Cyril Clifford Addison
Bibliography
Addison 1
Cyril Clifford Addison—Bibliography
Surface Chemistry
The following papers are published under the general title 'The Properties of Freshly-Formed Surfaces'.
1.
The application of the vibrating jet technique to surface tension measurements on mobile liquids. (Addison).,
J. Chem. Soc., 1943, 535.
2.
The rate of adsorption of isoamyl alcohol at the air-water surface. (Addison), J. Chem. Soc., 1944, 252.
3.
The mechanism of adsorption with particular reference to the sec-octyl alcohol-water system. (Addison), J.
Chem. Soc., 1944, 477.
4.
The influence of chain length and structure on the static and dynamic surface tensions of aqueous alcoholic
solutions. (Addison), J. Chem. Soc., 1945, 98.
5.
A velocity-time equation for adsorption to dynamic surfaces. (Addison), J. Chem. Soc., 1945, 354.
6.
The influence of temperature and concentration on the dynamic and static surface tensions of aqueous decoic
acid solutions. (Addison), J. Chem. Soc., 1948, 579.
7.
The application of the vertical plate technique to the study of soluble films at air-liquid and liquid-liquid
interfaces. (Addison and Hutchinson), J. Chem. Soc., 1948, 930.
8.
The expansion of soluble films of decoic acid at the air-water interface. (Addison, Bagot and McCauley), J.
Chem. Soc., 1948, 937.
9.
The expansion of soluble films of sodium dodecyl sulphate at air-water and toluene-water interfaces (Addison
and Hutchinson), J. Chem. Soc., 1938, 943.
10.
A new contracting jet technique for the study of soluble films at liquid surfaces. (Addison and Elliott), J.
Chem. Soc., 1949, 2789.
11.
Factors influencing surface activity and adsorption rates in aqueous decyl alcohol solutions. (Addison and
Hutchinson), J. Chem. Soc., 1949, 3387.
12.
An experimental study of the desorption process with particular reference to aqueous decyl alcohol solutions.
(Addison and Hutchinson), J. Chem. Soc., 1949, 3396.
13.
The compressibility of soluble films of decyl and other alcohols. (Addison and Hutchinson), J. Chem. Soc.,
1949, 3404.
14.
Further studies on the influence of surface expansion of soluble films of long-chain compounds. (Addison and
Hutchinson), J. Chem. Soc., 1949, 3406.
15.
The application of the contracting liquid-jet technique to the measurement of tensions at liquid-liquid
interfaces. (Addison and Elliott), J. Chem. Soc., 1950, 3090.
16.
Dynamic tensions of sodium dodecyl sulphate solutions at the surface of liquid
contracting jets. (Addison and Elliott), J. Chem. Soc., 1950, 3097.
17.
The measurements of surface and interfacial tensions of solutions, employing stationary waves on a vertical jet.
(Addison and Elliott), J. Chem. Soc., 1950, 3105.
18.
Dynamic surface potentials and the adsorption process: Molecular orientation in soluble films of decyl alcohol.
(Addison and Litherland), J. Chem. Soc., 1953, 1143.
19.
Dynamic surface potentials and the desorption process: the spreading of decyl alcohol films. (Addison and
Litherland), J. Chem. Soc., 1953, 1150.
20.
An examination of the use of dynamic surface potentials in the study of adsorption rates. (Addison and
Litherland), J. Chem. Soc., 1953, 1155.
21.
The influence of chain length and structure on the surface potentials of aqueous solutions of alcohols.
(Addison and Litherland), J. Chem. Soc., 1953, 1159.
The following papers are published under the general title 'The Properties of Detergent Solutions':
22.
Surface and interfacial tensions of aqueous solutions of alkyl sodium sulphates. (Powney and Addison), Trans.
Faraday Soc., 1937, 33, 1243.
23.
Influence of added electrolytes on the surface activity of the higher alkyl sodium sulphates. (Powney and
Addison), Trans. Faraday Soc., 1937, 33, 1253.
24.
Influence of hydrogen-ion concentration on interfacial tensions of soap solutions., (Powney and Addison),
Trans. Faraday Soc., 1938, 34, 356.
25.
Surface activity and critical concentrations of aqueous solutions of saturated soaps under suppressed
hydrolysis. (Powney and Addison), Trans. Faraday Soc., 1938, 34, 372.
26.
Some two-component systems of fatty acids in organic liquids. (Powney and Addison), Trans. Faraday Soc.,
1938, 34, 625.
27.
Interfacial activity of long-chain fatty acids and their xylene solutions. (Powney and Addison), Trans. Faraday
Soc., 1938, 34, 628.
28.
The adsorption of alkali by wool. (Powney and Addison), Trans. Faraday Soc., 1938, 34, 1439.
Addison 2
The following papers are published under the general title 'Physico-chemical studies on the application of
insecticides to sheep fleece':
29.
Introduction to the series. (Addison and Furmidge), J. Sci. Food and Agric., 1952, 315.
30.
The action of dilute solutions of cationic wetting agents on fleece., (Addison and Furmidge), J. Sci. Food and
Agric., 1952, 320.
31.
The action of micellar solutions of cationic wetting agents on fleece. (Addison and Furmidge), J. Sci. Food and
Agric., 1952, 330.
32.
The influence of physical properties of fleece on the inactivation of cationic wetting agents. (Addison and
Furmidge), J. Sci. Food and Agric., 1954, 139.
33.
The influence of carbon chain length and halide ion of cationic wetting agents on their reaction with natural
fleece. (Addison and Furmidge), J. Sci. Food and Agric., 1954, 212.
34.
Successive treatment of solutions of cationic wetting agents with natural fleece under non-equilibrium
conditions. (Addison and Furmidge), J. Sci. Food and Agric., 1954, 440.
35.
The influence of cationic wetting agent-fleece reactions on the stability of emulsions and suspensions.
(Addison and Furmidge), J. Sci. Food and Agric., 1956, 281.
36.
Reactions between natural fleece and anionic wetting agents. (Addison and Furmidge), J. Sci. Food and Agric.,
1956, 552.
37.
The uptake of oil phase from anionic emulsions by natural fleece. (Addison and Furmidge), J. Sci. Food and
Agric., 1956, 556.
38.
The influence of molecular structure of surface active agents on their behaviour in the presence of natural
fleece. (Addison, Ford and Furmidge), Proceedings of Congress on Surface Activity, Paris, 1954.
Other papers on surface chemistry
39.
An automatic device for recording drop numbers in interfacial tension measurements. (Gibby and Addison), J.
Sci. Instr. Vol. 12, No. 6, 1935.
40.
Adsorption at the interface between two fluids. Part I. The adsorption of Methlene Blue, Methyl Orange,
Congo Red and Orange II at benzene-water and chlorobenzene-water interfaces. (Gibby and Addison), J. Chem. Soc.,
1936, 119.
41.
Adsorption at the interface between two fluids. Part II. The adsorption of five dyestuffs at a paraffin-water and
at an air-water interface. (Gibby and Addison), J. Chem. Soc., 1936, 1306.
42.
Breaks in interfacial tension curves. (Addison), Nature, 1939, 144, 249.
43.
Interfacial activity of short-chain isomers. (Addison). Nature, 1939, 144, 783.
44.
Some observations on the mechanism of separation of water from vesicants containing mustard gas., Ministry
of Supply Report S/Ra/1229, (1941).
45.
The behaviour of mustard gas-water emulsions at lead and varnished metal surfaces., Ministry of Supply
Report CDG/R/5, (1941).
46.
The influence of thiodiglycol on the behaviour of mustard gas-water emulsions at various surfaces., Ministry of
Supply Report CDG/R/5, (1942).
47.
The measurement of surface and interfacial tensions at fresh surfaces by the vibrating jet method. (Addison),
Phil. Mag., 1945, 36, 73.
48.
The time factor in surface tension measurement. (Addison), Nature, 1945, 156, 600.
49.
Surface tension and detergency. (Addison), Nature, 1947, 160, 467.
50.
Dynamic potentials of freshly-formed liquid surfaces. (Addison and Litherland), Nature, 1953, 171, 393.
51.
Critical concentrations of some alkyl pyridinium iodides in water and xylene, evaluated from solubility
measurements. (Addison and Furmidge), J. Chem. Soc., 1956, 3229.
Nitrogen Chemistry and Non-Aqueous Solvents
52.
Ionic reactions in liquid dinitrogen tetroxide. (Addison and Thompson), Nature, 1948, 162, 369.
53.
The liquid dinitrogen tetroxide solvent system: General Introduction. (Addison and Thompson), J. Chem. Soc.,
1949, S.211.
54.
Liquid and solid solutions of nitrosyl chloride in dinitrogen tetroxide. (Addison and Thompson), J. Chem.
Soc., 1949, S.218.
55.
The electrical conductivity of liquid dinitrogen tetroxide. (Addison , Allen, Bolton and Lewis), J. Chem. Soc.,
1951, 1289.
56.
The dielectric constant and refractive index of liquid dinitrogen tetroxide; the nature of solutions. (Addison,
Bolton and Lewis), J. Chem. Soc., 1951, 1294.
57.
The reaction of alkylammonium salts, with particular reference to solvolysis, and the formation of diethyl-N
nitrosoamine. (Addison, Conduit and Thompson), J. Chem. Soc., 1951, 1298.
58.
Thermal and conductometric studies of solutions of diethyl-N-nitrosoamine in liquid dinitrogen tetroxide.
(Addison, Conduit and Thompson), J. Chem. Soc., 1951, 1303.
Addison 3
59.
Products of reaction of zinc with liquid dinitrogen tetroxide. (Addison, Lewis and Thompson), J. Chem. Soc.,
1951, 2829.
60.
Rates, and possible mechanisms of reaction of zinc with liquid dinitrogen tetroxide. (Addison and Lewis), J.
Chem. Soc., 1951, 2833.
61.
Products, rates and possible mechanisms of reaction of zinc with liquid dinitrogen trioxide-tetroxide mixtures.
(Addison, Lewis and Thompson), J. Chem. Soc., 1951, 2838.
62.
The reaction of zinc with liquid nitrosyl chloride - dinitrogen tetroxide mixtures. (Addison and Lewis), J.
Chem. Soc., 1951, 2843.
63.
Compound formation and ionic species in solutions of diethyl nitrosamine in liquid dinitrogen tetroxide.
(Addison and Conduit), J. Chem. Soc., 1952, 1390.
64.
Amphoteric reactions involving zinc compounds. (Addison and Conduit), J. Chem. Soc., 1952, 1399.
65.
The ultraviolet absorption spectra of sodium hyponitrite and sodium -oxy-hyponitrite: the analysis of
mixtures with sodium nitrite and nitrate. (Addison, Gamlen and Thompson), J. Chem. Soc., 1952, 338.
66.
-oxyhyponitrite with dinitrogen tetroxide. (Addison,
Gamlen and Thompson), J. Chem. Soc., 1952, 346.
67.
The electrical conductivity of liquid dinitrogen tetroxide (more detailed measurements). (Addison and Lewis),
J. Chem. Soc., 1952, 4079.
68.
Factors related to the mechanism of metal-dinitrogen tetroxide reactions: the dipolar nature of dinitrogen
tetroxide in the liquid state. (Addison and Lewis), J. Chem. Soc., 1953, 1869.
69.
Reactions of sodium, calcium and zinc oxides with dinitrogen tetroxide and its thermal dissociation products.
(Addison and Lewis), J. Chem. Soc., 1953, 1874.
70.
The trinitrato-uranyl complex ion. (Addison and Hodge), Nature, 1953, 171, 569.
71.
The explosive decomposition of tri-ethylammonium nitrate-dinitrogen tetroxide mixtures. (Addison and
Hodge), Chem. and Ind., 1953, 1315.
72.
Nitrosonium coordination complexes. (Addison, Hodge and Sheldon), Chem. and Ind., 1953, 1338.
73.
Reactions of sodium carbonate and sodium hydroxide with dinitrogen tetroxide. (Addison and Lewis), J.
Chem. Soc., 1953, 1319.
74.
Thermal and conductometric studies on mixtures of dinitrogen tetroxide and nitromethane. (Addison, Hodge
and Lewis), J. Chem. Soc., 1953, 2631.
75.
Reactions with ethylammonium nitrate solutions: Ethylammonium tetranitrato-zincates. (Addison and Hodge),
J. Chem. Soc., 1954, 1138.
76.
The equilibrium between alkylammonium and nitrosonium tetranitratozincates. (Addison, Hodge and
Thompson), J. Chem. Soc., 1954, 1143.
77.
The Chemistry of the Nitrosyl Group. (Addison and Lewis), Quarterly Reviews of the Chemical Society, 1955,
9, 115.
78.
Molecular complexes of dinitrogen tetroxide. (Addison), Rec. Trav. Chim., 1956, 6, 626.
79.
Molecular addition compounds of dinitrogen tetroxide with nitrogen, oxygen and aromatic hydrocarbon
donors. (Addison and Sheldon), J. Chem. Soc., 1956, 1941.
80.
Oxidation of dialkyl sulphides and tri-substituted phosphines by dinitrogen tetroxide: molecular addition
compounds with dialkyl sulphoxides. (Addison and Sheldon), J. Chem. Soc., 1956, 2705.
81.
Double melting of molecular addition compounds of dinitrogen tetroxide with organic donors. (Addison and
Sheldon), J. Chem. Soc., 1956, 2709.
82.
The rates of reaction of copper, zinc and uranium with organic solvent-dinitrogen mixtures. (Addison, Sheldon
and Hodge), J. Chem. Soc., 1956, 3900.
83.
Vapour pressures of mixtures of dinitrogen tetroxide with donor and with non-donor organic solvents;
comparison with some nitrosyl chloride systems. (Addison and Sheldon), J. Chem. Soc., 1957, 1937.
84.
Gaseous copper nitrate. (Addison and Hathaway), Proc. Chem. Soc., 1957, 19.
85.
Recent Aspects of Inorganic Chemistry of Nitrogen. (Addison), Chem. Soc., Spec. Publ. No. 10, 1957, p.1.
86.
Addition compounds of dinitrogen tetroxide and their applications in preparative inorganic chemistry.
(Addison and Hathaway), Chem. Soc., Spec. Publ. No. 10, 1957, p.33.
87.
The ultraviolet absorption spectrum of dinitrogen tetroxide inorganic solvents. (Addison and Sheldon), J.
Chem. Soc., 1958, 3142.
88.
The volatility of anhydrous nitrato-iron complexes. (Addison, Hathway and Logan), Proc. Chem. Soc., 1958,
51.
89.
Volume changes on mixing organic liquids with dinitrogen tetroxide; comparison with sulphur dioxide systems.
(Addison and Smith), J. Chem. Soc., 1958, 3664.
90.
The vapour pressure of anhydrous copper nitrate, and its molecular weight in the vapour state. (Addison and
Hathaway), J. Chem. Soc., 1958, 3099.
91.
The infra-red spectra of transition metal nitrates. (Addison and Gatehouse), Chem. and Ind., 1958, 64.
92.
Explosive oxidation by dinitrogen tetroxide in the presence of indium. (Addison, Sheldon and Smith), Chem.
and Ind., 1958, 1004,
Addison 4
93.
Volatile copper nitrate, an unusual coordination complex. (Addison, Hathaway and Logan), J. Inorg. Nuclear
Chem., 1958, 8, 569.
94.
The Nitrogen Oxides. (Addison), Encyclopedia of Science and Technology, Mc.Graw-Hill, 1959.
95.
Non-aqueous solvents. (Addison), Proceedings of 17th I.U.P.A.C. Congress, Munich, 1959.
96.
Mass spectrum of gaseous copper nitrate. (Porter, Schoonmaker and Addison), Proc. Chem. Soc., 1959, 11.
97.
Thermal stability and solution properties of copper nitrate-dinitrogen tetroxide. (Addison and Hathaway), J.
Chem. Soc., 1960, 1468.
98.
Solution properties of anhydrous copper nitrate in ethyl acetate, methyl cyanide and nitromethane. (Addison,
Hathaway, Logan and Walker), J. Chem. Soc., 1960, 4308.
99.
The viscosity of dinitrogen tetroxide and its binary mixtures with organic solvents. (Addison and Smith), J.
Chem. Soc., 1960, 1783.
100.
Flussiges Distickstoff-tetroxydals Losungsmittel. (Addison), Angewandte Chemie, 1960, 72, 193.
101.
Use of Non-Aqueous Solvents in Inorganic Chemistry. (Addison), Roy. Inst. Chem. Monograph, 1960, No. 2.
102.
The infra-red spectra of anhydrous transition metal nitrates. (Addison and Gatehouse), J. Chem. Soc., 1960,
613.
103.
The structure of gaseous copper nitrate. (Bauer and Addison), Proc. Chem. Soc., 1960, 251.
104.
Reactions of uranium and some uranium compounds with nitrosyl chloride and with liquid nitrosyl chloridedinitrogen tetroxide mixtures. (Addison and Hodge), J. Chem. Soc., 1961, 2490.
105.
Nitratopentacarbonylmanganese(I). (Addison, Kilner and Wojcicki), Proc. Chem. Soc., 1961, 202.
106.
Basic beryllium nitrate. (Addison and Walker), Proc. Chem. Soc., 1961, 242.
107.
Nitratopentacarbonylmanganese(I). (Addison, Kilner and Wojcicki), J. Chem. Soc., 1961, 4839.
108.
Transition metal nitrites. (Addison, Johnson, Logan and Wojcicki), Proc. Chem. Soc., 1961, 306.
109.
The reaction of uranium with solutions of alkylammonium nitrates in dinitrogen tetroxide; some properties of
alkylammonium uranyl nitrates. (Addison and Hodge), J. Chem. Soc., 1961, 2987.
110.
Anhydrous Metal Nitrates. (Addison), Encyclopedia of Science and Technology, McGraw-Hill, 1962.
111.
The significance of NO2 free radicals in the reactions of dinitrogen tetroxide and metal nitrates. (Addison),
Advances in Chemistry Series, Vol. 36, 1962, p.131.
112.
Dichloronitrosyl nickel. (Addison and Johnson), Proc. Chem. Soc., 1962, 305.
113.
Transition metal nitrites and nitrosyl nitrites. (Addison and Sutton), Inorg. Chem., 1963, 2, 228.
114.
Anhydrous nitrates of Group II metals. (Addison and Walker), J. Chem. Soc., 1963, 1220.
115.
Anhydrous chromium(III) nitrate. (Addison and Chapman), J. Chem. Soc., 1964, 539.
116.
The structure and reactivity of titanium (IV) nitrate; an NO3 radical mechanism for oxidation by bidentate
nitrate groups. (Addison, Garner, Simpson, Sutton and Wallwork), Proc. Chem. Soc., 1964, 367.
117.
Anhydrous metal nitrates. (Addison and Logan), Advances in Inorg. and Radiochemistry, Vol. 6, 1964, p.71.
118.
Anhydrous uranyl nitrate and its complexes with some oxygen and nitrogen donors. (Addison, Champ, Hodge
and Norbury), J. Chem. Soc., 1964, 2354.
119.
Preparation and anhydrous metal nitrates. (Addison and Logan), Preparative Inorganic Reactions, Vol. 1,
(Interscience, 1964)
120.
Dimethyl tin dinitrate. (Addison, Simpson and Walker), J. Chem. Soc., 1964, 2360.
121.
Anhydrous cobalt(II)nitrate and its dinitrogen tetroxide adducts. (Addison and Sutton), J. Chem. Soc., 1964
(Suppl. 1), 5553.
122.
Adducts of iron(III) nitrate with oxides of nitrogen. (Addison, Boorman and Logan), J. Chem. Soc., 1965,
paper 5/226.
123.
The vapour phase reaction of iron pentacarbonyl with nitrogen dioxide; iron(III) oxide nitrate. (Addison,
Johnson and Logan), J. Chem. Soc., 1965, paper 5/224.
124.
Alkylammonium and caesium tetra-nitratoferrates. (Addison, Boorman and Logan), J. Chem. Soc., 1965,
paper 5/245.
125.
Chemistry in Liquid Dinitrogen Tetroxide. (Addison), Vieweg. Monograph Series, Vol. III, 1965.
126.
Selective reactivity of dinitrogen tetroxide with water in salt hydrates. (Addison and Chapman), J. Chem. Soc.,
1965, 819.
127.
Tin(IV) nitrate; the relation between structure and reactivity of metal nitrates. (Addison and Simpson), J.
Chem. Soc., 1965, 598.
157.
Relation between Chemical Reactivity of Ligands and Nature of Metal-Ligand Bond: Nitrato-Complexes.
(Addison), Coordination Chem. Reviews, 1966, 1, 58.
158.
Substitution Reactions of Nitratopentacarbonylmanganese. (Addison, Kilner and Wojcicki), American
Chemical Society Abstracts, Philadelphia 1964.
159.
The adduct of Tin(IV) Chloride with Dinitrogen Tetroxide. (Addison and Simpson), J. Chem. Soc., (A), 1966,
775.
162.
The (4+) oxidation state in simple palladium compounds. (Addison and Ward), Chem. Comm. 1966, 154.
163.
Pyridine and 2,2'-Bipyridyl derivatives of Nitratopentacarbonylmanganeses (I). (Addison and Kilner), J.
Chem. Soc., (A) 1966, 1249.
Addison 5
164.
Ultraviolet spectra of anhydrous metal nitrates. (Addison and Sutton), J. Chem. Soc., (A), 1966, 1524.
165.
Coordination complexes containing the nitrate ion. (Addison and Sutton), Prog. Inorg. Chem., 1967.
166.
Anhydrous Aluminium Nitrate, and the Nitronium and Alkylammonium Tetranitratoaluminates. (Addison,
Boorman and Logan), J. Chem. Soc. (A), 1966, 1434.
167.
Infrared and Raman Spectra of Compounds containing Bidentate Nitrato-Groups. (Addison, Amos, Hoyle and
Sutton), J. Chem. Soc. (A), 1966.
168.
A High-Spin Nickel (III) Complex. (Addison and Ward), Chem. Comm., 1966, 819.
176.
Rhenium trioxide nitrate. (Addison, Davis and Logan), J. Chem. Soc., 1967, 1449.
177.
The Reaction of Dirhenium Decarcarbonyl Dinitrogen Tetroxide: Nitratopentacarbonylrhenium. (Addison,
Davis and Logan), Inorganic Chemistry, 1967, 1926.
178.
The reaction of hydrated bismuth nitrate with nitrogen oxides. (Addison, Sowerby and Tranter), J. Inorg.
Nuclear Chem., 1968, 97.
181.
Oxide and nitrate derivatives of triphenylarsine and phosphine. (Addison, Sowerby and Tranter), J.
Organomet. Chem., 1968, 369.
182.
Triphenylphosphine and -arsine derivatives of nitratopentacarbonyl Manganeses(I) (Addison and Kilner), J.
Chem. Soc., 1968, 1535.
183.
Infra-red and Raman spectra of solutions of zinc cadmium and mercury(II) nitrates in acetonitrile. (Addison,
Amos and Sutton), J. Chem. Soc., 1968, 2285.
191.
Tetranitratoaurates(III). (Addison, Logan, Amos, Brownlee, Garner and Wallwork), CS/RIC Meetings
Nottingham 1969 (Abstracts).
192.
The Chemistry of Dinitrogen Pentoxide. (Addison and Logan), ôDevelopments in Inorganic Nitrogen
Chemistryö Vol. III (Ed. Colburn) Elsevier (in press).
193.
Structural Aspects of the chemistry of coordinated nitrate groups. (Addison, Logan, Garner and Wallwork).,
Quarterly Reviews, 1971, Vol. 25, 289.
199.
Nitrato pentacarbonyl rhenium(II). (Addison, Davis and Logan), J. Chem. Soc., 1970, 3333.
207.
Tetranitratoaurates(III); preparation, spectra and properties. (Addison, Brownlee and Logan), J. Chem. Soc.,
(Dalton), 1972, 1440., 14N chemical shifts of isocyanates and cyanates. (N. Logan, K. F. Chew, W. Derbyshire, H.
Norbury and A. I. P. Sinha), Chem. Comm. 1970., Nitronium Tetranitratogallate. (N. Logan and D. Bowler), Chem.
Comm. 1971., Applications of 14N n.m.r. data in the study of inorganic molecules. (N. Logan), 'Nitrogen Nuclear
Magnetic Resonance' Plenum Press 1972., 14N nuclear magnetic resonance of covalent azides. (N. Logan, K. F. Chew,
W. Derbyshire, D. M. Revitt, D. B. Sowerby, W. Beck and W. Becker), J. Chem. Soc. (Dalton) 1972., 14N chemical
shifts in linear triatomic species. (N. Logan, K. F. Chew and W. Derbyshire), J. Chem. Soc., (Faraday II) 1972.,
Nitrato-complexes of iridium. Part I: Ir3O(NO3)10. (N. Logan and B. Harrison), J. Chem. Soc. (Dalton) 1972.,
Concerning anhydrous tin II nitrate. (N. Logan, M. Khalil and P. G. Harrison), Inorg. Nuclear Chem. Letters 1972.
211.
Flow Decay. (C. C. Addison and N. Logan), U.S. Air Force (RPL) Report 1973.
212.
The N4O62+ group: the X-ray structure of Fe(NO3)3, 1.5N2O4. (C. C. Addison, L. J. Blackwell, B. Harrison, D.
H. Jones, N. Logan, E. K. Nunn and S. C. Wallwork), Chem. Comm. 1973., Crystal structures of anhydrous nitrates and
their complexes. Part VI Dimethyldinitrato tin IV. (S. C. Wallwork, J. Hilton and E. K. Nunn), J. Chem. Soc. (Dalton)
1973., Solutions of covalent nitrates in some non-aqueous solvents: an 14N n.m.r. study. (N. Logan and M. Khalil),
Proc. 3rd Int. Conf. on Non-Aqueous Solvents, Michigan 1972., The chemistry of liquid metals. (C. C. Addison),
Chemistry in Britain, (1974)., Heat of mixing of dinitrogen tetroxide with organic liquids., Journal of the Chemical
Society (Dalton Transactions) 1974., Derivatives of nitratopentacarbonylrhenium(I) with some nitrogen, phosphorus and
arsenid donor ligands. (C. C. Addison, R. Davis and N. Logan), Journal of the Chemical Society (Dalton Transactions)
1974., Crystal structure of the copper nitrate-dinitrogen tetroxide adduct Cu(NO3)2, N2O4. (T. J. King, L. J. Blackwell
and Alan Morris), Chemical Communications (1973)., The crystal structure of tetraphenylarsonium
tetranitratocuprate(II), ((C6H5)4As)2Cu(NO3)4, 1CH2Cl2., Inorganic Nuclear Chemistry Letters, Vol. 10 (1974)., New
nitrato-complexes, M2Ir(NO3)6 (M=K, Rb, Cs) and K2Pt(NO3)6 with extensive metal-bonding., Chemical
Communications (1974)., Joseph Priestley and the oxides of nitrogen. (C. C. Addison), Education in Chemistry,
(1974)., Mossbauer study of the thermal decomposition of dinitrogen tetroxide solvates of iron(III) nitrate. (C. C.
Addison, K. J. Blackwell, P. G. Harrison, D. H. Jones and Norman Logan), Journal of the Chemical Society (Dalton
Transactions) (1975)., An electron spin resonance study of the bonding in potassium hexanitratoirdate(IV). (Norman
Logan and Brian Harrison (with J. B. Raynor)., Journal of the Chemical Society (Dalton Transactions (1975)).,
Nitrogen-14 nuclear magnetic resonance study of some dimagnetic covalent metal nitrates. (Norman Logan, K. F.
Chew, M. A. Healey and M. I. Khalil)., Journal of the Chemical Society (Dalton Transactions) (1975)., Reference
compounds for 14N nuclear magnetic resonance; the relative chemical shifts of aqueous nitrate ion and nitromethane.
(Alan Morris and M. A. Healy)., Spectrochimica Acta (1975).
Other articles on Inorganic Chemistry
128.
The grouping of the elements. (Addison), Chem. and Ind. 1948, 227.
129.
Chapter on 'hydrogen chloride'; supplement to Mellor's 'Treatise on Inorganic Chemistry'. (Addison and
Lewis), Longmans, 1956.
Addison 6
130.
Chapter on the oxides and oxyacids of chlorine; Supplement to Mellor's 'Treatise on Inorganic Chemistry'.
(Addison), Longmans, 1956.
131.
The School of Chemistry in the University of Nottingham. (Addison), J. Roy. Inst. Chem., 1957, 423.
132.
Annual Reports of the Chemical Society; Inorganic Chemistry. (Addison and Greenwood), Ann. Repts. 1956.
133.
Annual Reports of the Chemical Society; Inorganic Chemistry. (Addison and Greenwood), Ann. Repts. 1957.
134.
Annual Reports of the Chemical Society; Inorganic Chemistry. (Addison and Greenwood), Ann. Repts. 1958.
135.
The Department of Chemistry in the University of Nottingham. (Addison), Chem. and Ind., 1962, 425.
136.
Amphiboles; the oxidation of crocidolite. (Addison, Addison, Neal and Sharp), J. Chem. Soc., 1962, 1468.
Liquid Metals (particularly the Alkali Metals)
137.
The surface tension of liquid sodium; the vertical plate technique. (Addison, Kerridge and Lewis), J. Chem.
Soc., 1955, 2861.
138.
The surface tension of liquid sodium: the drop-volume technique. (Addison, Addison, Kerridge and Lewis), J.
Chem. Soc., 1955, 2262.
139.
The influence of oxide films on the surface tension of liquid sodium. (Addison, Addison and Kerridge), J.
Chem. Soc., 1955, 3047.
140.
The wetting of zinc by liquid sodium; the significance of the critical wetting temperature. (Addison, Addison,
Kerridge and Lewis), J. Chem. Soc., 1956, 1454.
141.
A mixed oxide of copper and sodium. (Addison and Kerridge), Proceedings 16th I.U.P.A.C. Congress, Paris,
1957.
142.
Use of molecular sieves to maintain clean surfaces on liquid sodium and liquid bismuth. (Addison, Iberson and
Raynor), Chem. and Ind., 1958, 96.
143.
The surface tension of liquid bismuth. (Addison and Raynor), Geneva Conf. on Peaceful Uses of Atomic
Energy, 1958.
144.
Influence of surface reactions on the interface between liquid sodium and molten sodium chloride-calcium
chloride mixtures. (Addison and Coldrey), Trans. Faraday Soc., 1960, 56, 840.
145.
Surface tensions of some molten metal nitrates and nitrites. (Addison and Coldrey), J. Chem. Soc., 1961, 468.
146.
The role of oxide films in the wetting of iron, cobalt and nickel by liquid sodium, and by solutions of barium
and calcium in liquid sodium. (Addison, Iberson and Manning), J. Chem. Soc., 1962, 2699.
147.
The surface tensions of solutions of barium and calcium in liquid sodium. (Addison, Coldrey and Halstead), J.
Chem. Soc., 1962, 3868.
148.
The density of liquid barium. (Addison and Pulham), J. Chem. Soc., 1962, 3873.
149.
The surface tensions of liquid barium and liquid calcium. (Addison, Coldrey and Pulham), J. Chem. Soc.,
1963, 1227.
150.
The densities of solutions of barium in liquid sodium., J. Chem. Soc., 1963, 1232.
151.
The thermal dissociation of sodium hydride. (Addison, Pulham and Roy), J. Chem. Soc., 1964, 4895.
152.
The reaction of water vapour with liquid sodium, sodium peroxide, sodium monoxide, and sodium hydride;
vapour pressures in the sodium hydroxide-water system. (Addison and Manning), J. Chem. Soc., 1964, 4887.
153.
Solutions of hydrogen in liquid sodium. (Addison, Pulham and Roy), J. Chem. Soc., 1965, 116.
154.
The wetting of chromium, molybdenum and tungsten by liquid sodium. (Addison and Iberson), J. Chem. Soc.,
1965, 1437.
155.
Reactions of liquid sodium with transition metal oxides; the dioxides of molybdenum, tungsten and uranium.
(Addison, Barker and Pulham), J. Chem. Soc., 1965, paper 5/164.
156.
Reactions of liquid sodium with transition metal oxides; the reduction of chromium trioxide to a ternary oxide
of chromium(IV). (Addison and Barker), J. Chem. Soc., 1965, paper 5/326.
160.
The surface tension of liquid bismuth in pure and impure hydrogen, in other gases and in vacuo. (Addison and
Raynor), J. Chem. Soc. (A), 1996, 766.
161.
Phase diagrams and volumes of mixing in binary systems of molten bismuth(III) chloride with alkali metal
chlorides. (Addison and Halstead), J. Chem. Soc., (A), 1966, 1236.
169.
Liquid metals as reaction media. (Addison), Allgemeine and Praktische Chemie, 1966, 17, 772.
170.
Introduction to special publication on ôThe alkali metalsö. (Addison), Chem. Soc. Spec. Publ. 22, 1967.
171.
The liquid alkali metals as reaction media. (Addison and Wallace), Chem. Soc. Spec. Publ., 22, 1967.
172.
The reaction between acetylene and molten sodium. (Addison, Pulham and Hobdell), Chem. Soc. Spec. Publ.,
22, 1967.
173.
The reactions of liquid sodium and liquid potassium with niobium pentoxide. (Addison, barker, Lintonbon and
Pulham), Chem. Soc. Spec. Publ. 22, 1967.
174.
Liquid sodium. (Addison), Endeavour 1967.
175.
The reactivity of liquid metals. (Addison, Davies, Lintonbon and Pulham), Chem. Comm. No. 052, 1967.
179.
The influence of surface films on the wetting of transition metals by liquid sodium. (Addison, Iberson and
Pulham), Proc. Int. Symp. on Surface Phenomena of Metals Soc. Chem. Ind. 1968, 246.
Addison 7
180.
Comparison of liquid metals, molten salts and molecular liquids as non-aqueous solvents. (Addison), Plenary
lecture, Centenary Celebrations of German Chemical Society, Berlin, 1968.
184.
Reactions of liquid sodium with transition metal oxides; the oxides UO3 and U3O8. (Addison, Barker,
Lintonbon and Pulham), J. Chem. Soc. 1969, 2457.
185.
Electrical resistivity of liquid and solid sodium. (Addison, Creffield, Hubberstey and Pulham), J. Chem. Soc.,
1969, 1482.
186.
Reactions of nitrogen with stirred and unstirred liquid lithium. (Addison and Davies), J. Chem. Soc., 1969,
1822.
187.
Reactions of nitrogen with stirred solutions of lithium in liquid sodium. (Addison and Davies), J. Chem. Soc.,
1969, 1827.
188.
Reactions of nitrogen with solutions of lithium in mercury. (Addison and Davies), J. Chem. Soc., 1969, 1831.
189.
Reactions of nitrogen with solutions of barium in liquid sodium. (Addison, Pulham, Creffield, Hubberstey and
Lindley), CS/RIC meetings Nottingham 1969 (Abstracts).
190.
Reactions of vanadium metal with nitrogen in liquid lithium. (Addison, Barker and Bentham)
194.
Reaction of the oxides of niobium with liquid potassium. (Addison, Barker and Lintonbon), J. Chem. Soc.,
1970, 1465.
195.
The electrical resistivity of solutions of barium in liquid sodium. (Addison, Creffield, Hubberstey and
Pulham), J. Chem. Soc., 1971, 1393.
196.
The reactions of acetylene and propyne at the surface of liquid sodium. (Addison, Hobdell and Pulham), J.
Chem. Soc., 1971, 1704.
197.
The reactions of ethylene and acetylene at the surface of solutions of barium in liquid sodium. (Addison,
Hobdell and Pulham), J. Chem. Soc., 1971, 1708.
198.
The equilibrium between sodium hydrogen acetylide and disodium acetylide. (Addison, Hobdell and Pulham),
J. Chem. Soc., 1970, 1700.
200.
The electrical resistivity of liquid potassium and of solutions of sodium in liquid potassium; the potassiumsodium phase diagram., (Addison, Creffield and Pulham), J. Chem. Soc., 1971, 2685.
201.
The sodium-barium phase diagram. (Addison, Creffield, Hubberstey and Pulham), J. Chem. Soc., 1971, 2688.
202.
Solid and liquid metals. (Addison), Royal Institution Proceedings, 1971, 44, 317.
203.
The chemistry of liquid metals. (Addison), Presidential Address, Section B of British Association 1971.
(Proceedings, p.23)
204.
Reactions of liquid sodium with transition metal oxides; the oxides of iron, cobalt, nickel and copper.
(Addison, Barker and Hooper), J. Chem. Soc., 1972, 1017.
205.
Vanadium nitrides; reactions of vanadium oxides with lithium in the presence of nitrogen. (Addison, Barker
and Bentham), J. Chem. Soc., 1972, 1035.
206.
The role of dissolved oxygen in the corrosion of niobium and tantalum by liquid sodium. (Addison, Barker and
Wood), J. Chem. Soc., 1972, 13.
208.
Reaction of liquid sodium with transition metal oxides - the oxides Fe3O4, Co3O and NiO; stoichiometry and
reaction rates. (Addison and Pullham), J. Chem. Soc., (Dalton), 1972, 1020.
233.
The reaction of hydrogen with a jet of liquid sodium. (R. J. Pulham), J. Chem. Soc., 1971.
234.
The corrosion of tantalum by oxygen-saturated sodium. (M. G. Barker, C. B. Alcock and G. P. Starropaulos),
Corrosion Science, 1970.
235.
Solutions of hydrogen and oxygen in liquid sodium. (R. J. Pulham and P. A. Simm), Journal of Metals, 1971.
236.
Preparation and characterisation of the compounds Na3NbO4 and Na3TaO4. (M. G. Barker and D. J. Wood), J.
Chem. Soc., 1448, 1972.
237.
Alkali metal ternary oxides. (M. G. Barker), MTP International Review of Science (Inorganic Chemistry)
1972.
238.
The chemical composition of corrosion products in liquid sodium. (M. G. Barker and D. J. Wood)., J. Metals,
1971.
239.
Reactivity of sodium oxide in the solid state and in solution in liquid sodium, with some transition elements.
(M. G. Barker and D. J. Wood), Proc. 7th Int. Symp. on Reactivity of Solids, 1972.
240.
Thermodynamic properties of group IV metals dissolved in liquid sodium. I sodium-lead and sodiumgermanium solutions. II sodium-tin solutions. (P. Hubbberstey and A. W. Castleman), J. Electrochem. Soc., 1972.
241.
The sodium-lead phase diagram. (P. Hubberstey and R. J. Pulham), J. Chem. Soc., (Dalton), 1972.
209.
Continuous and discontinuous reaction media in inorganic chemistry. (C. C. Addison), Science Progress 1972.
210.
Inorganic Reaction Media. (C. C. Addison), Proc. 3rd Int. Conf. on Non-Aqueous Solvents. Michigan 1972.
213.
Reactions of hydrocarbons at the surface of liquid sodium. (C. C. Addison, M. R. Hobdell, G. Parry and R. J.
Pulham)., Proc. Brit. Nuclear Energy Soc. Conf., Nottingham, 1973.
242.
The reaction of sodium with water vapour. (R. J. Pulham and P. A. Simm), Proc. Brit. Nuclear Energy Conf.,
Nottingham, 1973.
243.
The preparation and characterisation of Na4TiO4 and Na2Z5O3. (M. G. Barker and D. J. Wood)., J. Chem.
Soc., (Dalton), 1972.
Addison 8
244.
The role of dissolved oxygen in the corrosion of titanium and zirconium by liquid sodium. (M. G. Barker and
D. J. Wood), J. Chem. Soc., (Dalton) 1972.
245.
Corrosion products in liquid alkali metals. (M. G. Barker), Proc. Int. Conf. on Liquid Alkali Metals Brit.
Nuclear Energy Soc., 1973.
246.
Preparation and X-ray powder diffraction patterns of NaVO3, Na4V2O7 and Na3VO4. (M. G. Barker and A. J.
Hooper)., J. Chem. Soc., (Dalton), 1973.
247.
Reactions of sodium oxide with VO2, V2O, VO and V metal. (M. G. Barker and A. J. Hooper)., J. Chem. Soc.,
(Dalton), 1973.
248.
The chemistry of liquid metals. (C. C. Addison), Chemistry in Britain, 1974.
249.
Reactions of liquid sodium with transition metal oxides: Part VI. Oxides of vanadium. (M. G. Barker and A. J.
Hooper)., J. Chem. Soc., (Dalton), 1973.
250.
Precipitation of barium nitride from liquid sodium. (P. Hubberstey), Proc. Int. Conf. on Liquid Alkali Metals
(Brit. Nuclear Energy Soc.) Nottingham 1973.
251.
The solubility of tin and germanium in liquid sodium: the sodium-tin partial phase diagram. (R. J. Pulham and
P. Hubberstey), Journal of the Chemical Society (Dalton Transactions) (1974).
252.
The electrical resistivity of solutions of germanium, tin and lead. (R. J. Pulham and P. Hubberstey), Journal of
the Chemical Society (Faraday Transactions 1) (1974).
253.
The electrical resistivity of liquid and solid lithium. (R. J. Pulham, M. G. Down and G. K. Creffield), Journals
of the Chemical Society (Dalton Transactions) (1974)
254.
Reactions of the oxides of vanadium with liquid potassium. (M. G. Barker, A. J. Hooper and R. M.
Lintonbon), Journal of the Chemical Society (Dalton Transactions) (1973).
255.
Reactions of the potassium monoxide with the oxides of vanadium. (M. G. Barker and A. J. Hooper), Journal
of the Chemical Society (Dalton Transactions) (1973).
256.
Reactions of liquid sodium with transition metal oxides, Part VII. The oxides of niobium and tantalum. (M. G.
Barker, A. J. Hooper and D. J. Wood), Journal of the Chemical Society (Dalton Transactions) (1974).
257.
The role of dissolved oxygen in the corrosion of vanadium by liquid sodium. (M. G. Barker and D. J. Wood),
Journal of Less-Common Metals (1974).
258.
The corrosion of chromium, iron and stainless steel in liquid sodium. (M. G. Barker and D. J. Wood)., Journal
of Less-Common Metals (1974).
259.
The reaction between barium and nitrogen in liquid sodium: solubility studies. (C. C. Addison, R. J. Pulham
and E. A. Trevillion), Journal of the Chemical Society (Dalton Transactions) (1975).
260.
_Reaction of hydrogen with liquid potassium. (R. J. Pulham and Graham Parry), Journal of the Chemical
Society (Dalton transactions) (1975)
261.
Reaction of hydrogen with liquid lithium. (R. J. Pulham and Graham Parry), Journal of the Chemical Society
(Dalton Transactions) (1975).
262.
The reaction of ethylene at the surface of liquid potassium. (R. J. Pulham and Graham Parry)., Journal of the
Chemical Society (Dalton Transactions) (1975).
263.
Solubilities, and solution and solvation enthalpies for nitrogen and hydrogen in liquid lithium. (R. J. Pulham,
Peter Hubberstey, P. F. Adams and M. G. Down), Journal of Less Common Metals (1975).
264.
Reactions of lithium nitride with cerium, thorium and hafnium: formation of Li2CeN2, Ce2N2O, Li2ThN2 and
Li2HfN2. (M. G. Barker and I.C . Alexander), Journal of the Chemical Society (Dalton Transactions) (1974).
265.
The reactions of cerium IV oxide and cerium IIII oxide with liquid lithium. (M. G. Barker and I. C.
Alexander), Journal of the Chemical Society (Dalton Transactions) (1975).
266.
The influence of dissolved non-metals on the reaction of liquid lithium with the oxides of niobium and
tantalum. (M. G. Barker and John Bentham), Journal of Less Common Metals (1975).
267.
The reactions of liquid lithium with the dioxides of titanium, zirconium, hafnium and thorium. (M. G. Barker,
I. C. Alexander and John Bentham), Journal of Less-Common Metals (1975).
268.
The corrosion of group Va metals in flowing sodium. (M. G. Barker and C. W. Morris), Journal of LessCommon Metals (1975).
269.
Review of solubilities of non-metals in liquid lithium. (Peter Hubberstey, P. F. Adams and R. J. Pulham),
Journal of Less Common Metals (1975).
270.
Electrical resistivity of liquid sodium-lithium mixtures. Evidence for incipient immiscibility. (Peter
Hubberstey, M. G. Down and R. J. Pulham), Journal of the Chemical Society (Faraday Transactions I) (1975)
271.
The sodium-lithium phase diagram; a redetermination of the liquid immiscibility system by resistance
measurement. (Peter Hubberstey, M. G. Down and R. J. Pulham), Journal of the Chemical Society (Dalton
Transactions) (1975).
272.
The reaction between barium and nitrogen in liquid sodium: resistivity studies. (C. C. Addison, G. K.
Creffield, Peter Hubberstey, and R. J. Pulham), Journal of the Chemical Society (Dalton Transactions) (1976).
273
Depression of the freezing point of lithium by nitrogen and by hydrogen. (R. J. Pulham, Peter Hubberstey and
Anne E. Thunder), Journal of the Chemical Society (Faraday Transactions I) (1976)
Addison 9
274.
Reaction rates and electrical resistivities of the hydrogen isotopes with, and their solubilities in, liquid lithium.
(R. J. Pulham, P. F. Adams, Peter Hubberstey, Graham Parry and Anne E. Thunder), Proceedings of the International
Conference on Radiation Effects and Tritium Technology for Fusion Reactors, Gatlingburg, Tennessee (1-3 October
1975)
275.
The reactions of nickel oxide with potassium monoxide and liquid potassium. (M. G. Barker and A. P.
Dawson), Journal of Less-Common Metals (1976)
276.
Reactions of chromium oxides and chromium metal with disodium oxide. (M. G. Barker and A. J. Hooper),
Journal of the Chemical Society (Dalton Transactions) (1975).
277.
Reactions of liquid sodium with transition metal oxides, Part VIII oxides of chromium. (M. G. Barker and A.
J. Hooper), Journal of the Chemical Society (Dalton Transactions) (1976)
278.
The corrosion of molybdenum and tungsten in liquid sodium. (M. G. Barker and C. W. Morris), Journal of
Less Common Metals (1976).
279.
Hydrogen isotope removal from liquid lithium; use of yttrium sponge as a getter. (Peter Hubberstey, P. F.
Adams and R. J. Pulham), Proceedings of the International Conference on Radiation Effects and Tritium Technology for
Fusion Reactors, Gatlinburg, Tennessee (1975).
280.
Hydrogen in liquid alkali metals. (Peter Hubberstey, P. F. Adams, M. G. Down, R. J. Pulham and Anne E.
Thunder), Proceedings of the International Conference on Hydrogen in Metals, Birmingham (1976).
281.
Depression of the freezing point of lithium by deuterium, and the solubility of deuterium in liquid lithium,
comparison with hydrogen. (Peter Hubberstey, R. J. Pulham and Anne. E. Thunder., Journal of Less-Common Metals
(1976).
282.
Solutions of non-metals in liquid metals. (C. C. Addison), Institute of Physics (1977).
283.
Inorganic chemistry of the main group elements. (C. C. Addison), Specialist Periodical Reports. The
Chemical Soc. (1977)
284.
Chemical education and the public image of chemistry. (C. C. Addison), Chemistry in Britain (1977).
285.
Recent developments in the chemistry of solutions of salts in liquid alkali-metals. (R. J. Pulham), Pure and
Applied Chemistry (1977)
286
Solutions of lithium salts in liquid lithium; the electrical resistivity of solutions of nitride, hydride and deutride.
(R. J. Pulham, P. F. Adams, M. G. Down and Peter Hubberstey)., Journal of the Chemical Society (Faraday
Transactions I) (1977).
287.
Sodium-strontium phase diagram; redetermination of the solubility of strontium in liquid sodium. (R. J.
Pulham, P. R. Bussey and Peter Hubberstey)., Journal of the Chemical Society (Dalton Transactions) (1976).
288.
The elements of Group VI., T he Chemistry of the Main Group Elements, Specialist Periodical Report, No. 27,
Vol. 5, The Chemical Soc., (1977).
289.
Chemistry and physics at liquid alkali metal-solid metal interfaces. (M. G. Barker), Institute of Physics
Conference Series No. 30 (1977).
290.
An analysis of methods available for the removal of sodium from corrosion test samples. (M. G. Barker,
Margaret Grundy and T. K. Leung)., Proc. Int. Conf. on Liquid Metal Technology in Energy Production, Champion,
Pennsylvania (1976).
291.
Aspects of the solution chemistry of liquid alkali metals as elucidated from electrical resistivity studies. (Peter
Hubberstey), Institute of Physics Conf. Series No. 30 (1977).
292.
Alkali metal salts of cyanamide: crystal and anion structure of the mono-Na salt of cyanamide. (M. G. Barker,
A. Harper, P. Hubberstey), J. Chem. (s), 1978, 432.
293.
Synthesis of the dilithium salt of cyanamide in liquid lithium: X-ray crystal structure of Li2NCN. (M. G.
Down, M. J. Haley, P. Hubberstey, R. J. Pulman and A. E. Thunder), Chem. Commun., 1978, p.52, J. C. S. Dalton,
1978, Nov.
294.
Solutions of salts in liquid sodium: electrical resistivity of solutions of sodium hydride and sodium oxide, and
the solubility of sodium hydride in sodium. (C. C. Addison, P. Hubberstey, J. Oliver, R. J. Pulham and P. A. Simon), J.
Less Common Metals, 1978, 61.
295.
The electrical reactivity of solutions of strontium in liquid sodium. (P. Hubberstey and P. R. Bussey), J. Less
Common Metals, 1978, 60, 109.
296.
The reactions of the liquid alkali metals with the metals Zr, Nb, Ta, Mo and W and their oxides. (M. G.
Barker), 1977, IUPAC "Refractions oxides for high temperature energy"
297.
The effect of sodium oxide on the liquid sodium-hydrogen reaction. (Whittingham, Evans, Howell, Harper), J.
Inorg. Nucl. Chem., 1976, 38, 2129.
298.
The reaction between water droplets and molten sodium. (A. G. Newlands and W. W. Halstead), Int. J. Heat
and Mass Transfer, 1978, 21, 897.
299.
Reaction of hydrogen with solutions of metals in liquid sodium. (M. R. Haddell and F. C. Whittingham)., J. C.
S. Dalton, 1975, 1591.
300.
Alkali metal salts of cyanamide: crystal and molecular structures of the dicyandiamide adduct of the
monopotassium salt of cyanamide. (M. J. Begley, A. Harper and P. Hubberstey), J. Chem. Research (s), 1979, 398.
Addison 10
301.
Chemical reactions in liquid lithium. (Pulham, Hubberstey, Thunders, Harper and Dodd), 2nd Int. Conf. on
Liquid Metal Techniques in Energy Production April 1980, Richland.
302.
Chemical reactions between salts dissolved in liquid lithium. Reaction of Li3N with Li2C2 to form Li2NCN in
the metal. (Pulham, Hubberstey, Down and Thunder), Int. Conf. on Fusion Reaction Materials, Miami 1979 (Feb.)
published as J. of Nucl. Materials, 1979, 85, 299.
303.
An equilibrium and kinetic study of the liquid sodium-hydrogen reaction and its relevance to sodium-water leak
detection in LMFBR systems. (A. C. Whittingham), Journal of Nuclear Materials, 1976, 60 (2) 119.
304.
Corrosion of fusion reactor components by liquid lithium. (J. W. Bergsteat), Materials Chemistry, 1980, 5, 95.
305.
Solubility of metal in manganese in sodium. (2nd Int. Conf. on Liquid Metals in Energy Production, Richland,
Washington, Abstr. 080, Conf. 800401-P.
306.
Solubility and cobalt and nickel in sodium. (Pang-Kai and E. Berkey), A. N. L. Report, 7520 St. I. p.249
(1967).
307.
In the solubilities of Cu, Ni and Fe in liquid. (R. M. Singer and J. R. Weeks), A.N.L.-75020 St. I, (1968).
308.
The solubility of cu, Mo, Nb, Fe, Ni and Cr in liquid Na. (R. L. Eichelberger and R. L. InKisson), A.N.L.
7520 Pt I, (1968).
309.
Solubility of transition metals, in liquid Na. (W. P. Stanaway and R. Thompson), Int. Conf. Materials,
Behaviour and Chem. in Liquid Metal Systems, Karlsruhle, March, 1981.
310.
Solubility of metallic elements in liquid sodium. (T. D. Clark), Reactor Technology, 1970, 13, (2), 124.
311.
Comparison of chemical reactions in liquid lithium with those in liquid sodium. (R. J. Pulham and P.
Hubberstey), Internat. Corrosion Forum, Nat. Assoc. of Corrosion. Houston, Texas March 1982, Paper T-2-1, 13.
312.
The form of oxygen in the liquid alkali metals. (P. W. Kendall), P. W. Kendall, J. Nucl. Materials, 1970, 35,
41.
313.
Review of the solubility of non-metals in liquid lithium. (Adams, Hubberstey and Pulham), J. Less Common
Metals, 1975, 42, 1.
314.
Solubilities of non-metal in liquid lithium - a review. (Hubberstey, Dodd and Roberts)., Karlsruhe 1981, Proc.
Int. Conf. on Materials Behaviour and Phys. Chem. in Liquid Metal Systems, 1981, (Pergamon).
315.
Electrical Resistivities and Saturation Enthalpies for solutions of salts in liquid alkali metals. (Hubberstey and
Dodd), J. Less Common Metals, 1982, 86, 55.
316.
The stability of metal particles and particle - plate interactions in liquid metals. (R. Thompson), reference
unknown.
317.
Solubilities of silicon and germanium in liquid lithium. (Li-Ge partial phase diagram). (Dodd and
Hubberstey), J. Chem. Soc., (Faraday I), 1981, 77, 1865.
318.
Solutions of group 4 elements in liquid lithium. (Solubilities, enthalpies of solution and solution enthalpies).
(Dodd, Hubberstey and Roberts), J. Chem. Soc. (Faraday I), 1982, 78, 2735.
319.
Stabilities of salts of heteronuclear polyatomic anions towards liquid lithium. (Hubberstey, Harper, Dodd,
Knight and Maughan), 2nd Int. Conf. on Liquid Metal Technology in Energy Production, Richland, Washington, 1980,
p.18-27.
320.
Thermochemistry in the systems Li-O-H, Li-O-C and Li-N-C. (H. Migge), 2nd Int. Conf. on Liquid Metal
Technology in Energy Production, Richland, Washington, 1980, p.18-9.
321.
Effects of C and N on corrosion resistance of type 31b stainless steel to liquid lithium. (M. G. Barker and S. A.
Frankham), J. Nucl. Mat., 1982, 107, 218.
322.
Interaction of Cr with N in liquid Li. (M. G. Barker, P. Hubberstey, A. T. Dodd and S. A. Franklain), J. Nucl.
Mat., 1983, 114.
323.
Solutions of Li salts in liquid Li: interaction of Si and N to form Li 5SiN3. (A. T. Dodd and P. Hubberstey), J.
Chem. Soc., (Dalton) 1982, 2175.
324.
Electrical resistivities of solutions of Li22Si5 and Li22Ge5 in liquid lithium. (P. Hubberstey and A. T. Dodd)., J.
de Physique, 1980, 41, C8-531.
325.
The reaction of hydrogenchloride with liquid sodium and a sodium-barium allag. (W. R. Haddell and L.
Newman), J. Inorg. Nuclear Chem., 1970, 32, 1443.
326.
corrosion of steels and Ni-based alloys in liquid sodium. (M. G. Barker), N.I.I. Report, 1977.
327.
A state of the art review of degradation procedures in LMFBR materials. Vol. II. Corrosion behaviour. (R. L.
Dillen and I. S. Levy).
328.
Reactions of Cu20 and CuO with K2O and K., (M. G. Barker and A. P. Dawson), J. Less Common Metals,
1979, 64, 127.
329.
Reactions of some lanthanide oxides with liquid lithium. (M. G. Barker and I. C. Alexander), J. Less Common
Metals, 1979, 64, 115.
330.
Chemical aspects of the corrosion behaviour of type 31b stainless steel in liquid Te and liquid Na. (Barker,
Franklaw, Gadd and Moore)
331.
The reactions of metal oxides with liquid lithium. (Barker), Proc. 35 S. Eastern Regional Meeting, ACS,
Charlotte, 1973.
Addison 11