Professor Anthony R West
FRSE, FRSC, FInstP, FIMMM
School of Chemical, Materials and Biological Engineering
Professor of Electroceramics and Solid State Chemistry
+44 114 222 5501
Full contact details
School of Chemical, Materials and Biological Engineering
Sir Robert Hadfield Building
Mappin Street
91直播
S1 3JD
- Profile
-
Tony West obtained his BSc degree in Chemistry at University College Swansea and his PhD at the University of Aberdeen, where he worked with Professor F. P. Glasser on silicate chemistry and was appointed as a lecturer in 1971. He developed a lifetime interest in the then-emerging field of solid-state chemistry with a special interest in the synthesis of new oxide materials, their crystal structures and electrical properties. Awarded a DSc from Aberdeen in 1984, he became Professor of Chemistry in 1989 before moving to the University of 91直播's Department of Materials Science and Engineering as Head of Department, from 1999 until 2007.
Tony was founding editor of the Journal of Materials Chemistry and established the Materials Chemistry Forum, now the Materials Chemistry Division of the Royal Society of Chemistry. He organised the First International Conference on Materials Chemistry, MCI, in Aberdeen, 1993, and co-organised the first Materials Discussion, MDI, in Bordeaux, 1998. He also served as President of the Inorganic Chemistry Division of IUPAC, 2004鈥2007.
Tony is a Fellow of the Royal Society of Chemistry, the Institute of Physics, the Institute of Materials, Minerals and Mining, and the Royal Society of Edinburgh. He has received several awards over the years, including an Industrial Award in Solid State Chemistry from the RSC (1996), the Griffiths Medal and Prize from the IOM3 (2008), the Epsilon de Oro Award from the Spanish Society of Glass and Ceramics (2007) and the Chemical Record Lectureship from the Chemical Societies of Japan (2009). He was awarded the 2013 John B. Goodenough Award in Materials Chemistry by the RSC, a lifetime award which recognises exceptional and sustained contributions to the field of materials chemistry.
He has authored >450 research publications and best-selling books on solid-state chemistry.
- Research interests
-
I make new oxide materials, determine their crystal structures and measure their electrical properties, which may include ionic conductivity, semiconductivity and resistive switching.
I work on materials development for lithium batteries to understand the factors that lead to high capacities and long lifetimes and especially, that include the oxygen anion as a redox-active contributor to battery performance. I have long-standing interest in developing the impedance spectroscopy technique to understand the relation between structure, composition and electrical properties of electroceramics and their applications as electrodes and electrolytes in fuel cells, capacitors and sensors.
Key research areas:
- Synthesis and crystal structure determination of new oxide materials
- Use of phase diagrams to determine mechanisms of doping and solid solution formation and to study polymorphism of inorganic and organic (amino acid-based) materials
- Electrical property measurements, especially using impedance spectroscopy. to characterise ceramics and measure their conductivity and permittivity
- Electrochemical testing of materials for possible use as anodes or cathodes in lithium-ion batteries
Key projects:
- Development of new materials for lithium battery applications, including spinels such as LiCoMnO4, which exhibit a 5V redox couple Co3+/4+ on lithium (de) intercalation
- synthesis and characterisation of new rare earth ion-doped barium titanate, BaTiO3, which has a room temperature permittivity of ~20,000 when doped with La (In collaboration with Dr Derek Sinclair)
- Synthesis and characterisation of new solid electrolytes (mainly Li+ and 0= ion conductors)
- Understanding the structure-property correlations that control the performance of zinc oxide varistors and barium titanate positive temperature coefficient of resistance devices
- Synthesis of novel oxides with tetragonal tungsten bronze structure with relaxor ferroelectric character for possible capacitor and microwave dielectric applications
- Synthesis of high purity electroceramics by sol-gel methods (in collaboration with Univ. Jaume I, Spain)
- Development of novel memristive phenomena for memory and switching applications.
- Publications
-
Books
- Solid state chemistry and its applications, second edition, student edition. Wiley.
- Solid state chemistry and its applications. John Wiley & Sons.
Journal articles
- . Acta Materialia, 276, 120003-120003.
- . Journal of Materials Chemistry A.
- . Journal of the American Ceramic Society.
- . Communications Physics, 5(1).
- . Physical Chemistry Chemical Physics.
- . Physical Chemistry Chemical Physics, 23(38), 22133-22146.
- . APL Materials, 9(10), 109201.
- . Open Ceramics, 6.
- . Phys Chem Chem Phys.
- . Journal of the European Ceramic Society.
- . Journal of the European Ceramic Society, 40(15), 5602-5611.
- . Scientific Reports, 9(1).
- . Journal of Materials Chemistry C, 7(44), 13976-13985.
- . Journal of the Australian Ceramic Society, 55(2), 305-314.
- . ECS Meeting Abstracts, MA2019-01(4), 480-480.
- . Journal of the American Ceramic Society.
- . Journal of the European Ceramic Society.
- . Inorganic Chemistry.
- . Solid State Ionics, 327, 64-70.
- . Journal of the American Ceramic Society, 102(1), 251-259.
- . Journal of the European Ceramic Society.
- . Journal of The Electrochemical Society, 165(11), F966-F975.
- . Inorganic Chemistry, 57(1), 64-71.
- . Journal of The Electrochemical Society, 165(5), A793-A801.
- . Journal of Materials Chemistry C(38), 10077-10086.
- . Inorg Chem, 56(12), 7081-7088.
- . Inorganic Chemistry, 56(6), 3657-3662.
- . Journal of Materials Chemistry C, 4(21), 4770-4777.
- . Applied Physics Letters, 108.
- . Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 472(2185).
- . Journal of the American Ceramic Society, 99(7), 2327-2333.
- . Dalton Trans., 45(1), 315-323.
- . Journal of Materials Chemistry A, 4, 1408-1413.
- . Journal of Materials Chemistry A, 4(4), 1298-1305.
- . J. Mater. Chem. A, 3(46), 23213-23219.
- . Journal of the European Ceramic Society, 35(8), 2283-2293.
- . ChemInform, 46(23), no-no.
- . Chemistry of Materials, 27(5), 1552-1558.
- . Journal of Solid State Chemistry, 225, 438-449.
- . J. Mater. Chem. C, 2(39), 8398-8411.
- . Physical Chemistry Chemical Physics, 16(36), 19408-19408.
- . Journal of the American Ceramic Society.
- . Physical Chemistry Chemical Physics, 15(48), 20943-20950.
- . Applied Physics Letters, 103(26).
- . Acta Crystallographica Section A Foundations of Crystallography, 69(a1), s439-s439.
- . Advanced Functional Materials, 23(31), 3925-3928.
- . ChemInform, 44(20), no-no.
- . Journal of Materials Chemistry C, 1(13), 2426-2432.
- . CrystEngComm, 15(10), 1853-1859.
- . Inorg Chem, 52(4), 1729-1736.
- . Journal of the American Ceramic Society.
- . Journal of the American Ceramic Society.
- . Physica Status Solidi (A) Applications and Materials Science, 209(11), 2267-2272.
- . Inorg Chem, 51(15), 8073-8082.
- . Journal of the American Ceramic Society.
- . Solid State Ionics, 226, 41-52.
- . Journal of the Electrochemical Society, 159(4).
- . Chemistry of Materials, 24(11), 2127-2132.
- . Journal of the European Ceramic Society, 32(3), 671-680.
- . Journal of the American Ceramic Society, 95(1), 296-302.
- Synthesis, crystallization and characterization of diastereomeric salts formed by ephedrine and malic acid in water. Chemical Engineering Science.
- . CHEM MATER, 23(15), 3556-3563.
- . CRYST GROWTH DES, 11(8), 3366-3374.
- . J APPL PHYS, 109(8).
- . J APPL PHYS, 109(7).
- . ChemInform, 42(7).
- Phase equilibria and electrical properties of pyrochlore and zirconolite phases in the Bi2O3-ZnO-Ta2O5 system. Journal of the European Ceramic Society.
- . Solid State Ionics, 203(1), 33-36.
- . Journal of the American Ceramic Society, 94(9), 2951-2962.
- . J MATER CHEM, 21(34), 12894-12900.
- Synthesis, structure and electrical properties of Cu3.21Ti1.16Nb2.63O12 and the CuO x -TiO2-Nb2O5 pseudoternary phase diagram. Journal of Solid State Chemistry.
- . J MATER CHEM, 21(32), 12096-12102.
- Enhanced Conductivity and Nonlinear Voltage-Current Characteristics of Nonstoichiometric BaTiO3 Ceramics. Journal of the American Ceramic Society.
- . Journal of Applied Physics, 109(2).
- . Journal of Materials Chemistry, 21(8), 2715-2722.
- . J ELECTROCERAM, 25(2-4), 116-121.
- . APPL PHYS LETT, 97(6).
- . CRYST GROWTH DES, 10(7), 3141-3148.
- . ChemInform, 41(24), no-no.
- . J SOLID STATE CHEM, 183(3), 624-630.
- . J AM CERAM SOC, 93(2), 500-505.
- . CRYST GROWTH DES, 10(2), 988-994.
- Piezoelectric and ferroelectric properties of new Pb9Ce2Ti12O36 and lead-free Ba2NdTi2Nb3O15 ceramics. Journal of Electroceramics, 1-6.
- Synthesis, structural characterization and Li+ ion conductivity of a new vanado-molybdate phase, LiMg3VMo2O12. Journal of Solid State Chemistry.
- . J MATER CHEM, 20(25), 5335-5344.
- . J MATER CHEM, 20(11), 2082-2084.
- . J AM CERAM SOC, 93(1), 295-300.
- . J EUR CERAM SOC, 29(15), 3249-3257.
- . J APPL PHYS, 106(10).
- . PURE APPL CHEM, 81(9), 1707-1717.
- . P R SOC A, 465(2106), 1829-1841.
- . APPL PHYS LETT, 94(21).
- . Ceramic Transactions, 204, 145-153.
- . J MATER CHEM, 19(29), 5201-5206.
- . J MATER CHEM, 19(33), 5916-5919.
- . J MATER CHEM, 19(10), 1443-1448.
- . J APPL PHYS, 104(10).
- . J AM CERAM SOC, 91(9), 3101-3104.
- . MATER RES BULL, 43(8-9), 1949-1956.
- . J AM CERAM SOC, 91(7), 2364-2366.
- . ChemInform, 39(25).
- . APPL PHYS LETT, 92(18).
- . POWDER DIFFR, 23(1), 56-59.
- . J SOLID STATE CHEM, 181(2), 334-339.
- . Journal of Materials Processing Technology, 195(1-3), 171-177.
- . AIP Conference Proceedings, 989, 3.
- . J ELECTROCHEM SOC, 155(4), A282-A291.
- . J AM CERAM SOC, 91(1), 144-150.
- . JOURNAL OF POWER SOURCES, 174(2), 1078-1081.
- . APPL PHYS LETT, 91(13).
- . J AM CERAM SOC, 90(9), 2900-2904.
- . J ELECTROCERAM, 18(3-4), 277-282.
- . J SOLID STATE CHEM, 180(6), 1894-1901.
- . J APPL PHYS, 101(10).
- . APPL PHYS LETT, 90(14).
- . Journal of Materials Science, 42(7), 2492-2498.
- . J AM CERAM SOC, 90(3), 980-982.
- . J ELECTROCHEM SOC, 154(8), A760-A769.
- . SOLID STATE SCI, 8(12), 1422-1429.
- . APPL PHYS LETT, 89(21).
- . J AM CERAM SOC, 89(10), 3129-3135.
- . APPL PHYS LETT, 89(12).
- . J AM CERAM SOC, 89(9), 2833-2838.
- . ECS Meeting Abstracts, MA2006-02(29), 1342-1342.
- . APPL PHYS LETT, 88(23).
- . J AM CERAM SOC, 89(3), 1042-1046.
- . PHYS REV B, 73(9).
- The PTCR effect of donor-doped barium titanate: Origin of the surface states at the grain-boundary. Ceramic Transactions, 174, 131-138.
- . J MATER CHEM, 16(30), 3114-3119.
- . J EUR CERAM SOC, 26(12), 2307-2311.
- . J MATER CHEM, 16(17), 1626-1633.
- . J AM CERAM SOC, 89(1), 336-339.
- . Micron, 37(5), 412-419.
- . Chem Rec, 6(4), 206-216.
- . ChemInform, 36(51).
- . J APPL PHYS, 98(9).
- . SOLID STATE SCI, 7(10), 1149-1156.
- . SOLID STATE IONICS, 176(23-24), 1941-1947.
- . J APPL PHYS, 97(8).
- . POWDER DIFFR, 20(1), 43-46.
- . J POWER SOURCES, 141(1), 156-158.
- . J AM CERAM SOC, 88(2), 396-398.
- . CHEM MATER, 17(2), 345-348.
- Oxygen content and electrochemical activity of LiCoMnO4-delta. J MATER CHEM, 15(41), 4435-4440.
- . J MATER CHEM, 15(34), 3501-3506.
- . ELECTROCHEM SOLID ST, 8(8), A392-A395.
- . J MATER CHEM, 15(7), 798-802.
- . MATER RES BULL, 39(14-15), 2229-2240.
- Insulating properties of lanthanum-doped BaTiO3 ceramics prepared by low-temperature synthesis. J AM CERAM SOC, 87(11), 2132-2134.
- . Dalton Trans(19), 3042-3047.
- . J ELECTROCHEM SOC, 151(5), A672-A681.
- A strategy for analysis and modelling of impedance spectroscopy data of electroceramics: Doped lanthanum gallate. J ELECTROCERAM, 10(3), 165-177.
- . ChemInform, 34(1).
- AC impedance characterization for microwave dielectric material BaEu2Ti4O12. ACTA PHYS-CHIM SIN, 19(2), 109-114.
- Synthesis and characterization of La4BaCu5O13+delta and La4BaCu5-xMxO13+delta: M=Fe, Co, Ni, Zn. J SOLID STATE CHEM, 170(1), 1-8.
- . CHEM MATER, 14(10), 4359-4363.
- Giant barrier layer capacitance effects in CaCU3Ti4O12 ceramics. ADV MATER, 14(18), 1321-+.
- Crystal structure of the perovskite-related phase of approximate composition LaLi1/3Ti2/3O3. SOLID STATE SCI, 4(9), 1163-1166.
- AC impedance and gas concentration cell measurements for Ba12Y4.67Ti8O35. ACTA PHYS-CHIM SIN, 18(7), 617-623.
- . J SOLID STATE CHEM, 166(2), 311-319.
- . APPL PHYS LETT, 80(12), 2153-2155.
- . J MATER CHEM, 12(9), 2609-2611.
- High oxide ion conductivity in Bi2MoO6 oxidation catalyst. J MATER CHEM, 12(1), 17-19.
- . J SOLID STATE CHEM, 162(2), 379-388.
- Electrode-contact spreading resistance phenomena in doped-lanthanum gallate ceramics. J ELECTROCERAM, 7(3), 179-188.
- . J ELECTROCHEM SOC, 148(7), A730-A736.
- Effect of annealing treatments on positive temperature coefficient of resistance properties of barium titanate ceramics and a new model for the positive temperature coefficient of resistance effect. J APPL PHYS, 90(1), 394-403.
- Characterization of lanthanum-doped barium titanate ceramics using impedance spectroscopy. J AM CERAM SOC, 84(3), 531-538.
- . CHEM MATER, 13(2), 415-419.
- Alternative explanation for the origin of the resistivity anomaly in La-doped BaTiO3. J AM CERAM SOC, 84(2), 474-476.
- . ChemInform, 32(1), no-no.
- A novel enhancement of ionic conductivity in the cation-deficient apatite La-9.33(SiO4)(6)O-2. J MATER CHEM, 11(8), 1978-1979.
- Charge compensation mechanisms in La-doped BaTiO3. J ELECTROCERAM, 6(3), 219-232.
- On possible Cu doping of Bi2WO6. J MATER CHEM, 11(4), 1096-1099.
- Reversible spinel to rock salt transition in LiCoMnO delta by oxygen (de) intercalation. J MATER CHEM, 11(2), 249-250.
- Sol-gel synthesis-and characterization of Pb(Mg1/3Nb2/3)O-3 (PMN) ferroelectric perovskite. CHEM MATER, 12(2), 400-405.
- . Chemistry of Materials, 12(8), 2134-2142.
- LiSb3O8: the first tetrarutile structure. CHEM COMMUN(19), 1951-1952.
- La24Li18.67Ti5.33O56: a novel columnar intergrowth structure of perovskite and distorted, cation-excess zinc blende. CHEM COMMUN(15), 1437-1438.
- A review of cation-ordered rock salt superstructure oxides. J MATER CHEM, 10(10), 2219-2230.
- . ChemInform, 30(4).
- Electrical and structural characteristics of lanthanum-doped barium titanate ceramics. J APPL PHYS, 86(11), 6355-6366.
- . Journal of Power Sources, 81-82, 67-72.
- . Physica C: Superconductivity, 321(1-2), 12-28.
- New oxygen-deficient perovskite series, Ca2Mn2-xNbxOy : 0 < x < 1.2. J MATER CHEM, 9(7), 1579-1583.
- Doping mechanism and permittivity correlations in Nd-doped BaTiO3. J ELECTROCERAM, 3(3), 233-238.
- . Journal of the European Ceramic Society, 19(8), 1665-1673.
- . Solid State Ionics, 120(1-4), 33-41.
- . Solid State Ionics, 118(3-4), 229-239.
- . Journal of Materials Science, 34(5), 917-924.
- . Journal of Solid State Chemistry, 143(1), 62-68.
- . Journal of Materials Chemistry, 9(6), 1337-1346.
- Solid state chemistry: Novel syntheses and new materials chemistry discussion no. 1 ICMCB, University of Bordeaux, France, 24-26 September 1998: Editorial. Journal of Materials Chemistry, 9(1).
- 5 V lithium cathodes based on spinel solid solutions Li2Co1+XMn3-XO8 :-1 <= X <= 1. ELECTROCHIM ACTA, 45(1-2), 315-327.
- . Electrochemical and Solid-State Letters, 1(5), 212-212.
- . Journal of Materials Chemistry, 8(1), 139-140.
- . Journal of Materials Chemistry, 8(4), 837-839.
- . Journal of Materials Chemistry, 8(11), 2515-2520.
- . Chemistry of Materials, 10(11), 3266-3268.
- . Physica C: Superconductivity, 304(3-4), 265-276.
- . Journal of Materials Chemistry, 8(5), 1273-1280.
- . Chemistry of Materials, 10(2), 665-673.
- . ChemInform, 28(52).
- . Journal of Electroceramics, 1(2), 125-132.
- . Powder Diffraction, 12(4), 245-247.
2 Fe1.4 Nb0.6 Or . Key Engineering Materials(136 PART 2), 1397-1400.
Nonstoichiometry and electrical properties of the perovskite Ca- . Chemistry of Materials, 9(12), 3206-3214.
- . Solid State Ionics, 104(1-2), 1-11.
- . Journal of Materials Chemistry, 7(10), 2103-2106.
- . Journal of Solid State Chemistry, 131(1), 115-120.
- . Journal of Solid State Chemistry, 128(1), 97-101.
- . Journal of Electroceramics, 1(1), 65-71.
- . ChemInform, 27(47).
- . Journal of Materials Chemistry, 6(9), 1533-1533.
- The crystal structures of the potassium oxyfluorides, K3SeO4F and K3PO3F2. Anales de Quimica, 92(6), 358-361.
0.5-3x RE0.5+x TiO3 : RE=Pr,Nd, x鈮0.05, from powder neutron diffraction data. Materials Science Forum, 228-231(PART 2), 701-704.
The crystal structures of Li+ conducting phases Li- . Superconductor Science and Technology, 9(11), 1009-1013.
- . Journal of Solid State Chemistry, 126(1), 105-107.
- . Solid State Ionics, 91(1-2), 33-43.
- . Journal of Solid State Chemistry, 124(2), 214-219.
- . Solid State Ionics, 86-88, 719-724.
- . Solid State Ionics, 86-88, 235-239.
- . Journal of the Chemical Society, Dalton Transactions(12), 2497-2497.
- . Journal of the American Ceramic Society, 79(6), 1605-1610.
- . Physica C: Superconductivity, 261(1-2), 105-116.
- . Physica C: Superconductivity and its Applications, 260(1-2), 137-142.
- . Journal of Materials Chemistry, 6(3), 331-331.
- . Journal of the European Ceramic Society, 16(6), 637-643.
- . Journal of Materials Chemistry, 6(12), 1939-1939.
- . ChemInform, 26(9).
- . ChemInform, 26(47).
- . Journal of Materials Chemistry, 5(7), 1043-1043.
- . Journal of Materials Chemistry, 5(11), 1931-1931.
- . Radiation Effects and Defects in Solids, 134(1-4), 219-222.
- . Journal of Materials Chemistry, 5(5), 765-765.
- . Physica C: Superconductivity, 250(1-2), 82-86.
- . Physica C: Superconductivity, 250(1-2), 87-92.
- . Solid State Ionics, 76(3-4), 309-314.
- . Solid State Ionics, 76(3-4), 215-220.
- . Journal of Materials Chemistry, 5(11), 1807-1807.
- . Physica C: Superconductivity, 241(1-2), 191-197.
- . Journal of the American Ceramic Society, 78(1), 241-244.
- . Journal of Materials Science, 30(11), 2743-2746.
- . ChemInform, 25(21).
- . ChemInform, 25(35).
- . ChemInform, 25(35).
- . ChemInform, 25(29).
- . ChemInform, 25(48).
- . Journal of Materials Chemistry, 4(8), 1303-1303.
- . Journal of Materials Chemistry, 4(4), 525-525.
- Journal of Materials Chemistry: Editorial. Journal of Materials Chemistry, 4(1).
- . Journal of Materials Chemistry, 4(9), 1441-1441.
- . Physica C: Superconductivity, 235-240, 503-504.
- . Materials Research Bulletin, 29(11), 1175-1182.
- . Physica C: Superconductivity, 232(1-2), 63-68.
- . Journal of Solid State Chemistry, 112(1), 70-72.
- . Journal of the American Ceramic Society, 77(8), 2199-2202.
- . Physica C: Superconductivity, 227(3-4), 336-342.
- . Journal of Solid State Chemistry, 110(2), 243-249.
- . Physica C: Superconductivity, 225(1-2), 173-180.
- . Journal of Solid State Chemistry, 109(1), 53-59.
- . Physica C: Superconductivity, 220(1-2), 187-194.
- . Journal of Solid State Chemistry, 108(1), 29-36.
- . Journal of Materials Chemistry, 4(3), 457-457.
- . Journal of Materials Chemistry, 4(8), 1307-1307.
- . Journal of Materials Science, 29(23), 6061-6068.
- Materials chemistry: Present status. Journal of Materials Chemistry, 3(1).
- . Solid State Ionics, 62(3-4), 217-223.
- . Solid State Ionics, 62(3-4), 193-198.
- . Solid State Ionics, 59(3-4), 257-262.
- . Physica C: Superconductivity, 205(3-4), 323-328.
- Characterisation of PTCR Barium Titanate by Impedance Spectroscopy. British Ceramic Proceedings, 'Special Ceramics 9', 49, 223-227.
- . Solid State Ionics, 58(3-4), 351-358.
- . Radiation Effects and Defects in Solids, 124(3), 341-347.
- . Journal of Solid State Chemistry, 98(1), 33-39.
- . Materials Research Bulletin, 27(3), 277-285.
- . Materials Research Bulletin, 27(2), 141-145.
- . Journal of Magnetism and Magnetic Materials, 104-107, 395-396.
- . Powder Diffraction, 7(1), 49-51.
- . Powder Diffraction, 7(3), 176-178.
- . Japanese Journal of Applied Physics, 31(Part 1, No. 5A), 1424-1425.
- . Journal of Materials Research, 7(1), 43-47.
- . Journal of Materials Chemistry, 2(5), 579-579.
- . ChemInform, 22(38).
- . Journal of Solid State Chemistry, 93(2), 436-442.
- . Solid State Ionics, 45(3-4), 239-244.
- . Journal of Materials Chemistry, 1(4), 595-595.
- . Journal of Materials Chemistry, 1(1), 149-149.
- . Journal of Materials Chemistry, 1(1), 91-91.
- . ChemInform, 21(26).
- . ChemInform, 21(26).
- . ChemInform, 21(8).
- . Powder Diffraction, 5(3), 137-143.
- . Acta Crystallographica Section C Crystal Structure Communications, 46(3), 363-365.
- . Japanese Journal of Applied Physics, 29(Part 2, No. 11), L2002-L2005.
- . Journal of Solid State Chemistry, 88(2), 564-570.
- . Solid State Ionics, 40-41, 896-899.
- . Solid State Ionics, 40-41, 293-299.
- . Solid State Ionics, 40-41, 220-223.
- . Solid State Communications, 75(7), 551-554.
- . Solid State Ionics, 40-41, 13-17.
- Electode contacts for alternating current impedance measurements on lithium silicate glasses. Physics and Chemistry of Glasses, 31(3), 103-108.
- . Physica C: Superconductivity, 168(3-4), 346-350.
- . Radiation Effects and Defects in Solids, 114(1-2), 175-187.
- . Journal of Solid State Chemistry, 86(1), 129-130.
- . Journal of the American Ceramic Society, 73(3), 729-732.
- . Advanced Materials, 2(3), 132-138.
- . Solid State Ionics, 37(4), 295-298.
- . Zeitschrift f眉r Kristallographie - Crystalline Materials, 190(3-4).
- . Journal of Applied Physics, 67(9), 5589-5591.
- . Berichte der Bunsengesellschaft f眉r physikalische Chemie, 93(11), 1235-1241.
- . Chemistry of Materials, 1(2), 237-240.
- . Solid State Ionics, 37(1), 73-78.
- . Materials Research Bulletin, 24(11), 1385-1389.
- . Ferroelectrics, 99(1), 195-201.
- . Journal of Applied Physics, 66(8), 3850-3856.
- . Solid State Ionics, 36(1-2), 109-112.
- . Superconductor Science and Technology, 2(3), 181-184.
- . Journal of Materials Science, 24(9), 3160-3163.
- . Journal of Solid State Chemistry, 81(2), 257-270.
- . Superconductor Science and Technology, 2(2), 140-144.
- . Journal of Applied Electrochemistry, 19(3), 410-412.
- . Solid State Ionics, 34(3), 149-155.
- , 535-543.
- . Acta Crystallographica Section B Structural Science, 45(5), 457-462.
- . Zeitschrift f锟絩 anorganische und allgemeine Chemie, 573(1), 223-230.
2 O-Ga2 O3 -SiO2 . British ceramic. Transactions and journal, 88(1), 17-20.
Phase relations in the system Li- . Journal of Solid State Chemistry, 78(1), 170-177.
- . Superconductor Science and Technology, 1(4), 169-172.
12 Al14 O33 for high oxide ion conductivity. British ceramic. Transactions and journal, 87(6), 191-194.
Ceramic processing of Ca- . Solid State Ionics, 28-30, 214-219.
- . Solid State Ionics, 28-30, 681-686.
- . Solid State Ionics, 28-30, 338-343.
- . Journal of Solid State Chemistry, 75(2), 390-396.
- . Journal of Materials Science Letters, 7(8), 821-822.
- . Materials Research Bulletin, 23(7), 1033-1038.
- . Journal of Solid State Chemistry, 74(2), 385-392.
- . Solid State Ionics, 26(4), 265-278.
- . Nature, 332(6164), 525-526.
- . Journal of Materials Science Letters, 7(8), 823-824.
- . Journal of Power Sources, 24(2), 157-164.
- PHASE EQUILIBRIA AND COMPOUND FORMATION IN THE SYSTEM, LiGaSiO//4-SiO//2.. British ceramic. Transactions and journal, 86(5), 161-165.
- . Journal of Solid State Chemistry, 71(2), 380-383.
- . Journal of Solid State Chemistry, 71(1), 103-108.
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Chapters
- , The Periodic Table II (pp. 121-152). Springer International Publishing
- , High Conductivity Solid Ionic Conductors (pp. 201-222). WORLD SCIENTIFIC
- , Internal Friction and Ultrasonic Attenuation in Solids (pp. 383-387). Elsevier
- , International Symposium on Solid Ionic and Ionic-Electronic Conductors (pp. 729-734). Elsevier
Conference proceedings papers
- . Energy Reports, Vol. 6(Supplement 5) (pp 232-241). Southampton, UK, 9 July 2019 - 10 July 2019.
- . Energy Reports, Vol. 6(Supplement 5) (pp 142-147). Southampton, UK, 9 July 2019 - 10 July 2019.
- . 3RD INTERNATIONAL CONGRESS ON CERAMICS (ICC3): ADVANCES IN ELECTRO CERAMICS, Vol. 18
- . IOP Conference Series: Materials Science and Engineering, Vol. 8 (pp 012018-012018)
- Octahedral tilting and ferroelectric order in tetragonal tungsten bronze-like dielectrics. 2007 SIXTEENTH IEEE INTERNATIONAL SYMPOSIUM ON THE APPLICATIONS OF FERROELECTRICS, VOLS 1 AND 2 (pp 266-268)
- . Acta Crystallographica Section A Foundations of Crystallography, Vol. 62(a1) (pp s106-s106)
- . EMAG-NANO 2005: Imaging, Analysis and Fabrication on the Nanoscale, Vol. 26 (pp 65-68)
- . JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, Vol. 25(12) (pp 3069-3073)
- . JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, Vol. 25(12) (pp 2471-2475)
- . JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, Vol. 24(6) (pp 1439-1448)
- Preparation and characterization of compositions based on PbO-MgO-Nb2O5 using the sol-gel method. JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY, Vol. 26(1-3) (pp 1061-1065)
- . Solid State Ionics
- The crystal chemistry of BiFeO3-based ferroelectrics. ISAF 2002: PROCEEDINGS OF THE 13TH IEEE INTERNATIONAL SYMPOSIUM ON APPLICATIONS OF FERROELECTRICS (pp 65-68)
- Electrical characterisation of oxide ion conducting Perovskites and apatites. SOLID STATE IONICS: TRENDS IN THE NEW MILLENNIUM, PROCEEDINGS (pp 487-499)
- Doping mechanisms and electrical properties of La-doped BaTiO3 ceramics. INTERNATIONAL JOURNAL OF INORGANIC MATERIALS, Vol. 3(8) (pp 1205-1210)
- Electrical properties of the oxygen-deficient perovskites, Ca2Mn2-xNbxO gamma: 0 <= x <= 1.2, with Mn valence varying from+2.0 to+4.0. JOURNAL OF MATERIALS CHEMISTRY, Vol. 11(1) (pp 153-159)
- The system Li3SbO4-CuO. SOLID-STATE CHEMISTRY OF INORGANIC MATERIALS, Vol. 453 (pp 159-164)
3 SbO4 -CuO. Materials Research Society Symposium - Proceedings, Vol. 453 (pp 159-164)
System Li- . Journal of the American Ceramic Society, Vol. 79(6) (pp 1633-1641)
- DETERMINATION OF CHARACTERISTIC FREQUENCIES ASSOCIATED WITH ION HOPPING IN SOLID ELECTROLYTES.. Electrochemical Society Extended Abstracts, Vol. 84-2 (pp 232)
- DETERMINATION OF CHARACTERISTIC FREQUENCIES ASSOCIATED WITH ION HOPPING IN SOLID ELECTROLYTES. JOURNAL OF THE ELECTROCHEMICAL SOCIETY, Vol. 131(8) (pp C293-C293)
- . Materials Science Forum, Vol. 228-231 (pp 701-704)
Reports
- Crystal structure determination of a complex pharmaceutical compound using synchrotron powder X-ray diffraction
Other
Preprints