[1]

Punktfehlstellen in Oxidmischphasen: (I) Fehlstellenthermodynamik der Mischphasen (Co_xMg_1−x)O und (Co_xMg_1−x)₂SiO₄
G. Schwier, R. Dieckmann, and H. Schmalzried 
Ber. Bunsenges. Phys. Chem., 77 (6) [1973] 402-408.

[2]

Point Defects and Cation Diffusion in Magnetite

R. Dieckmann and H. Schmalzried
Z. Phys. Chem. NF, 96 (4-6) [1975] 331-333.

[3]

Point Defects in Oxide Solid Solutions: (III) Mobilities of Cations and Vacancies in (Co,Ni)O- and (Co,Mg)O-Solid Solutions and the Calculation of Correlation Factors
R. Dieckmann and H. Schmalzried 
Ber. Bunsenges. Phys. Chem., 79 (11) [1975] 1108-1115.

[4]

Defects and Cation Diffusion in Magnetite (I)
R. Dieckmann and H. Schmalzried 
Ber. Bunsenges. Phys. Chem., 81 (3) [1977] 344-347.

[5]

Defects and Cation Diffusion in Magnetite (II)
R. Dieckmann and H. Schmalzried 
Ber. Bunsenges. Phys. Chem., 81 (4) [1977] 414-419.

[6]

Neue Ergebnisse zum Ionentransport in Magnetit und ihre Bedeutung für die Eisenoxidation
R. Dieckmann and H. Schmalzried
Arch. Eisenhüttenwes., 48 (12) [1977] 611-616.

[7]

Cobaltous Oxide Point Defect Structure and Non-Stoichiometry, Electrical Conductivity, Cobalt Tracer Diffusion
R. Dieckmann
Z. Phys. Chem. NF, 107 (2) [1977] 189-210.

[8]

Defects and Cation Diffusion in Magnetite (III). Tracerdiffusion of Foreign Cations as a Function of Temperature and Oxygen Potential
R. Dieckmann, T.O. Mason, J.D. Hodge, and H. Schmalzried
Ber. Bunsenges. Phys. Chem., 82 (8) [1978] 778-783.

[9]

Investigation of Magnetic Crystals by the ATR-Method
K.M. Häussler, H.J. Falge, R. Dieckmann, W. Tolksdorf, and A. Preisinger
J. Magn. Magn. Mater., 15-18, Pt. II, [1980] 795-796 (Proc. Int. Conf. Magn., Munich, FRG, September 3-7, 1979).

[10a]

Point Defects in Magnetite (Fe_3-δO₄) and Their Mobilities
R. Dieckmann
Preprints 9th International Symposium on the Reactivity of Solids, Cracow, Poland, September 1-6, 1980, [1980] 67-71.

[10b]

Point Defects in Magnetite (Fe_3-δO₄) and Their Mobilities
R. Dieckmann 
in: "Reactivity of Solids", Proc. 9th International Symposium on the Reactivity of Solids, Cracow, September 1-6, 1980, Vol. 1, Eds.: K. Dyrek, J. Haber, J. Nowotny; Elsevier Sci. Publ., Mater. Sci. Monogr., 10 [1982] 92-97.

[11]

Kinetics of Dense Magnetite Formation During Oxidation of Wüstite and Reduction of Hematite in CO/CO₂ Gas Mixtures
R. Dieckmann, H. Schmalzried, and T.O. Mason
Arch. Eisenhüttenwes., 52 (6) [1981] 211-218.

[12]

Relationships Between the Defect Structure and the Transport Properties of Magnetite and the Maximal Growth Rate of Dense Magnetite Scales During Simple Reactions in the System Iron-Oxygen
R. Dieckmann
Proceedings of the Round Table Meeting on Transport, Structure and Phase Transformations in Iron and Manganese Oxides, Cracow and Kozubnik, Poland, September 8-9, 1980, publ. Cracow [1982] 29-46.

[13]

Survey on the Relationships Between the Kinetics of the Formation of Dense Magnetite During Simple Reactions in the System Iron-Oxygen and the Point Defect Structure of Magnetite
R. Dieckmann
in: "Transport in Non-Stoichiometric Compounds", Proc. First International Conference on Transport in Non-Stoichiometric Compounds, Mogilany, Poland, August 27-30, 1980, Ed. J. Nowotny, PWN Publ. Warshawa, Elsevier Sci. Publ. Comp., Amsterdam, Mater. Sci. Monogr., 15 [1982] 52-79.

[14]

Relationships Between Defect Structure, Transport Properties and the Growth Rate of Dense Magnetite Scales During Simple Reactions in the System Iron-Oxygen
R. Dieckmann
in: "High Temperature Corrosion", Ed. R.A. Rapp, National Association of Corrosion Engineers, Houston, Texas [1983] 70-75.

[15]

Phasen und Gleichgewichte im System Eisen-Sauerstoff
R. Dieckmann
in: "Metallurgie, Teil I: Eisenerzeugung", Verlag Stahleisen, Düsseldorf, 1 [1982] 1-40.

[16]

Defects and Cation Diffusion in Magnetite IV: Nonstoichiometry and Point Defect Structure of Magnetite (Fe_3−δO₄)
R. Dieckmann
Ber. Bunsenges. Phys. Chem., 86 (2) [1982] 112-118.

[17]

The Determination of Chemical Diffusivity in Cobaltous Oxide by Means of the Electrical Conductivity
F. Morin and R. Dieckmann
Z. Phys. Chem. NF, 129 (2) [1982] 219-237.

[18]

Diffusion in Oxiden und Wachstum von Oxidschichten
R. Dieckmann
in: "Aufbau von Oxidschichten auf Hochtemperaturwerkstoffen und ihre technische Bedeutung", Herausg. A. Rahmel, Deutsche Gesellschaft für Metallkunde e.V., Oberursel [1983] 57-87.

[19] 

Point Defects in Oxide Solid Solutions: (IV) Correlated Diffusion of Cations and Vacancies in (Co,Mg)O-Mixed Crystals
M. Schnehage, R. Dieckmann, and H. Schmalzried
Ber. Bunsenges. Phys. Chem., 86 (11) [1982] 1061-1065.

[20]

Point Defects and Transport Properties of Binary and Ternary Oxides
R. Dieckmann
Solid State Ionics, 12 [1984] 1-22.

[21]

Defects and Cation Diffusion in Magnetite (V): Electrical Conduction, Cation Distribution and Point Defects in Fe_3−δO₄
R. Dieckmann, C.A. Witt, and T.O. Mason
Ber. Bunsenges. Phys. Chem., 87 (6) [1983] 495-503.

[22]

Comments on "Phase Equilibria in the Mn₂O₃-Mn₃O₄-MnO System in CO₂-H₂ Mixtures
M. Keller and R. Dieckmann
Trans. Jap. Inst. Met., 24 (9) [1983] 650-651.

[23]

Defect Structure and Transport Properties of Manganese Oxides
R. Dieckmann and M. Keller
Extended Abstracts 10th International Symposium on the Reactivity of Solids, Dijon, France, August 27 - September 1, 1984, [1984] 268-269.

[24]

Defect Structure and Transport Properties of the Manganese Oxides Manganosite (Mn_1−ΔO) and Hausmannite (Mn_3−δO₄)
R. Dieckmann and M. Keller
in: "Transport in Nonstoichiometric Compounds", Eds. G. Simkovich and V.S. Stubican, NATO ASI Series, Ser. B, Vol. 129 (Proceedings 3rd International Conference and NATO Advanced Research Workshop on Transport in Nonstoichiometric Compounds, Pennsylvania State University, University Park, Pennsylvania, USA, June 10-15, 1984), Plenum Press, New York [1985] 297-313.

[25]

Defect Structure and Transport Properties of Two Manganese Oxides: Manganosite and Hausmannite
R. Dieckmann and M. Keller
Materials Science Monogr., 28A [1985] 109-117 (Proceedings 10th International Symposium on the Reactivity of Solids, Dijon, France, August 27 - September 1, 1984), Elsevier Sci. Publ.

[26]

Defect Structure and Transport Properties of Manganese Oxides: (I) The Nonstoichiometry of Manganosite (Mn_1−ΔO)
M. Keller and R. Dieckmann
Ber. Bunsenges. Phys. Chem., 89 (8) [1985] 883-893.

[27]

Defect Structure and Transport Properties of Manganese Oxides: (II) The Nonstoichiometry of Hausmannite (Mn_3−δO₄)
M. Keller and R. Dieckmann
Ber. Bunsenges. Phys. Chem., 89 (10) [1985] 1095-1104.

[28]

Innere Reduktion von Eisen-Mangan-Mischoxiden vom Typ (Fe,Mn)_1−ΔO
H. Falke, R. Dieckmann, and H. Schmalzried
"Prozeßkinetik und Prozeßtechnik im Hüttenwesen - Abschlußbericht eines Schwerpunktprogrammes der Deutschen Forschungsgemeinschaft", Verlag Stahleisen GmbH, Düsseldorf [1986] 1-13.

[29]

Einführung in thermodynamische und kinetische Grundlagen von Festkörperreaktionen
R. Dieckmann
Manuskriptband der Ferienschule 1986 der Kernforschungsanlage Jülich, DIN A4-­Ausgabe [1986] Artikel 19 (18 S.), Buchausgabe [1986] 111-128.

[30]

Defects and Cation Diffusion in Magnetite (VI): Point Defect Relaxation and Correlation in Cation Tracer Diffusion
R. Dieckmann and H. Schmalzried
Ber. Bunsenges. Phys. Chem., 90 (7) [1986] 564-575.

[31]

Defects and Cation Diffusion in Magnetite (VII): Diffusion Controlled Formation of Magnetite During Reactions in the Iron-Oxygen System
M. Backhaus-Ricoult and R. Dieckmann
Ber. Bunsenges. Phys. Chem., 90 (8) [1986] 690--698.

[32]

Defect Structure and Transport Properties of Manganese Oxides: (III) Relaxation Kinetics of Manganosite (Mn_1-ΔO) in CO/CO₂ Gas Mixtures
P. Franke and R. Dieckmann
Ber. Bunsenges. Phys. Chem., 91 (1) [1987] 49-56.

[33]

Point Defect Relaxation in Manganosite (Mn_1-ΔO) After Sudden Oxygen Activity Changes in CO/CO₂ Gas Mixtures at High Temperatures
P. Franke and R. Dieckmann
in: 'Advances of Ceramics, Vol. 23: Nonstoichiometric Compounds', The American Ceramic Society, Inc., [1987] p. 17-43 (Proc. NATO ARW "Nonstoichiometric Compounds ­ The Chemistry, Physics and Technological Uses of Nonstoichiometric Compounds", University of Keele, Keele (GB), September 1-5, 1986)

[34]

Defects and Cation Diffusion in Magnetite (VIII): Migration Enthalpies for Iron and Impurity Cations
R. Dieckmann, M.R. Hilton, and T.O. Mason
Ber. Bunsenges. Phys. Chem., 91 (1) [1987] 59-66.

[35]

Internal Reduction of Wüstite Type Mixed Iron Manganese Oxides
R. Dieckmann and H. Falke
Metalurgia i Odlewnicto (Metallurgy and Foundry), 13 (1-2) [1987] 191-206 (Proc. 3rd Round Table Meeting on Physico-Chemical and Structural Properties and Kinetics of Reduction of Wüstite and Magnetite, Sept. 28 - Oct. 3, 1986, Jadwisin, Poland).

[36]

Diffusion of Cations and of Point Defects in Magnetite (Fe_3−δO₄)
R. Dieckmann
in: 'Norman L. Peterson Memorial Symposium - Oxidation of Metals and Associated Mass Transport', M.A. Dayanada, S.J. Rothman and W.E. King, Eds., The Metallurgical Society, [1987] p. 7-28 (Proc. Norman L. Peterson Memorial Symposium on Oxidation of Metals and Associated Mass Transport, Oct. 6-7, 1986, Orlando, Florida, U.S.A.)

[37]

Twin Boundaries in Hausmannite (α-Mn_3−δO₄)
L.A. Tietz, R. Dieckmann, and C.B. Carter
Proc. 45th Ann. Meeting EMSA [1987] 158-159.

[38]

Defect Structure and Transport Properties of Mixed Iron-Manganese-Oxides
P. Franke and R. Dieckmann
Solid State Ionics, 32/33 (Part II) [1989] 817-823.

[39]

Point Defects in Ceramic Oxides: How They Affect Material Properties and the Kinetics of Solid State Reactions
R. Dieckmann
Engineering: Cornell Quarterly, 23 (2) [1989] 24-28.

[40]

Thermodynamics of Iron Manganese Mixed Oxides at High Temperatures
P. Franke and R. Dieckmann
J. Phys. Chem. Solids, 51 (1) [1990] 49-57.

[41]

The Question of Vacancy Clusters in Manganosite Mn_1−ΔO
D. Schuster, W. Schweika, and R. Dieckmann
Ber. Bunsenges. Phys. Chem., 93 (11) [1989] 1347-1349.

[42]

True Chemical Diffusivity and Surface Reactivity of Cobaltous Oxide
F. Morin and R. Dieckmann
J. Phys. Chem. Solids, 51 (3) [1990] 283-288.

[43]

The Nonstoichiometry and the Point Defect Structure of Cuprous Oxide (Cu_2−δO)
J. Xue and R. Dieckmann
J. Phys. Chem. Solids, 51 (11) [1990] 1263-1275.

[44]

The High Temperature Phase Diagram of the System Cu-O in the Stability Region of Cuprous Oxide (Cu_2−δO)
J. Xue and R. Dieckmann
High Pressures – High Temperatures, 24 (3) [1992] 271-284.

[45]

Kinetics of the Oxidation of Manganosite (Mn_1−ΔO) to Hausmannite (β‑Mn_3−δO₄) at High Temperatures
S. Tinkler and R. Dieckmann
Solid State Ionics, 45 (1-2) [1991] 57-65.

[46]

Transition Metal Oxide - Platinum Alloy Phase Equilibria and Their Consequences for Non-Stoichiometry Measurements
R. Dieckmann
Solid State Ionics, 45 (3-4) [1991] 271-276.

[47]

 Non-Stoichiometry and Point Defect Structure of Monoclinic and Tetragonal Zirconia (ZrO_2+δ)
J. Xue and R. Dieckmann
J. Electrochem. Soc., 138 (2) [1991] 36C-40C.

[48]

Correlation Factors for Diffusion in Binary Random Alloys With FCC‑Structure
P. Franke and R. Dieckmann
J. Appl. Phys., 70 (2) [1991] 787-792.

[49]

Limits of the Thermodynamic Stability of Cobalt-Iron-Manganese Mixed Oxides at 1200 °C
R. Subramanian and R. Dieckmann
J. Am. Ceram. Soc., 75 (2) [1992] 382-391.

[50]

Electrochemical Investigation of the Oxygen Activity at the Manganosite-Hausmannite Equilibrium
M. Keller, J. Xue, and R. Dieckmann
J. Electrochem. Soc., 138 (11) [1991] 3398-3401.

[51]

The Limited Role of Cation Bulk Diffusion in the Oxidation of Pure Iron to Magnetite
S. Tinkler and R. Dieckmann
J. Mater. Sci., 27 (14) [1992] 3799-3802.

[52]

Non-Stoichiometry and Point Defects in Zirconia
J. Xue and R. Dieckmann
in 'Point Defects Related Properties of Ceramics,' T.O. Mason and J. Routbort, Eds., Ceram. Trans., 24 [1991] 49-56.

[53]

Non-Stoichiometry and Cation Tracer Diffusion in Cobalt-Iron-Manganese Mixed Oxide Spinels
F.-H. Lu and R. Dieckmann
in 'Point Defects Related Properties of Ceramics,' T.O. Mason and J. Routbort, Eds., Ceram. Trans., 24 [1991] 185-192.

[54]

Kinetics and Morphology of Spinel Formation by Solid State Reaction in the Co‑Fe‑O System
S. Tinkler and R. Dieckmann
in 'Point Defects Related Properties of Ceramics,' T.O. Mason and J. Routbort, Eds., Ceram. Trans., 24 [1991] 377-385.

[55]

Non-Stoichiometry and Point Defect Structure in Cobaltous Oxide
S. Aggarwal and R. Dieckmann
in 'Point Defects Related Properties of Ceramics,' T.O. Mason and J. Routbort, Eds., Ceram. Trans., 24 [1991] 23-30.

[56]

Point Defects and Diffusion in Non-Stoichiometric Metal Oxides
R. Dieckmann
MRS Bulletin, 16 (12) [1991] 27-32.

[57]

Heating With Light: Growing Ceramic Single Crystals at Very High Temperatures
R. Geray and R. Dieckmann
Cornell Engineering Quarterly, 26 (1) [1991] 19-23.

[58]

Point Defects and Cation Tracer Diffusion in (Co,Fe,Mn)_3−δO₄ Spinels: I. Mixed Spinels (Co_xFe_2yMn_y)_3−δO₄
F.-H. Lu and R. Dieckmann
Solid State Ionics, 53-56 (Pt. I) [1992] 290-302.

[59]

Zirconia - A Non-Inert Material Reacting with Platinum and Oxygen Containing Gases
J. Xue and R. Dieckmann
Solid State Ionics, 53-56 (Pt. I) [1992] 209-219.

[60]

Preparation of Uniformly CaO-Doped Zirconia
J. Hill, M. Newhouse, J. Xue and R. Dieckmann
Journal of Materials Synthesis and Processing, 1 (2) [1993] 101-109.

[61]

On the Use of Chemical Reequilibration to Determine True Diffusivity in CoO
F. Morin and R. Dieckmann
J. Phys. Chem. Solids, 54 (1) [1993] 31-33.

[62]

In Situ Formation of Metal-Ceramic Microstructures, Including Metal-Ceramic Composites, Using Reduction Reactions
E. Ustundag, R. Subramanian, R. Vaja, R. Dieckmann and S.L. Sass
Acta Metallurgica et Materialia, 41 (7) [1993] 2153-2161.

[63]

Point Defects and Cation Tracer Diffusion in (Co,Fe,Mn)_3-δO₄ Spinels: II. Mixed Spinels (Co_xFe_zMn_2z)_3−δO₄
F.-H. Lu and R. Dieckmann
Solid State Ionics, 59 (1-2) [1993] 71-82.

[64]

Point Defects and Transport in Hematite (Fe₂O_3−ε)
R. Dieckmann
Phil. Mag. A, 68 (4) [1993] 725-745.

[65]

Point Defects and Cation Tracer Diffusion in (Co,Fe,Mn)_3−δO₄ Spinel Solid Solutions
F.-H. Lu and R. Dieckmann
Proceedings of the XII International Conference on Defects in Insulating Materials, Schloß Nordkirchen, Germany, August 16-22, 1992, O. Kanert and J.-M. Spaeth, Eds., World Scientific Publishing Co. Pte. Ltd., Singapore, [1993] Vol. 2, 982-984.

[66]

Oxygen Content and Point Defects in Pure and Doped Zirconia (ZrO₂)
J. Xue and R. Dieckmann
Proceedings of the XII International Conference on Defects in Insulating Materials, Schloß Nordkirchen, Germany, August 16-22, 1992, O. Kanert and J.-M. Spaeth, Eds., World Scientific Publishing Co. Pte. Ltd., Singapore, [1993] Vol. 2, 739-741.

[67]

Point Defects and Cation Tracer Diffusion in (Co_xFe_1−x)_3−δO₄ Spinels
F.-H. Lu, S. Tinkler and R. Dieckmann
Solid State Ionics, 62 (1-2) [1993] 39-52.

[68]

Sol-Gel Synthesis of Chromium-Doped Forsterite
D.G. Park. J.M. Burlitch, R.F. Geray, R. Dieckmann, D.B. Barber and C.R. Pollock
Chem. Mater., 5 (4) [1993] 518-524.

[69]

Preparation of Olivines (Fe_xMg_1−x)₂SiO₄ by Sol-Gel Technique
T.-L. Tsai, D. Robinson and R. Dieckmann
Journal of Materials Synthesis and Processing, 1 (6) [1993] 395-404.

[70]

Oxidation of Aluminum Nitride Substrates
D. Robinson and R. Dieckmann
J. Mater. Sci., 29 (7) [1994] 1949-1957.

[71]

Oxide Film Formation on Aluminum Nitride Substrates Covered with thin Aluminum Layers
D.A. Robinson, G. Yin and R. Dieckmann
J. Mater. Sci., 29 [1994] 2389-2394.

[72]

Nonstoichiometry and Thermodynamics of (Fe,Mn)_1−ΔO Solid Solutions at 1200 °C
R. Subramanian and R. Dieckmann
J. Phys. Chem. Solids, 54 (9) [1993] 991-1000.

[73]

Variation of the Oxygen Content in Tetragonal, Calcium Oxide-Doped Zirconia
J. Xue and R. Dieckmann
Solid State Ionics, 73 (3-4) [1994] 273-282.

[74]

Thermodynamics of the Solid Solution (Fe,Co)_1−ΔO at 1200 °C
R. Subramanian and R. Dieckmann
J. Phys. Chem. Solids, 55 (1) [1994] 59-67.

[75]

In Situ Formation of Metal-Ceramic Microstructures by Partial Reduction Reactions
R. Subramanian, E. Üstündag, R. Dieckmann and S.L. Sass
in 'Advances in Ceramic-Matrix Composites,' N.P. Bansal, Ed., Ceram. Trans., 38 [1994] 127-147.

[76]

Monte Carlo Simulation of Cation Transport via Vacancies in Spinel Solid Solutions: One Type of Cation Exchange Prevails
F.-H. Lu, P. Franke, C.S. Nichols and R. Dieckmann
J. Appl. Phys., 75 (2) [1994] 819-826.

[77]

In Situ Formation of Metal-Ceramic Composites and Ductile Phase Toughened Ceramics Using Partial Reduction Reactions
E. Ustundag, R. Subramanian, R. Dieckmann and S.L. Sass
in: 'Processing, Fabrication and Application of Advanced Composites,' K. Upadhy, Ed., ASM International, Materials Park, OH, [1993] p. 39-49 (Proceedings Conference on Processing, Fabrication and Application of Advanced Composites, Long Beach, CA, August 9-11).

[78]

Defects and Transport in the Solid Solution (Co,Fe)_1−ΔO at 1200 °C - I. Nonstoichiometry
R. Subramanian, S. Tinkler and R. Dieckmann
J. Phys. Chem. Solids, 55 (1) [1994] 69-75.

[79]

Defects and Transport in the Solid Solution (Co,Fe)_1−ΔO at 1200 °C - II. Cation Tracer Diffusion and Electrical Conductivity
S. Tinkler, R. Subramanian and R. Dieckmann
J. Phys. Chem. Solids, 55 (3) [1994] 273-286.

[80]

Growth of Cr⁴⁺-rich, Chromium-Doped Forsterite Single Crystals by the Floating Zone Method
M. Higuchi, R.F. Geray, R. Dieckmann, D.G. Park, J.M. Burlitch, D.B. Barber and C.R. Pollock
J. Cryst. Growth, 148 (1-2) [1995] 140-147.

[81]

Formation of a New Aluminum Oxide with the Composition AlO₂ by Interfacial Reaction between Pt and α-Al₂O₃
Y.-C. Lu, R. Dieckmann and S.L. Sass
Acta Metallurgica et Materialia, 42 (4) [1994] 1125-1137.

[82]

Point Defects and Cation Tracer Diffusion in (Co_xMn_1−x)_3−δO₄ Spinels
F.-H. Lu and R. Dieckmann
Solid State Ionics, 67 (1-2) [1993] 145-155.

[83]

Model Calculations of Phase Stabilities of Oxide Solid Solutions in the Co-Fe-Mn-O System at 1200 °C
R. Subramanian, R. Dieckmann, G. Eriksson and A. Pelton
J. Phys. Chem. Solids, 55 (5) [1994] 391-404.

[84]

In Situ Formation of Metal-Ceramic Composites and Ductile Phase Toughened Ceramics by Reduction Reactions
E. Üstündag, R. Subramanian, R. Dieckmann and S.L. Sass
in: "In-Situ Composites: Science and Technology," M. Singh and D. Lewis, Eds., The Minerals, Metals & Materials Society, Warrendale, PA, U.S.A., [1994] p. 97-113,. (Proceedings of the Symposium In Situ Composites: Science and Technology, October 1993, Pittsburgh, Pennsylvania, U.S.A.)

[85]

In Situ Formation of Metal-Ceramic Microstructures in the Ni-Al-O System by Partial Reduction Reactions
E. Üstündag, R. Subramanian, R. Dieckmann and S.L. Sass
Acta Metallurgica et Materialia, 43 (1) [1995] 383-389.

[86]

Oxygen Transport in Aluminum Nitride Substrates
H. Solmon, D. Robinson and R. Dieckmann
J. Amer. Ceram. Soc., 77 (11) [1994] 2841-2848.

[87]

Growth of Nickel Aluminate Single Crystals by the Floating Zone Method
R. Subramanian, M. Higuchi and R. Dieckmann
J. Cryst. Growth, 143 (3-4) [1994] 311-316.

[88]

Monte Carlo Simulation of Cation Diffusion via Vacancies in Quasi-Binary Spinel Solid Solutions Involving Multiple Types of Cation-Vacancy Exchanges
F.-H. Lu, P. Franke, C.S. Nichols and R. Dieckmann
J. Appl. Phys., 76 (2) [1994] 848-857.

[89]

9.6 Ghz and 34 GHz EPR Studies of Chromium-Doped Forsterite
D.E. Budil, D.G. Park, J.M. Burlitch, R.F. Geray, R. Dieckmann and J.H. Freed
J. Chem Phys., 101 (5) [1994] 3538-3548.

[90]

Oxygen Partial Pressure Dependence of the Oxygen Content of Zirconia-Based Electrolytes
J. Xue and R. Dieckmann
in: "Ionic and Mixed Conducting Ceramics," T.A. Ramanarayanan, W.L. Worrell and H.L. Tuller, Eds., High Temperature Materials Division, Proceedings Vol. 94-12, The Electrochemical Society, Pennington, NJ, [1994] 191-208. (Proceedings of the Second International Symposium on Ionic and Mixed Conducting Ceramics, 185th Meeting of The Electrochemical Society, San Francisco, May 22-27, 1994)

[91]

Platinum - A Non-Inert Material Reacting with Oxides
F.-H. Lu, M.L. Newhouse, J. Xue and R. Dieckmann
Solid State Ionics, 75 [1995] 187-192.

[92]

In-Situ Formation of Metal-Ceramic Microstructures by Partial Reduction Reactions
R. Subramanian, E. Üstündag, S.L. Sass and R. Dieckmann
Solid State Ionics, 75 [1995] 241-255.

[93]

In-Situ Formation of Ductile Phase Toughened Ceramics by Partial Reduction Reactions in the Ni-Al-O System
E. Üstündag, R. Subramanian, R. Dieckmann and S.L. Sass
in 'Advances in Ceramic-Matrix Composites II,' J.P. Singh and N. Bansal, Eds., Ceram Trans., 46 [1995] 439-450.

[94]

Effect of Dopants on the In-Situ Formation of Metal-Ceramic Microstructures by Partial Reduction Reactions
R. Subramanian, E. Üstündag, S.L. Sass and R. Dieckmann
in 'Advances in Ceramic-Matrix Composites II,' J.P. Singh and N. Bansal, Eds., Ceram Trans., 46 [1995] 451-461.

[95]

Formation of an Aluminum Peroxide Oxide, AlO₂, by Interfacial Reaction Between Pt and α-Al₂O₃
Y.-C. Lu, R. Dieckmann and S.L. Sass
J. Phys. Chem. Solids, 55 (10) [1994] 1083-1095. (Atomic Scale Imperfections in Materials, R.W. Balluffi Festschrift, D.N. Seidman, R.W. Siegel and P.D. Bristowe, Eds.).

[96]

Oxygen Activity Dependent Dissolution of Nickel from Nickel Oxide into Platinum
F.-H. Lu, M.L. Newhouse and R. Dieckmann
J. Phys. Chem. Solids, 56 (5) [1995] 715-724.

[97]

Point Defects in Oxide Spinel Solid Solutions of the Type (Co,Fe,Mn)_3−δO₄ at 1200 °C
F.-H. Lu and R. Dieckmann
J. Phys. Chem. Solids, 56 (5) [1995] 725-733.

[98]

Metal-Ceramic Microstructure Control in Partial Reduction Reactions in the Model System Fe-Mn-O by Doping
R. Subramanian, E. Üstündag, S.L. Sass and R. Dieckmann
Mater. Sci. Eng. A, 195 [1995] 51-63.

[99]

Further Characterization of the Aluminum Peroxide Oxide, AlO₂, Formed by Interfacial Reaction Between Pt and α-Al₂O₃
Y.-C. Lu, S. Agnew, R. Dieckmann and S.L. Sass
Acta Metallurgica et Materialia, 43 (5) [1995] 1885-1893

[100]

In Situ Metal-Ceramic Microstructures by Partial Reduction Reactions in the Ni-Al-O system and the Role of ZrO₂
E. Üstündag, P. Ret, R. Subramanian, R. Dieckmann and S.L. Sass
Mater. Sci. Eng. A, 195 [1995] 39-50.

[101]

Control of the Morphology of Metal-Ceramic Microstructures by Impurity Addition in the Model System Fe-Mn-O
R. Subramanian, E. Üstündag, S.L. Sass and R. Dieckmann
in: "In situ Reactions for Synthesis of Composites, Ceramics, and Intermetallics," E.V. Barrera, F.D.S. Marquis, W.E. Frazier, S.G. Fishman, N.N. Thadhani and Z.A. Munir, TMS, Warrendale, PA, [1995] p. 87-97. (Proceedings Symposium In-Situ Reactions for Synthesis of Composites, Ceramics and Intermetallics, TMS 124 Annual Meeting, February 12-16, 1995).

[102]

Displacement Reactions in the Ni-Al-O System Resulting in Periodic Layer Structures
D. Song, R. Subramanian and R. Dieckmann
MRS Proceedings Vol. 365, "Ceramic Matrix Composites - Advanced High-Temperature Structural Materials," R.A. Lowden, M.K. Ferber, J.R. Hellmann, K.K. Chawla and S.G. DiPietro, Eds., Materials Research Society, Pittsburgh, PA [1995] p. 59-64.

[103]

Metal-Ceramic Microstructures in the Fe-Mn-O System - Morphology Control by Impurity Addition
R. Subramanian, E. Üstündag, S.L. Sass and R. Dieckmann
MRS Proceedings Vol. 365, "Ceramic Matrix Composites - Advanced High-Temperature Structural Materials," R.A. Lowden, M.K. Ferber, J.R. Hellmann, K.K. Chawla and S.G. DiPietro, Eds., Materials Research Society, Pittsburgh, PA [1995] p. 95-100.

[104]

Ductile Phase Toughened Ceramics by Partial Reduction Reactions in the Ni-Al-O System: Mechanical Properties and Effect of Dopants
E. Üstündag, P. Ret, Y. Shapiro, R. Subramanian, R. Dieckmann and S.L. Sass
MRS Proceedings Vol. 365, "Ceramic Matrix Composites - Advanced High-Temperature Structural Materials," R.A. Lowden, M.K. Ferber, J.R. Hellmann, K.K. Chawla and S.G. DiPietro, Eds., Materials Research Society, Pittsburgh, PA [1995] p. 125-130.

[105]

Point Defects and Cation Diffusion in Cobaltous Oxide
S. Aggarwal and R. Dieckmann
MRS Proceedings Vol. 369, "Solid State Ionics IV," G.-A. Nazri, J.-M. Tarascon and M. Schreiber, Eds., Materials Research Society, Pittsburgh, PA [1995] 301-306.

[106]

Non-Stoichiometry and Cation Tracer Diffusion in the Magnetite-Ulvöspinel Solution, (Fe,Ti)_3−δO₄
S. Aggarwal and R. Dieckmann
MRS Proceedings Vol. 369, "Solid State Ionics IV," G.-A. Nazri, J.-M. Tarascon and M. Schreiber, Eds., Materials Research Society, Pittsburgh, PA [1995] 307-312.

[107]

Nonstoichiometry and Point Defect Structure of Olivines, (Fe_xMg_1−x)₂SiO₄

T.-L. Tsai and R. Dieckmann
MRS Proceedings Vol. 369, "Solid State Ionics IV," G.-A. Nazri, J.-M. Tarascon and M. Schreiber, Eds., Materials Research Society, Pittsburgh, PA [1995] 313-318.

[108]

Point Defects and Cation Tracer Diffusion in (Cr_xFe_1−x)_3−δO₄
J. Töpfer and R. Dieckmann
MRS Proceedings Vol. 369, "Solid State Ionics IV," G.-A. Nazri, J.-M. Tarascon and M. Schreiber, Eds., Materials Research Society, Pittsburgh, PA [1995] 319-324.

[109]

Quenching of the Fluorescence from Chromium (III) Ions in Chromium-Doped Forsterite by an Aluminum Co-dopant
J.L. Mass, J.M. Burlitch, D.E. Budil, J.H. Freed, D.B. Barber, C.R. Pollock, M. Higuchi and R. Dieckmann
Chem. Mater., 7 (5) [1995] 1008-1014.

[110]

Growth of Olivine, (Fe_xMg_1−x)₂SiO₄, Single Crystals With Uniform Composition Along the Growth Direction by the Floating Zone Method
T.-L. Tsai, S.A. Markgraf and R. Dieckmann
in: 'Crystal Growth of Novel Electronic Materials,' R.K. Panday and R. Guo, Eds., Ceram. Trans., 60 [1995] 105-114.

[111]

Point Defects and Cation Tracer Diffusion in (Cr_xFe_1−x)_3−δO₄ Spinels
J. Töpfer, S. Aggarwal and R. Dieckmann
Solid State Ionics, 81 (3-4) [1995] 251-266.

[112]

Point Defects and Transport of Matter and Charge in Non-Stoichiometric Oxides
R. Dieckmann
in: 'Crystal Growth of Novel Electronic Materials,' R.K. Panday and R. Guo, Eds., Ceram. Trans., 60 [1995] 301-330.

[113]

Variation of the Oxygen Content and Point Defects in Olivines, (Fe_xMg_1−x)₂SiO_4+δ, 0.2 ≤ x ≤ 1.0
T.-L. Tsai and R. Dieckmann
Phys. Chem. Miner., 29 (10) [2002] 680-694.

[114]

Variation of the Oxygen Content and Point Defects in Tephroite, Mn₂SiO_4+δ
J. Töpfer and R. Dieckmann
Solid Sate Ionics, 181 (11-12) [2010] 479-488 (article available at http://dx.doi.org/10.1016/j.ssi.2010.02.004).

[115]

Oxygen Activity Dependence of the Chromium (IV) Population in Chromium-Doped Forsterite Crystals Grown by the Floating Zone Technique
J.L. Maas, J.M. Burlitch, S.A. Markgraf, M. Higuchi, R. Dieckmann, D.B. Barber and C.R. Pollock
J. Cryst. Growth, 165 (3) [1996] 250-257.

[116]

Point Defects and Transport of Matter and Charge in Non-Stoichiometric Oxides (II)
R. Dieckmann
in: 'Mass and Charge Transport in Ceramics,' K. Koumoto, L.M. Sheppard and H. Matsubara, Eds., Ceram. Trans., 71 [1996] 33-50.

[117]

Floating-Zone Growth and Characterization of Fe₂SiO₄ Single Crystals
T.-L. Tsai, S.A. Markgraf and R. Dieckmann
J. Cryst. Growth, 169 (4) [1996] 759-763.

[118]

Growth of (Fe_xMg_1−x)₂SiO₄ Single Crystals by the Double Pass Floating Zone Method
T.-L. Tsai, S.A. Markgraf, M. Higuchi and R. Dieckmann
J. Cryst. Growth, 169 (4) [1996] 764-772.

[119]

Influence of Different Divalent Co-Dopants on the Cr⁴⁺ Content of Cr-Doped Y₃Al₅O₁₂
S.A. Markgraf, M.F. Pangborn and R. Dieckmann
J. Cryst. Growth, 180 (1) [1997] 81-84.

[120]

Point Defects and Cation Tracer Diffusion in (Ti_xFe_1−x)_3−δO₄: I. Nonstoichiometry and Point Defects
S. Aggarwal and R. Dieckmann
Phys. Chem. Miner., 29 (10) [2002] 695-706.

[121]

Point Defects and Cation Tracer Diffusion in (Ti_xFe_1−x)_3−δO₄: II. Cation Tracer Diffusion
S. Aggarwal and R. Dieckmann
Phys. Chem. Miner., 29 (10) [2002] 707-718.

[122]

Point Defects and Transport of Matter and Charge in Olivines, (Fe_xMg_1−x)₂SiO₄
T.-L. Tsai and R. Dieckmann
Mater. Sci. Forum, 239-241 [1997] 399-402. (Proc. 13th International Conference on Defects in Insulating Materials, Wake Forest University, July 15-19, 1996, Winston-Salem, North Carolina, U.S.A., G.E. Matthews and R.T. Williams, Eds.)

[123]

Cation Tracer Diffusion in Oxides
T.-L. Tsai, J. Töpfer, S. Aggarwal, E. Chen and R. Dieckmann
Defects and Diffusion Forum, 143-147 [1997] 1183-1188. (Proc. Intl. Conf. 'DIMAT96', August 5-9, 1996, Nordkirchen, Germany, H. Mehrer, C. Herzig, N.A. Stolwijk and H. Bracht, Eds.).

[124]

Contributions of Bulk and Near-Boundary Regions to the Variation of the Oxygen Content in Cu_2−δO
S. Aggarwal and R. Dieckmann
J. Phys. Chem. Solids, (revision to be completed)

[125]

Point Defects and Transport in Binary and Ternary, Non-Stoichiometric Oxides
S. Aggarwal, J. Töpfer, T.-L. Tsai and R. Dieckmann
Solid State Ionics, 101-103 (Pt. I) [1997] 321-331.

[126]

Point Defects and Transport in Non-Stoichiometric Oxides: Solved and Unsolved Problems
R. Dieckmann
J. Phys. Chem. Solids, 59 (4) [1998] 507-525.

[127]

The Temperature-Dependent Cation Distribution in Magnetite
S. Wißmann, V. v. Wurmb, F.J. Litterst, R. Dieckmann and K.D. Becker
J. Phys. Chem. Solids, 59 (3) [1998] 321-330.

[128]

The Synthesis of Vanadium-Doped Forsterite by the H₂O₂-Assisted Sol-Gel Method, and the Growth of Single Crystals of Vanadium-Doped Forsterite by the Floating Zone Method
D.G. Park, M. Higuchi, R. Dieckmann and J. Burlitch
Bull. Korean Chem. Soc., 19 (9) [1998] 927-933.

[129]

Sodium Tracer Diffusion in an Alkaline-Earth Boroaluminosilicate Glass
L. Tian and R. Dieckmann
J. Non-Cryst. Solids, 265 (1-2) [2000] 36-40.

[130]

Influence of 'Water' on the Diffusion of Sodium in Fused Quartz and in an Alkaline-Earth Aluminoborosilicate Glass
L. Tian, R. Dieckmann, Y.-Y. Lin and C.-Y. Hui
in: 'Mass and Charge Transport in Inorganic Materials - Fundamentals to Devices,' P. Vincenzini and V. Buscaglia, Eds., Advances in Science and Technology (Techna, Faenca, Italy), 29 [2000] 329-340 (Proceedings of the International Conference on "Mass and Charge Transport in Inorganic Materials: Fundamentals to Devices," Lido di Jesolo (Venice), Italy, May 28 - June 2, 2000).

[131]

Bulk Diffusion Measurements to Study the Effectiveness of Barrier Layers
L. Tian, R. Dieckmann, Y.-Y. Lin and C.-Y. Hui
in: 'Mass and Charge Transport in Inorganic Materials - Fundamentals to Devices,' P. Vincenzini and V. Buscaglia, Eds., Advances in Science and Technology (Techna, Faenca, Italy), 29 [2000] 565-572 (Proceedings of the International Conference on "Mass and Charge Transport in Inorganic Materials: Fundamentals to Devices," Lido di Jesolo (Venice), Italy, May 28 - June 2, 2000)

[132]

Sodium Tracer Diffusion in a Glass-Ceramic Containing Nano-Sized Spinel Crystals 
L. Tian and R. Dieckmann 
J. Non-Cryst. Solids, 281 (1-3) [2001] 55-60.

[133]

The Effect of Water Incorporation on the Diffusion of Sodium in an Alkaline-Earth Boroaluminosilicate Glass
L. Tian, R. Dieckmann, C.-Y. Hui and J.G. Couillard 
J. Non-Cryst. Solids, 296 (1-2) [2001] 123-134

[134]

Effect of Water Incorporation on the Diffusion of Sodium in Type I Silica Glass
L. Tian, R. Dieckmann, C.-Y. Hui, Y.-Y. Lin and J.G. Couillard 
J. Non-Cryst. Solids, 286 (3) [2001] 146-161.

[135]

Impurity Controlled Phase Formation at Platinum-Sapphire Interfaces
M.J. Murtagh, J. Hulvat, R. Dieckmann and S.L. Sass
Acta Mater., 49 (17) [2001] 3493-3504.

[136]

Bulk Diffusion Measurements to Study the Effectiveness of Barrier Layers: I. Mathematical Treatment
L. Tian, M.O. Thompson, R. Dieckmann, C.-Y. Hui and Y.-Y. Lin
J. Appl. Phys., 90 (8) [2001] 3799-3809.

[137]

Bulk Diffusion Measurements to Study the Effectiveness of Barrier Layers: II. Exchange of Sodium Between LCD Glass Substrates with Different Barrier Layers
L. Tian and R. Dieckmann
J. Appl. Phys., 90 (8) [2001] 3810-3815.

[138]

Humidity Sensors Based on Pentacene Thin-Film Transistors
Z.-T. Zhu, J.T. Mason, R. Dieckmann and G.G. Malliaras
Appl. Phys. Lett., 81 (24) [2002] 4643-4645.

[139]

Influence of Water on the Tracer Diffusion of Sodium in Glasses
L. Tian, H. Lu and R. Dieckmann
Phys. Chem. Chem. Phys., 5 (11) [2003] 2202-2211.

[140]

Deviation from Stoichiometry and Point Defects in (Zn_xMn_1−xFe₂)_1−δ/3O₄
J. Töpfer, Li Liu and R. Dieckmann
Solid State Ionics, 159 (3/4) [2003] 397-404. (article available at http://www.sciencedirect.com/science/journal/01672738)

[141]

Deviation from Stoichiometry and Point Defects in

(Zn_x−y/4Mn_1−x−3y/4Fe_2+y)_1−δ/3O₄
J. Töpfer and R. Dieckmann
J. Europ. Ceram. Soc., 24 (3) [2004] 603-612. (article available at http://www.sciencedirect.com/science/journal/09552219)

[142]

Influence of Impurities on the Oxygen Activity-Dependent Variation of the Oxygen Content of a Commercial, CaO-Doped Zirconia
J. Xue, J. Hill Tinkler and R. Dieckmann
Solid State Ionics, 166 (1-2) [2004] 199-205. (article available at http://www.sciencedirect.com/science/journal/01672738)

[143]

Solution and Transport of Water in Oxides
R. Dieckmann
Materials at High Temperatures, 22 (1-2) [2005] 93-103.

[144]

Incorporation of Water into Glasses and its Influence on the Diffusion of Cations, Including the Creation of Diffusion Barrier Layers
L. Tian and R. Dieckmann
J. Non-Cryst. Solids, 352 (6-7) [2006] 679-689. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2005.11.056)

[145]

Full Recovery of Electron Damage in Glass at Ambient Temperatures

K.A. Mkhoyan, J. Silcox, A. Ellison, D. Ast and R. Dieckmann

Phys. Rev. Lett., 96 [2006] 205506(1)-205506(4)

[146]

Cation Tracer Diffusion in the Thermoelectric Materials Cu₃Mo₆Se₈ and “β‑Zn₄Sb₃”

E. Chalfin, H. Lu and R. Dieckmann

Solid State Ionics, 178 (5-6) [2007] 447-456. (article available at http://dx.doi.org/10.1016/j.ssi.2007.01.026)

[147]

Sodium Tracer Diffusion in Glasses of the Type (CaO∙Al₂O₃)_x(2 SiO₂)_1−x

H. Lu and R. Dieckmann

J. Non-Cryst. Solids, 353 (26) [2007] 2528-2544. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2007.04.024)

[148]

Predicting Anisotropic Electrical Conductivities of a Magnetic Insulator on the Basis of its Magnetic Properties

K.H. Lee, R. Dieckmann, C. Lee and M.-H. Whangbo

Chem. Mater., 19 (18) [2007] 4393-4395.

[149]

Does the Valence State of an Ion Affect its Diffusivity? - Part I: Oxygen Activity Dependence of the Diffusion of Iron in Alumina-Doped MgO

E. Chen, T.-L. Tsai and R. Dieckmann

Solid State Sciences, 10 (6) [2008] 735-745. (article available at http://dx.doi.org/10.1016/j.solidstatesciences.2007.03.021)

[150]

Floating-Zone Growth and Characterization of Single Crystals of Cobalt Orthosilicate, Co₂SiO₄

Q. Tang and R. Dieckmann

J. Cryst. Growth, 317 (1) [2011] 119-127. (article available at http://dx.doi.org/10.1016/j.jcrysgro.2011.01.014)

[151]

Sodium Tracer Diffusion in Glasses of the Type (Na₂O)_0.2[(BO_1.5)_x(SiO₂)_1−x]_0.8

X. Wu and R. Dieckmann

J. Non-Cryst. Solids, 357 (15) [2011] 2846-2856. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2011.03.020)

[152]

Point Defects and Orientation-dependent Transport of Matter and Charge in Iron-containing Olivines

T.-L. Tsai, K.-D. Becker and R. Dieckmann

Solid State Ionics, 194 (1) [2011] 17-32. (article available at

http://dx.doi.org/10.1016/j.ssi.2011.05.001)

[153]

Sodium Tracer Diffusion in Glasses of the Type (Na₂O)_0.2(B₂O₃)_y(SiO₂)_0.8−y

X. Wu, A.K. Varshneya and R. Dieckmann

J. Non-Cryst. Solids, 357 (21) [2011] 3661-3669. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2011.06.026)

[154]

Sodium Tracer Diffusion in a Sodium Aluminosilicate Glass

X. Wu and R. Dieckmann

J. Non-Cryst. Solids, 357 (22-23) [2011] 3797-3802. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2011.07.038)

[155]

Orientation, Oxygen Activity and Temperature Dependencies of the Diffusion of Cobalt in Cobalt Orthosilicate, Co₂SiO₄

Q. Tang and R. Dieckmann

Solid State Ionics, 212 [2012] 66-76. (article available at

http://dx.doi.org/10.1016/j.ssi.2012.02.016)

[156]

Sodium Tracer Diffusion in Sodium Boroaluminosilicate Glasses

X. Wu, J.D. Moskowitz, J.C. Mauro, M. Potuzak, Q. Zheng and R. Dieckmann

J. Non-Cryst. Solids, 358 (12-13) [2012] 1430-1437. (article available at http://dx.doi.org/10.1016/j.jnoncrysol.2012.03.004)

[157]

Floating-Zone Growth and Characterization of Single Crystals of Manganese Orthosilicate, Mn₂SiO₄

Q. Tang and R. Dieckmann

J. Cryst. Growth, 361 [2012] 89-97. (article available at

http://dx.doi.org/10.1016/j.jcrysgro.2012.08.054)

[158]

Orientation, Oxygen Activity and Temperature Dependencies of the Diffusion of Manganese in Manganese Orthosilicate, Mn₂SiO₄

Q. Tang and R. Dieckmann

Solid State Ionics, 228 [2012] 70-79. (article available at

http://dx.doi.org/10.1016/j.ssi.2012.09.008)

[159]

Anisotropy of the Electrical Conductivity of the Fayalite, Fe₂SiO₄, Investigated by Spin Dimer Analysis

K.H. Lee, J. Lee  and R. Dieckmann

Bull. Korean Chem. Soc., 34 (2) [2013] 629-632. (article available at

http://dx.doi.org/10.5012/bkcs.2013.34.2.629)

[160]

Sodium Tracer Diffusion and ¹¹B NMR Study of Glasses of the Type (Na₂O)_0.17(B₂O₃)_x(SiO₂)_0.83−x

X. Wu, R.E. Youngman and R. Dieckmann

J. Non-Cryst. Solids, 378 [2013] 168-176. (article available at

http://dx.doi.org/10.1016/j.jnoncrysol.2013.06.012)