Erwin Mayer (1937–2011)
Founder of the Research Group.
Publications:
since 2011
2006–2010
2001–2005
1996–2000
1991–1995
1986–1990
1981–1985
1976–1980
1971–1975
1964–1970
| 206. |
Formation and stability of bulk carbonic acid (H2CO3) by protonation of tropospheric calcite. |
| 205. |
Local structural order in carbonic acid polymorphs: Raman and FT-IR spectroscopy. |
| 204. |
Cryoflotation: densities of amorphous and crystalline ices. |
| 203. |
Equilibrated high-density amorphous ice and its first-order transition to the low-density form. |
| 202. |
How many amorphous ices are there? |
| 201. |
Volumetric study consistent with a glass-to-liquid transition in amorphous ices under pressure. |
| 200. |
Different freezing behaviour of millimetre- and micrometer-scaled (NH4)2SO4/H2O droplets. |
| 199. |
Pressure-amorphized cubic structure II clathrate hydrate: crystallization in slow motion. |
| 198. |
Spectroscopic observation of matrix-isolated carbonic acid trapped from the gas phase. Spektroskopische Beobachtung von matrixisolierter Kohlensäure, abgeschieden aus der Gasphase. |
| 197. |
Formation of mixed-phase particles during freezing of polar stratospheric ice clouds. |
| 196. |
Reversibility and isotope effect of the calorimetric glass→liquid transition of low-density amorphous ice. |
| 195. |
Ice XV: a new thermodynamically stable phase of ice. |
| 194. |
Hexagonal ice transforms at high pressures and compression rates directly into "doubly metastable" ice phases. |
| 193. |
Relaxation effects in low density amorphous ice: two distinct structural states observed by neutron diffraction. Relaxation effects in low density amorphous ice: two distinct structural states observed by neutron diffraction. |
| 192. |
Raman spectroscopic study of the phase transition of amorphous to crystalline β-carbonic acid. Raman-spektroskopische Studie der Phasenumwandlung von amorpher in kristalline β-Kohlensäure. |
| 191. |
Radicals produced by γ-irradiation of hyperquenched glassy water containing 2'-Deoxyguanosine-5'-monophosphate. |
| 190. |
A calorimetric study on the low temperature dynamics of doped ice V and its reversible phase transition to hydrogen ordered ice XIII. |
| 189. |
Structural transitions in amorphous H2O and D2O: the effect of temperature. |
| 188. |
Compression-rate dependence of the phase transition from hexagonal ice to ice II and/or ice III. |
| 187. |
Water polyamorphism: reversibility and (dis)continuity. |
| 186. |
Novel method to detect the volumetric glass→liquid transition at high pressures: glycerol as a test case. |
| 185. |
New hydrogen ordered phases of ice. |
| 184. |
Isothermal amorphous-amorphous-amorphous transitions in water. |
| 183. |
Carbonic acid: from polyamorphism to polymorphism. |
| 182. |
Isobaric annealing of high-density amorphous ice between 0.3 and 1.9 GPa: in situ density values and structural changes. |
| 181. |
Amorphous ice: stepwise formation of very-high-density amorphous ice from low-density amorphous ice at 125 K. |
| 180. |
The preparation and structures of hydrogen ordered phases of ice. |
| 179. |
The relation between high-density and very-high-density amorphous ice. |
| 178. |
High density amorphous ice from cubic ice. |
| 177. |
Raman spectroscopic study of hydrogen ordered ice XIII and of its reversible phase transition to disordered ice V. |
| 176. |
Raman spectroscopic features of hydrogen-ordering in ice XII. |
| 175. |
The local and intermediate range structures of the five amorphous ices at 80 K and ambient pressure: a Faber-Ziman and Bhatia-Thornton analysis. |
| 174. |
Z-DNA's conformer substates revealed by FT-IR difference spectroscopy of nonoriented left-handed double helical poly(dG-dC). |
| 173. |
Water behaviour: glass transition in hyperquenched water? |
| 172. |
Towards an understanding of DNA recognition by the methyl-CpG binding domain 1. |
| 171. |
Liquid-like relaxation in hyperquenched water at < 140 K. |
| 170. |
Daunomycin intercalation stabilizes distinct backbone conformations of DNA. |
| 169. |
Sulfurous acid (H2SO3) on Io? |
| 168. |
Effect of heating rate and pressure on the crystallization kinetics of high-density amorphous ice on isobaric heating between 0.2 and 1.9 GPa. |
| 167. |
Thermal properties of metastable ices IV and XII: comparison, isotope effects and relative stabilities. |
| 166. |
The low-temperature dynamics of recovered ice XII as studied by differential scanning calorimetry: a comparison with ice V. |
| 165. |
Raman spectroscopic study on hydrogen bonding in recovered Ice IV. |
| 164. |
ESR-study of γ-irradiated hyperquenched glassy water doped with thymine and its nucleoside. |
| 163. |
A dispersive model of radical accumulation in irradiated solids. |
| 162. |
Stepwise induced fit in the pico- to nanosecond time scale governs the complexation of the even-skipped transcriptional repressor homeodomain to DNA. |
| 161. |
The conformer substates on nonoriented B-type DNA in double helical poly(dG-dC). |
| 160. |
Pure ices IV and XII from high-density amorphous ice. |
| 159. |
Hydration of hydroxypyrrole influences binding of ImHpPyPy-β-Dp polyamide to DNA. |
| 158. |
Towards the experimental decomposition rate of carbonic acid (H2CO3) in aqueous solution. |
| 157. |
High-density amorphous ice and its phase transformation to ice XII. |
| 156. |
X-ray scattering study of the structure of water around myoglobin for several levels of hydration. |
| 155. |
Indirect readout of the trp-repressor-operator complex by B-DNA's backbone conformation transitions. |
| 154. |
PvuII-endonuclease induces structural alterations at the scissile phosphate group of its cognate DNA. |
| 153. |
Structure of a new dense amorphous ice. |
| 152. |
(Meta-)stability domain of ice XII revealed between ~158–212 K and ~0.7–1.5 GPa on isobaric heating of high-density amorphous ice. |
| 151. |
Pure ice IV from high-density amorphous ice. |
| 150. |
About the stability of sulfurous acid (H2SO3) and its dimer. |
| 149. |
Restructuring of hydration shells rukes the low-temperature dynamics of B-DNA via its two conformer substates. |
| 148. |
The Raman spectrum of ice XII and its relation to that of a new "high-pressure phase of H2O ice". |
| 147. |
Radiation cryochemistry of frozen dilute aqueous solutions: influence of the extent of solute segregation on the radiolysis pathway. |
| 146. |
Exocyclic groups in the minor groove influence the backbone conformation of DNA. |
| 145. |
Influence of netropsin's charges on the minor groove width of d(CGCGAATTCGCG)2. |
| 144. |
A second distinct structural "state" of high-density amorphous ice at 77 K and 1 bar. |
| 143. |
BI ↔ BII substate transitions induce changes in the hydration of B-DNA, potentially mediating signal transduction from the minor to the major groove. |
| 142. |
Significance of ligand tails for interaction with the minor groove of B-DNA. |
| 141. |
Complex of B-DNA with polyamides freezes DNA backbone flexibility. |
| 140. |
Structural flexibility of the (CCAGTACTGG)2 B-DNA decamer and its complex with two polyamides. |
| 139. |
Ice XII forms on compression of hexagonal ice at 77 K via high-density amorphous water. |
| 138. |
Estimation of the BII conformer substate population in nonoriented hydrated B-DNA via curve resolution of infrared spectra. |
| 137. |
Thermal properties of metastable ice XII. |
| 136. |
B-DNA's BII conformer substate population increases with decreasing water activity. 1. A molecular dynamics study of d(CGCGAATTCGCG)2. |
| 135. |
B-DNA's BII conformer substate population increases with decreasing water activity. 2. A Fourier transform infrared spectroscopic study of nonoriented d(CGCGAATTCGCG)2. |
| 134. |
On the surprising kinetic stability of carbonic acid (H2CO3). Zur überraschenden kinetischen Stabilität von Kohlensäure (H2CO3). |
| 133. |
The glassy water–cubic ice system: a comparative study by X-ray diffraction and differential scanning calorimetry. |
| 132. |
Simulation of EcoRI dodecamer netropsin complex confirms class I complexation mode. |
| 131. |
Nonoriented d(CGCGAATTCGCG)2 dodecamer persists in the B-form even at low water activity. |
| 130. |
Unexpected radical generation on γ-irradiating metastable forms of water at 77 K. |
| 129. |
The role of water in B-DNA's BI to BII conformer substates interconversion: a combined study by calorimetry, FT-IR spectroscopy and computer simulation. |
| 128. |
B-DNA's dynamics and conformational substates revealed by calorimetric enthalpy relaxation and Fourier transform infrared spectroscopy. |
| 127. |
Helix morphology changes in B-DNA induced by spontaneous BIBII substate interconversion. |
| 126. |
Anomalous contact-ion pairing in the glassy states of "dilute" aqueous lithium and sodium perchlorate solution. |
| 125. |
Indirect radiation effects on thymine in the glassy state of its dilute aqueous solution. |
| 124. |
Unexpected BII conformer substate population in unoriented hydrated films of the d(CGCGAATTCGCG)2 dodecamer and of native B-DNA from salmon testes. |
| 123. |
New model system in radiation cryochemistry: hyperquenched glassy water. |
| 122. |
Radiation yield of oxygen-based radicals in hyperquenched glassy water gamma-irradiated at 77 K. |
| 121. |
B-DNA's BI → BII conformer substate dynamics is coupled with water migration. |
| 120. |
Radical generation upon γ-irradiation of two amorphous and two crystalline forms of water at 77 K. |
| 119. |
Separation of chlorocyclohexane's axial and equatorial conformer infrared spectrum by isothermal relaxation in the glass→liquid transition region. |
| 118. |
Increasing contact-ion pairing as a supercooled water anomaly. Estimation of the fictive temperature of hyperquenched glassy water. |
| 117. |
Carbonic acid in the gas phase and its astrophysical relevance. |
| 116. |
B-DNA's conformational substates revealed by Fourier transform infrared spectroscopy. |
| 115. |
FT-IR spectroscopic monitoring of alkali metal disulfite and hydrogensulfite in freeze-concentrated and glassy aqueous solution. Implications for atmosphere chemistry. |
| 114. |
Metastable intermediates from glassy solutions part 5: FTIR spectroscopic characterization of isolated α- and β-carbonic acid. |
| 113. |
Has the dimer of carbonic acid a lower energy than its constituents water and carbon dioxide? |
| 112. |
Enthalpy, entropy and structural relaxation behaviors of A- and B-DNA in their vitrified states, and the effect of water on the dynamics of B-DNA. |
| 111. |
Two calorimetrically distinct states of liquid water below 150 Kelvin. |
| 110. |
Hydroperoxy radical generation by γ-irradiation of glassy water at 77 K. |
| 109. |
Improved curve resolution of highly overlapping bands by comparison of fourth derivative curves. |
| 108. |
Metastable intermediates from glassy solutions. Part 4.—FTIR spectra of β-carbonic acid and its 2H and 13C isotopic forms, isolated from aqueous solution. |
| 107. |
Metastable intermediates from glassy solutions. Part 3.—FTIR spectra of α-carbonic acid and its 2H and 13C isotopic forms, isolated from methanolic solution. |
| 106. |
Probing DNA's dynamics and conformational substates by enthalpy relaxation and its recovery. |
| 105. |
ν2 band region of nitrate as indicator for contact ion pairing in aqueous lithium and calcium nitrate solutions. |
| 104. |
Characterizing the secondary hydration shell on hydrated myoglobin, hemoglobin, and lysozyme powders by its vitrification behavior on cooling and its calorimetric glass→liquid transition and crystallization behavior on reheating. |
| 103. |
Ion-pairing as indicator for enhanced mobility in the glassy state of hyperquenched solution. |
| 102. |
A polymorph of carbonic acid and its possible astrophysical relevance. |
| 101. |
Kinetics of crystallizing D2O water near 150 K by Fourier transform infrared spectroscopy and a comparison with the corresponding calorimetric studies on H2O water. |
| 100. |
Glass→liquid transition and devitrification of LiCl·H2O solution and of hyperquenched and vapor-deposited water. |
| 99. |
Calorimetric study of crystal growth of ice in hydrated methemoglobin and of redistribution of the water clusters formed on melting the ice. |
| 98. |
"Freezing-in" of carbonylhemoglobin's CO conformer population by hyperquenching of its aqueous solution into the glassy state: an FTIR spectroscopic study of the limits of cryofixation. |
| 97. |
FTIR spectroscopic study of the dynamics of conformational substates in hydrated carbonyl-myoglobin films via temperature dependence of the CO stretching band parameters. |
| 96. |
Raman spectroscopic evidence for increasing contact-ion pairing in the glassy states of "dilute" aqueous calcium nitrate solutions. |
| 95. |
Thermodynamic continuity between glassy and normal water. |
| 94. |
Hyperquenched glassy bulk water: a comparison with other amorphous forms of water, and with vitreous but freezable water in a hydrogel and on hydrated methemoglobin. |
| 93. |
Crystallization kinetics of water below 150 K. |
| 92. |
Calorimetric studies of the kinetic unfreezing of molecular motions in hydrated lysozyme, hemoglobin, and myoglobin. |
| 91. |
Thermal history and enthalpy relaxtion of an interpenetrating network polymer with exceptionally broad relaxation time distribution. |
| 90. |
Carbonic acid: synthesis by protonation of bicarbonate and FTIR spectroscopic characterization via a new cryogenic technique. |
| 89. |
Glass–liquid transition and crystallization of a vitreous, but freezable, water fraction in hydrated methemoglobin. |
| 88. |
Increasing contact ion pairing in the supercooled and glassy states of "dilute" aqueous magnesium, calcium, and strontium nitrate solution: implications for biomolecules. |
| 87. |
Dielectric study of the structure of hyperquenched glassy water and its crystallized forms. |
| 86. |
Calorimetric glass–liquid transition and crystallization behavior of a vitreous, but freezable, water fraction in hydrated methemoglobin. |
| 85. |
Physical ageing and modelling of the glass–liquid transition of water and aqueous solutions imbibed in poly-(2-hydroxyethyl-methacrylate) and in the bulk state. |
| 84. |
Limits of cryofixation as seen by Fourier transform infrared spectra of metmyoglobin azide and carbonyl hemoglobin in vitrified and freeze-concentrated aqueous solution. |
| 83. |
X-ray and neutron scattering studies of the structure of hyperquenched glassy water. |
| 82. |
Increasing ion pairing and aggregation in supercooled and glassy dilute aqueous electrolyte solution as seen by FTIR spectroscopy of alkali metal thiocyanates. |
| 81. |
The dielectric behavior of vapor-deposited amorphous solid water and of its crystalline forms. |
| 80. |
Alkali cation effect on carbonyl-hemoglobin's and -myoglobin's conformer populations when exposed to freeze-concentration of their phosphate-buffered solutions. |
| 79. |
Isotope and impurity effects on the glass transition and crystallization of pressure-amorphized hexagonal and cubic ice. |
| 78. |
Vitrified dilute aqueous solutions. 4. Effects of electrolytes and polyhydric alcohols on the glass transition features of hyperquenched aqueous solutions. |
| 77. |
Structural characterization of hyperquenched glassy water and vapour-deposited amorphous ice. |
| 76. |
Calorimetric glass transitions in the amorphous forms of water: a comparison. |
| 75. |
Glass–liquid transition and calorimetric relaxation of glassy aqueous solutions imbibed in poly(2-hydroxyethyl methacrylate): a comparison with bulk behavior. |
| 74. |
Unexpectedly stable clathrate hydrates formed from microporous vapor-deposited amorphous solid water at low "external" guest pressures and their astrophysical implications. |
| 73. |
Unexpectedly stable nitrogen, oxygen, carbon monoxide and argon clathrate hydrates from vapour-deposited amorphous solid water: an X-ray and two-step differential scanning calorimetry study. |
| 72. |
Formation and decomposition of oxygen clathrate hydrate as seen by two-step differential scanning calorimetry; novel method for investigating reactions accompanied by gas release. |
| 71. |
Calorimetric study of pressure-amorphized cubic ice. |
| 70. |
Isotope effect on the glass transition and crystallization of hyperquenched glassy water. |
| 69. |
Characterizing amorphous and microcrystalline solids by calorimetry. |
| 68. |
Glass–liquid transition of water and ethylene glycol in poly(2-hydroxyethyl methacrylate) hydrogel. |
| 67. |
Glass transition in pressure-amorphized hexagonal ice. A comparison with amorphous forms made from the vapor and liquid. |
| 66. |
The heat capacity and glass transition of hyperquenched glassy water. |
| 65. |
Enthalpy relaxation of glassy water. |
| 64. |
Gas evolution as an artefact in differential scanning calorimetry. |
| 63. |
Unexpectedly stable nitrogen and oxygen clathrate hydrates from vapour deposited amorphous solid water. |
| 62. |
Glass–liquid transition and the enthalpy of devitrification of annealed vapor-deposited amorphous solid water. A comparison with hyperquenched glassy water. |
| 61. |
Vitrified dilute aqueous solutions. 3. Plasticization of water's H-bonded network and the glass transition temperature's minimum. |
| 60. |
Type I isotherms for N2 adsorption on vapor deposited amorphous solid water. |
| 59. |
Thermal behavior of several hyperquenched organic glasses. |
| 58. |
Calorimetric relaxation and glass transition in poly(propylene glycols) and its monomer. |
| 57. |
Hyperquenching of water and dilute aqueous solutions into their glassy states: an approach to cryofixation. |
| 56. |
Vitrified dilute aqueous solutions. 2. Thermal behavior of hyperquenched NaCl–H2O and ethylene glycol–H2O glasses. |
| 55. |
The glass–liquid transition of hyperquenched water. |
| 54. |
Non-freezing water in simple salt solutions. |
| 53. |
Physics of water and ice: implications for cryofixation. |
| 52. |
Amorphous ice. A microporous solid: astrophysical implications. |
| 51. |
Cubic ice from liquid water. |
| 50. |
Calorimetric study of the vitrified liquid water to cubic ice phase transition. |
| 49. |
"True" infrared absorption spectra of polycrystalline rubidium and cesium nitrate: a new method of sample preparation. |
| 48. |
Vitrified dilute aqueous solutions. 1. Infrared spectra of alkali metal nitrates and perchlorates as solutes. |
| 47. |
Astrophysical implications of amorphous ice – a microporous solid. |
| 46. |
Vitrification of pure liquid water. |
| 45. |
The band width of the decoupled O–D oscillator in amorphous solid water and its dependence on deposition conditions and temperature. |
| 44. |
Infrared spectrum of vitrified liquid water. A comparison with the vapor deposited amorphous form. |
| 43. |
New method for vitrifying water and other liquids by rapid cooling of their aerosols. |
| 42. |
Polymorphism in vapor deposited amorphous solid water. |
| 41. |
Polymorphism in vapor deposited amorphous solid water. |
| 40. |
Devitrification of glassy water. Evidence for a discontinuity of state? |
| 39. |
Vitrification of pure liquid water by high pressure jet freezing. |
| 38. |
EPR investigation of the nonfreezing water/free water ratio in disperse systems. |
| 37. |
Free radical studies by resonance Raman spectroscopy: chemically and photochemically generated 1,4-diaminobenzene radical cation. |
| 36. |
Complete vitrification in pure liquid water and dilute aqueous solutions. |
| 35. |
Das tert-Butyl-Kation in Lösungen von Aluminiumbromid in Mono-, Di-und Tribrommethan. |
| 34. |
Dimethylhalonium-Ionen in Aluminiumhalogenid/Methylhalogenid Lösungen. |
| 33. |
Bildung von Alkylcarbenium-Ionen im System Aluminium (Gallium)halogenid/Halogenwasserstoff. |
| 32. |
Formation of carbenium ions in the reaction of aluminum chloride with tert-butyl chloride in liquid hydrogen chloride. Bildung von Carbenium-Ionen bei der Reaktion von Aluminiumchlorid mit tert-Butylchlorid in flüssigem Chlorwasserstoff. |
| 31. |
The photoelectronspectrum of tetracyanomethane. |
| 30. |
Infrared and Raman spectra of the TeF5O- anion and evidence for contact-ion-pair formation in the TeF5OAg–CH3CN system. Normal-coordinate analysis of the TeF5O- and SeF5O- ions. |
| 29. |
Infrared and Raman spectra of phosphinotrihydroborate(1-), H2PBH3-, and its deuterated analogs H2PBD3- and D2PBH3-. |
| 28. |
Solution Raman spectra and normal coordinate analysis of the H3CPH3+ and H3CPD3+ cations. |
| 27. |
Synthese und Struktur von assoziiertem μ-Phosphinodiboran und von phosphorsubstituierten Derivaten. |
| 26. |
Raman studies of molten salt hydrates: the beryllium and aluminium nitrate-water systems. |
| 25. |
Far infrared spectra, vibrational assignment and normal coordinate analysis of the tricyanomethanide ion. |
| 24. |
The selective enhancement of band intensities in resonance Raman spectra of cobalt corrinoids. |
| 23. |
Resonance Raman spectra of vitamin B12 and some cobalt corrinoid derivatives. |
| 22. |
Resonance Raman spectrum of the p-phenylenediamine radical cation. |
| 21. |
Resonance Raman spectra of vitamin B12 and dicyanocobalamin. |
| 20. |
Infrared spectra, vibrational assignment, normal coordinate analysis and thermodynamic functions of tetracyanomethane. |
| 19. |
The enthalpy of formation of tetracyanomethane. |
| 18. |
μ-Phosphinodiborane. μ-Phosphinodiboran. |
| 17. |
Conversion of dihydridodiammineboron(III) borohydride to ammonia-borane without hydrogen evolution. |
| 16. |
Synthesis of cyclopentaborazane from diammoniate of diborane. |
| 15. |
Symmetrical cleavage of diborane by ammonia in solution. |
| 14. |
Phosphinotrihydroborate(1-), H2P·BH3-, the conjugate Brønsted base of phosphine-borane. Synthesis, reactions, and stability of the lithium salt. |
| 13. |
Äther als Katalysatoren für die Reaktion von Diboran mit Lewis-Basen: vereinfachte Darstellung von Carbonylboran und Phosphinboran. |
| 12. |
Trisboranephosphite and tetrakisboranephosphate ions. Tris(boran)phosphit und Tetrakis(boran)phosphat. |
| 11. |
Tetracyanomethane as a pseudo-(carbon tetrahalide). |
| 10. |
Versuche zur Darstellung von Dicyanoxid. |
| 9. |
Cyanisocyanat: Darstellung, Reaktionen und Struktur. |
| 8. |
Reaktion von Phosphinboran, Phenylphosphinboran und Phosphoniumjodid mit Natriumtetrahydridoborat. |
| 7. |
A study of the infrared, Raman, and nuclear magnetic resonance spectra of isotopically substituted bisboranohypophosphite anions. |
| 6. |
Reaction of silver cyanate with cyanogen chloride. Reaktion von Silbercyanat mit Cyanchlorid. |
| 5. |
Simple preparation of cyanogen fluoride. Einfache Darstellung von Cyanfluorid. |
| 4. |
Darstellung und Eigenschaften von Tetracyanmethan. |
| 3. |
Vibrational spectrum and structure of Na+ (BH3·PH2·BH3)-. |
| 2. |
Gaschromatographische Analyse von Gemischen anorganischer Fluoride. |
| 1. |
Versuche zur elektrochemischen Fluorierung anorganischer Verbindungen. |
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