electronic phase separation and other novel phenomena and properties exhibited by mixed-valent rare-earth manganites and related materials (with V.B. Shenoy, 2008). 24. New routes to multiferroics (with C.R. Serrao, 2007). 25. Glassy behaviour of the ferromagnetic and the non-magnetic insulating states of the rare earth manganates [symbol] (Ln = Nd or Gd) (with Asish K. Kundu and P. Nordblad, 2006) -- IV. Open-framework and hybrid network materials. 26. Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities (with S. Natarajan [and others], 2001). 27. Transformations of molecules and secondary building units to materials: a bottom-up approach (with R. Murugavel [and others], 2004). 28. Organically templated metal sulfates, selenites and selenates (with J.N. Behera and M. Dan, 2006). 29. Coordination polymers and hybrid networks of different dimensionalities formed by metal sulfites (with K.P. Rao, 2007). 30. Hybrid structures formed by lead 1,3-cyc1ohexanedicarboxylates (with A. Thirumurugan and R.A. Sanguramath, 2008). 31. Synthesis and magnetic properties of an amine-templated Fe[symbol] (S = 2) Sulfate with a distorted Kagome structure (with J.N. Behera, 2006). 32. Synthesis structure and magnetic properties of an amine-template Mn[symbol] (S = 5/2) sulfate with the Kagome structure (with J.N. Behera, 2007). 33. Structural diversity and chemical trends in hybrid inorganic-organic framework materials (with A.K. Cheetham and R.K. Feller, 2006). 34. An organic channel structure formed by the supramolecular assembly of trithiocyanuric acid and 4,4'-bipyridyl (with A. Ranganathan, V.R. Pedireddi and S. Chatterjee, 1999). 35. Hydrothermal synthesis of organic channel structures: 1:1 hydrogen-bonded adducts of melamine with cyanuric and trithiocyanuric acids (with A. Ranganathan and V.R. Pedireddi, 1999) -- V. Nanomaterials. 36. Size-dependent chemistry: properties of nanocrystals (with G.U. Kulkarni, P.J. Thomas and P.P. Edwards, 2002). 37. Magic nuc1earity giant clusters of metal nanocrystals formed by mesoscale self-assembly (with P.J. Thomas and G.U. Kulkarni, 2001). 38. Carbon nanotubes from organometallic precursors (with A. Govindaraj, 2002). 39. Inorganic nanotubes (with M. Nath, 2003). 40. Synthesis of inorganic nanomaterials (with S.R.C. Vivekchand, K. Biswas and A. Govindaraj, 2007). 41. Water-solubilized aminoc1ay-metal nanopartic1e composites and their novel properties (with K.K.R Datta and M. Eswaramoorthy, 2007). 42. Growth kinetics of ZnO nanorods: capping-dependent mechanism and other interesting features (with K. Biswas and B. Das, 2008). 43. Dip-pen lithography with magnetic [symbol] nanocrystals (with G. Gundiah [and others], 2004). 44. The liquid-liquid interface as a medium to generate nanocrystalline films of inorganic materials (with K.P. Kalyanikutty, 2008). 45. Use of fluorous chemistry in the solubilization and phase transfer of nanocrystals, nanorods and nanotubes (with R. Voggu, K. Biswas and A. Govindaraj, 2006). 46. Ferromagnetism as a universal feature of nanoparticles of the otherwise nonmagnetic oxides (with A. Sundaresan [and others], 2006). 47. MnO and NiO nano particles: synthesis and magnetic properties (with M. Ghosh, K. Biswas and A. Sundaresan, 2006). 48. Assembling covalently linked nanocrystals and nanotubes through click chemistry (with R. Voggu, P. Suguna and S. Chandrasekaran, 2007). 49. A calorimetric investigation of the assembly of gold nanorods to form necklaces (with N. Varghese, S.R.C. Vivekchand and A. Govindaraj, 2008). 50. New method of purification of carbon nanotubes based on hydrogen treatment (with S.R.C. Vivekchand, A Govindaraj and Md. Motin Seikh, 2004). 51. Nitrogen- and boron-doped double-walled carbon nanotubes (with L.S. Panchakarla and A. Govindaraj, 2007). 52. Nature and electronic properties of Y-junctions in CNTs and N-doped CNTs obtained by the pyrolysis of organometallic precursors (with F.L. Deepak [and others], 2005). 53. Hydrogel-assisted synthesis of nanotubes and nanorods of CdS, ZnS and CuS, showing some evidence for oriented attachment (with K.P. Kalyanikutty, M. Nikhila and U. Maitra, 2006). 54. Synthesis, structure and properties of homogeneous BC[symbol]N nanotubes (with K. Raidongia [and others], 2008). 55. Functionalization and solubilization of BN nanotubes by interaction with Lewis bases (with S. Pal, S.R.C. Vivekchand and A. Govindaraj, 2007). 56. GaS and GaSe nanowalls and their transformation to [symbol] and GaN nanowalls (with U.K. Gautam, S.R.C. Vivekchand and A. Govindaraj, 2005). 57. Nanorotors using asymmetric inorganic nanorods in an optical trap (with M. Khan, A.K. Sood and F.L. Deepak, 2006). 58. Mechanical properties of inorganic nanowire reinforced polymer-matrix composites (with S.R.C. Vivekchand and U. Ramamurthy, 2006). 59. Ammonia sensors based on metal oxide nanostructures (with C.S. Rout, M. Hegde and A. Govindaraj, 2007). 60. Study of graphenes prepared by different methods: characterization, properties and solubilization (with K. Subramanyam, S.R.C. Vivekchand and A. Govindaraj, 2008). Solid state chemistry. http://id.loc.gov/authorities/subjects/sh85124636 Materials Analysis. http://id.loc.gov/authorities/subjects/sh85082066 Materials science. http://id.loc.gov/authorities/subjects/sh85082094 Chimie de l'état solide. Matériaux Analyse. Science des matériaux. SCIENCE Chemistry Physical & Theoretical. bisacsh Materials Analysis fast Materials science fast Solid state chemistry fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85124636 http://id.loc.gov/authorities/subjects/sh85082066 http://id.loc.gov/authorities/subjects/sh85082094
title	Trends in chemistry of materials : selected research papers of C.N.R. Rao /
title_auth	Trends in chemistry of materials : selected research papers of C.N.R. Rao /
title_exact_search	Trends in chemistry of materials : selected research papers of C.N.R. Rao /
title_full	Trends in chemistry of materials : selected research papers of C.N.R. Rao / C.N.R. Rao.
title_fullStr	Trends in chemistry of materials : selected research papers of C.N.R. Rao / C.N.R. Rao.
title_full_unstemmed	Trends in chemistry of materials : selected research papers of C.N.R. Rao / C.N.R. Rao.
title_short	Trends in chemistry of materials :
title_sort	trends in chemistry of materials selected research papers of c n r rao
title_sub	selected research papers of C.N.R. Rao /
topic	Solid state chemistry. http://id.loc.gov/authorities/subjects/sh85124636 Materials Analysis. http://id.loc.gov/authorities/subjects/sh85082066 Materials science. http://id.loc.gov/authorities/subjects/sh85082094 Chimie de l'état solide. Matériaux Analyse. Science des matériaux. SCIENCE Chemistry Physical & Theoretical. bisacsh Materials Analysis fast Materials science fast Solid state chemistry fast
topic_facet	Solid state chemistry. Materials Analysis. Materials science. Chimie de l'état solide. Matériaux Analyse. Science des matériaux. SCIENCE Chemistry Physical & Theoretical. Materials Analysis Materials science Solid state chemistry
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=521189
work_keys_str_mv	AT raocnr trendsinchemistryofmaterialsselectedresearchpapersofcnrrao AT indianinstituteofsciencebangalore trendsinchemistryofmaterialsselectedresearchpapersofcnrrao AT jawaharlalnehrucentreforadvancedscientificresearch trendsinchemistryofmaterialsselectedresearchpapersofcnrrao AT worldscientificfirm trendsinchemistryofmaterialsselectedresearchpapersofcnrrao

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