All Stories

  1. Synthesis, structure and reactivity of acyclic and heterocyclic α-phosphino amino acids
  2. P═C–N and P–C═N type 1,3-azaphospholes – comparing the chemistry of π-excess aromatic 1H- and non-aromatic 3H-isomers and the influence of anellation (A personal account)
  3. π-Excess-aromatic and non-aromatic 1,3-azaphospholes – impact of annulation and multiple reactivity
  4. π-Rich σ2P-Heterocycles: Syntheses, Reactivity, and Application Potential of 1,3-Benzazaphospholes
  5. π-Rich σ2P-Heterocycles: d10-Transition Metal Complexes of 1H-1,3-Benzazaphospholes with Unusual Coordination
  6. Phosphinoglycines – Synthesis, Structure, and Reactivity
  7. Π-Rich σ2P-Ligands: Unusual Coordination Behavior of 1H-1,3-Benzazaphospholes Toward Late Transition Metals
  8. π-Excess aromatic σ2P ligands: Unprecedented reductive C–C coupling of neopentylbenzazaphosphole at the PCH–N group by Fe3(CO)12 to an heterocyclic 1,2-bis(phosphido)-Fe2(CO)6 complex
  9. π-Excess aromatic σ2-P ligands: synthesis and structure of an unprecedented μ2-P-1,3-benzazaphosphole bridged tetranuclear copper(i) acetate complex
  10. σ2P,O‐Hybrid Ligands: Synthesis of the First 4‐Hydroxy‐1,3‐benzazaphospholes by ortho‐Lithiation of m‐Amidophenyl Diethyl Phosphates
  11. Solvent-controlled lithiation of PC–N-heterocycles: Synthesis of mono- and bis(trimethylsilyl)-tert-butyl-dihydrobenzazaphospholes – A new type of highly bulky and basic phosphine ligands
  12. Benzazaphospholine-2-carboxylic acids: Synthesis, structure and properties of heterocyclic phosphanyl amino acids
  13. π-Excess σ2 P,O Hybrid Ligands: Synthesis of the First 4-Methoxy-1H-1,3-benzazaphospholes
  14. Enantiomerically Pure N Chirally Substituted 1,3-Benzazaphospholes: Synthesis, Reactivity toward tBuLi, and Conversion to Functionalized Benzazaphospholes and Catalytically Useful Dihydrobenzazaphospholes
  15. Impact of high π-density on the coordination properties of π-excess aromatic neutral σ2P ligands – P(π)-donor bonds to Ag+and HgCl2
  16. Synthesis and properties of zwitterionic phosphonioglycolates
  17. Ring-opening polymerization of cyclic ethers initiated by benzazaphosphole-W(CO)5/silver hexafluoroantimonate
  18. Syntheses of 2‐Unsubstituted 1H‐1,3‐Benzazaphospholes from N‐Formyl‐2‐bromoanilides
  19. Coplanar Tetracyclic π‐Excess σ2P Ligands
  20. Shake up satellites and fluorescence property of carbon nitride and hydrogenated carbon nitride: Annealing effect
  21. Comparison of the reactivity of 2-amino-3-chloro- and 2,3-dichloroquinoxalines towards Ph2PH and Ph2PLi and of the properties of diphenylphosphanyl-quinoxaline P,N and P,P ligands
  22. π-Excess σ2P ligands: synthesis of biaryl-type 1,3-benzazaphosphole hybrid ligands and formation of P^P′–M(CO)4 chelate complexes
  23. Phosphanyl-substituted π-excess σ2P heterocycles: Coordination behaviour of 2-di-tert-butylphosphanyl-1-neopentyl-1,3-benzazaphosphole towards CuCl, HgCl2 and [Rh(COD)2]BF4
  24. ChemInform Abstract: σ2‐P Ligands: Convenient Syntheses of N‐Methyl‐1,3‐benzazaphospholes.
  25. σ2-P Ligands: convenient syntheses of N-methyl-1,3-benzazaphospholes
  26. Phosphonium bis(glycolates) and phosphinoglycolates: Synthesis, solvolysis, oxidation to (thio)phosphinoylglycolates and use as ligands in Ni-catalyzed ethylene oligomerization
  27. A New Promising Application for Highly Cytotoxic Metal Compounds: η6-Areneruthenium(II) Phosphite Complexes for the Treatment of Alveolar Echinococcosis
  28. α-Phosphino Amino Acids: Synthesis, Structure, and Reactivity of Phosphaprolines
  29. α-Phosphino Amino Acids: Synthesis, Structure, and Reactivity
  30. Ambident Reactivity of P˭CH‒N‒Heterocycles: Lithiation and Substitution Sites
  31. Phosphonylation of N-Heterocycles and Synthesis of Pyrido-Fused 1,3-Azaphospholes
  32. PC–N-Heterocycles: synthesis of biaryl-type 1,3-benzazaphospholes with ortho-substituted phenyl or 2-heteroaryl groups
  33. Conversion of Dibenzoxaphosphinines into 2‐Hydroxybiphenyl‐2′‐ylphosphane Ligands and Their BH3 Adducts: The O–Hδ+···Hδ––B Hydrogen–Hydrogen Bond
  34. Nickel and palladium complexes of enolatefunctionalised N-heterocyclic carbenes
  35. Pyrido‐Annulated 1,3‐Azaphospholes: Synthesis of 1,3‐Azaphospholo[5,4‐b]pyridines and Preliminary Reactivity Studies
  36. α‐Phosphanyl Amino Acids: Synthesis, Structure and Reactivity of N‐Aryl‐α‐phosphanylglycines
  37. Novel highly electron-deficient quinoxaline-annulated 1,3,2-diazagermol- and diazastannol-2-ylidenes, stabilized as LiCl adducts
  38. 2-Phosphinophenolate Nickel Catalysts: Formation of Ethylene Copolymers with Isolated sec-Alkyl, Aryl, and Functionally Substituted Alkyl Groups
  39. ChemInform Abstract: Phosphonylation of 2‐Amino‐ and 2‐Amido‐3‐bromopyridines and 2‐Amino‐3‐chloroquinoxalines with Triethyl Phosphite.
  40. Ambident PCN Heterocycles: N‐ and P‐Phosphanylation of Lithium 1,3‐Benzazaphospholides
  41. Role of Nitrogen in the Formation of HC−N Films by CH4/N2 Barrier Discharge Plasma: Aliphatic Tendency
  42. Phosphonylation of 2‐Amino‐ and 2‐Amido‐3‐bromopyridines and 2‐Amino‐3‐chloroquinoxalines with Triethyl Phosphite
  43. ChemInform Abstract: Regioselective Sonogashira Reactions of N‐Methyltetrabromopyrrole: First Synthesis of Tri‐ and Tetra(1‐alkynyl)pyrroles.
  44. Contributions to the Chemistry of Twofold-Coordinated Group 15/14 Element Heterocycles (A Personal Account)
  45. Annulated N-Heterocyclic Carbenes: 1,3-Ditolylphenanthreno[9,10-d]imidazol-2-ylidene and Transition Metal Complexes Thereof
  46. O‐Acylated 2‐Phosphanylphenol Derivatives – Useful Ligands in the Nickel‐Catalyzed Polymerization of Ethylene
  47. Regioselective Sonogashira Reactions of N-Methyltetrabromopyrrole: First Synthesis of Tri- and Tetra(1-alkynyl)pyrroles
  48. Homologues of N-heterocyclic carbenes: Detection and electronic structure of N-bridgehead pyrido[a]-anellated 1,3,2-diazagermol-2-ylidenes
  49. Transition Metal Complexes of N‐Heterocyclic Germylenes (Eur. J. Inorg. Chem. 2/2009)
  50. Transition Metal Complexes of N‐Heterocyclic Germylenes
  51. Copolymerization of ethylene with linear α‐olefins by 2‐phosphinophenolate nickel catalysts
  52. ChemInform Abstract: 3‐Amino‐ and 3‐Acylamido‐2‐phosphonopyridines: Synthesis by Pd‐Catalyzed P—C Coupling, Structure and Conversion to Pyrido[b]‐Anellated P=C—N Heterocycles.
  53. Anellated N-heterocyclic carbenes: 1,3-Dineopentyl-benzimidazol-2-ylidene, structural aspects of C-protonated precursor salts and an AgCl complex
  54. 3-Amino- and 3-acylamido-2-phosphonopyridines: synthesis by Pd-catalyzed P–C coupling, structure and conversion to pyrido[b]-anellated PC–N heterocycles
  55. Bulky N-Substituted 1,3-Benzazaphospholes: Access via Pd-Catalyzed C−N and C−P Cross Coupling, Lithiation, and Conversion to Novel P═C−PtBu2 Hybrid Ligands
  56. Sterically and Polarity‐Controlled Reactions of tBuLi with PCH‐NR Heterocycles: Novel Heterocyclic P‐ and P,O‐Ligands and Preliminary Tests in Transition‐Metal Catalysis
  57. 2-Hydroxy- and 2-Amino-Functional Arylphosphines—Syntheses, Reactivity, and Use in Catalysis
  58. Novel Benzo-and Pyrido-Anellated 1, 3-Azaphospholes
  59. Phosphinoglycines and Phosphinoglycolates
  60. Primary and P‐Alkylated o‐Phosphanylphenols: Synthesis by Reduction and Reductive Alkylation of Diethyl Arylphosphonates and Screening in Ethylene Polymerization
  61. Stabilization of Unsymmetrically Annelated Imidazol‐2‐ylidenes with Respect to Their Higher Group 14 Homologues by n‐/π‐HOMO Inversion
  62. Microwave‐Promoted Suzuki—Miyaura Coupling of Arylboronic Acids with 1‐Bromo‐2‐naphthol, o‐Bromophenol, and o‐Chlorophenol.
  63. Microwave-promoted Suzuki–Miyaura coupling of arylboronic acids with 1-bromo-2-naphthol, o-bromophenol, and o-chlorophenol
  64. Anellated N‐Heterocyclic Carbenes: 1,3‐Dineopentylnaphtho[2,3‐d]imidazol‐2‐ylidene: Synthesis, KOH Addition Product, Transition‐Metal Complexes, and Anellation Effects
  65. Influence of anellation in N-heterocyclic carbenes: Novel quinoxaline-anellated NHCs trapped as transition metal complexes
  66. Donor‐Substituted Silylenes: From Gas‐Phase Reactions to Stable Molecules
  67. Heterosubstituted Silylenes: Cycloadditions with Heterodienes and ‐Trienes
  68. Pyrido [ b ]‐1,3,2λ 2 ‐Diazasilole: The First Stable Unsymmetrical Silylene
  69. Amino‐Substituted Disilanes by Reductive Coupling
  70. Tuning of nickel 2-phosphinophenolates – catalysts for oligomerization and polymerization of ethylene
  71. 2-Phosphinophenolate Complexes:  Formation and Crystal Structure of a Novel Trinuclear μ-O Nickel(II)-Tris(P∩O- Chelate)
  72. Novel α-functionally substituted amino acids: diphenylphosphinoglycines
  73. PH‐functional o‐phosphinophenols— synthesis via methoxymethylethers and screening tests for Ni‐catalyzed ethylene polymerization
  74. Cationic Methallylnickel and (Meth)allylpalladium 2-Phosphinophenol Complexes:  Synthesis, Structural Aspects, and Use in Oligomerization of Ethylene
  75. A Novel Access to Phenylnickel‐phosphinophenolate Trimethylphosphine Complexes as Single Component Oligo‐ or Polymerization Catalysts
  76. 2‐Dialkyl‐ and 2‐tert‐Butylphenylphosphinophenol(ate) Nickel and Palladium Complexes: Control of E/Z‐Configuration in Bis(P∩O—‐chelates) and Activation of the Nickel Complexes for Polymerization of Ethylene
  77. The impact of P substituents on the oligomerization of ethylene withBnickel 2-diphenyl and 2-dicyclohexylphosphinophenolate phosphineBcatalysts
  78. 2‐Phosphanylphenolate Nickel Catalysts for the Polymerization of Ethylene
  79. Formation and Structure of fac-[Mo(CO)3(C2H2[N(CH2But)]2Ge)3]:  The First Structurally Characterized Group 6 Transition Metal Complex of an Unsaturated Diaminogermylene
  80. Phosphinophenolato Complexes for Use in Ethene Poly/Oligomerization
  81. Benzazaphosphole Metal Carbonyl Complexes: Lithiation and Substitution Reactions
  82. 2-Hydroxyarylphosphines: Ligand Tayloring for Homogenous Nickel Catalyzed Poly- and Oligomerization of Ethene
  83. Lithium-1,3-Benzazaphospholides: Structure and Reactivity
  84. Phosphino Amino Acids: Novel Water-Soluble Ligands for Coordination Chemistry of Transition Metals
  85. Metalated 1,3-azaphospholes: synthesis of lithium-1,3-benzazaphospholides and reactivity towards organoelement and organometal halides
  86. Metalated 1,3-Azaphospholes:  Structure and Reactivity of 2-Lithio-1-methyl-1,3-benzazaphosphole, an Isolable −PC(Li)−NR Heterocycle
  87. ChemInform Abstract: Anellated Heterophospholes and Phospholides and Analogues with Related Non‐phosphorus Systems
  88. Diaminocarbene homologues: synthesis and crystal structure of the first diaminogermylene LiCl adduct displaying an electrophilic germanium centre
  89. Synthesis of novel water-soluble linear and heterocyclic phosphino amino acids from 2-phosphinophenols or 2-phosphinophenolethers, formaldehyde and amino acids
  90. Synthesis of 1H-1,3-benzazaphospholes: substituent influence and mechanistical aspects
  91. Anellated Heterophospholes and Phospholides and Analogies with Related Non-Phosphorus Systems
  92. Metalated 1,3-Azaphospholes:1H-1,3-Benzazaphosphole and 1,3-Benzazaphospholide Tungsten(0) and Tungsten(II) Complexes
  93. Influence of anellation in unsaturated heterocyclic diaminogermylenes
  94. The structure and aromaticity of lithium azaphospholide complexes
  95. Radical anions of carbenes and carbene homologues. DFT study and preliminary experimental results
  96. ChemInform Abstract: Donor‐Substituted Silylenes: From Gas‐Phase Reactions to Stable Molecules
  97. ChemInform Abstract: Methyl(2‐phosphanylphenolato[P,O])nickel(II) Complexes — Synthesis, Structure, and Activity as Ethene Oligomerization Catalysts.
  98. Methyl(2-phosphanylphenolato[P,O])nickel(II) Complexes – Synthesis, Structure, and Activity as Ethene Oligomerization Catalysts
  99. Nickel Chelate Complexes of 2-Alkylphenylphosphanylphenolates: Synthesis, Structural Investigation and Use in Ethylene Polymerization
  100. Bis(trimethylsilyl)diaminosilanes: Synthesis and Reactions
  101. ChemInform Abstract: 1H‐1,3‐Benzazaphospholes: The Organometallic Route and a New Three‐Step Synthesis with Reductive Ring Closure.
  102. Thiazoline- and oxazoline-annulated (η1-P)-1,3-azaphosphole-(pentacarbonyl)chromium, -molybdenum and -tungsten complexes
  103. 1H-1,3-Benzazaphospholes: The Organometallic Route and a New Three-Step Synthesis with Reductive Ring Closure
  104. Organonickel complexes of secondary 2-phosphinophenol derivatives
  105. P,O-Ligands: 2-Hydroxyarylphosphines, Nickel Complexes and Use in Homogenous Catalysis
  106. P,O-Ligands: 2-Hydroxyarylphosphines, Nickel Complexes and Use in Homogenous Catalysis
  107. Synthesis, Metallation and Complexes of Annulated 1H-1,3-Azaphospholes
  108. 2-Hydroxy-1, 1-Biphenyl- and -Binaphthyl-2′-Phosphines - Synthesis, Structure and Use in Rh-Catalyzed Carbonylation
  109. Synthesis of aminotri- and aminotetrasilanes by cross-coupling of aminochlorosilanes with chlorotrimethylsilane
  110. ChemInform Abstract: Aminosubstituted Disilanes: Synthesis by Unsymmetrical and Symmetrical Reductive Coupling.
  111. ChemInform Abstract: 2‐Phosphaindolizines.
  112. Complexes of Azaphospholes: Synthesis and Structure of Pentacarbonyl-(η1)-2-phosphaindolizine)chromium(0), -molybdenum(0), and -tungsten(0)
  113. ChemInform Abstract: Sterically Stressed Amino‐ and PH‐Functional Di‐t‐butyl‐o‐phosphinophenols — Intramolecular Interaction and Formation of Benzoxadiphospholes.
  114. Synthesis of silicon heterocycles via gas phase cycloaddition of aminomethylsilylenes
  115. Relative stability and aromaticity of diazasilole isomers
  116. ChemInform Abstract: P/O Ligand Systems: Synthesis and Reactivity of Primary and Secondary o‐Phosphinophenols.
  117. CYCLOADDITION OF THERMOLYTICALLY GENERATED METHOXYMETHYLSILYLENE TO α,β-UΝSATURATED KETONES AND IMINES
  118. Aminosubstituted disilanes: Synthesis by unsymmetrical and symmetrical reductive coupling
  119. Aminosubstituted disilanes: Synthesis by unsymmetrical and symmetrical reductive coupling
  120. 2-phosphaindolizines
  121. Sterically stressed amino‐ and PH‐functional di‐t‐butyl‐o‐phosphinophenols—Intramolecular interaction and formation of benzoxadiphospholes
  122. Sterically stressed amino- and PH-functional di-t-butyl-o-phosphinophenols?Intramolecular interaction and formation of benzoxadiphospholes
  123. Higher carbene homologues: Naphtho[2,3‐d]‐1,3,2λ2‐diazagermole, ‐diazastannole, and attempted reduction of 2,2‐dichloronaphtho[2,3‐d]‐1,3,2‐diazasilole
  124. Higher carbene homologues: Naphtho[2,3-d]-1,3,2?2-diazagermole, -diazastannole, and attempted reduction of 2,2-dichloronaphtho[2,3-d]-1,3,2-diazasilole
  125. Amino‐Substituted Disilanes by Reductive Coupling
  126. Cycloaddition Reactions of Dimethylaminomethyl‐Silylene with Dienes and Heterodienes
  127. Pyrido [ b ]‐1,3,2λ 2 ‐Diazasilole: The First Stable Unsymmetrical Silylene
  128. ChemInform Abstract: P/O Ligand Systems: Synthesis, Reactivity, and Structure of Tertiary o‐ Phosphanylphenol Derivatives.
  129. P/O Ligand Systems: Synthesis, Reactivity, and Structure of Tertiary o‐Phosphanylphenol Derivatives
  130. P/O ligand systems: Synthesis and reactivity of primary and secondary o‐phosphinophenols
  131. ChemInform Abstract: o‐Hydroxyarylphosphines and Diphosphines: Metalation‐Rearrangement versus P‐O Reduction of o‐Halogenoaryloxyphosphines by Sodium.
  132. SYNTHESIS, LITHIATION AND PREFERRED CONFORMATIONS OF SOME α-SILYLATED AND α-STANNYLATED PHOSPHINES
  133. ChemInform Abstract: Heterosubstituted Silylenes: Cycloadditions with Heterodienes and ‐ trienes
  134. P/O Ligand Systems: Synthesis, Reactivity, and Structure of Tertiary o‐Phosphanylphenol Derivatives
  135. Synthesis, structures and oxidative addition reactions of new thermally stable silylenes; crystal structures of [(CH2tBu)}2C6H4-1,2] and [((CH2tBu)}2C6H4-1,2)(μ-E)]2 (E = Se or Te)
  136. o-Hydroxyarylphosphines and diphosphines: metallation-rearrangement versus PO reduction of o-halogenoaryloxyphosphines by sodium
  137. ChemInform Abstract: Synthesis, Structures and Reactions of New Thermally Stable Silylenes.
  138. o-Phosphinophenoles - Synthesis and Reactivity
  139. o-Phosphinophenoles - Synthesis and Reactivity
  140. Electronic structure of stable benzodiazasilylenes: photoelectron spectra and quantum-chemical investigations
  141. Heterosubstituted Silylenes: Cycloadditions with Heterodienes and ‐Trienes
  142. Methoxymethylsilylene: (1 + 6)‐ and (1 + 4)‐cycloadditions to heterotrienes
  143. The photoelectron spectrum and conformation of phenylphosphine and phenylarsine
  144. Synthesis, structures and reactions of new thermally stable silylenes
  145. Substituent effect of second row elements on silyl centers
  146. Synthesis and reactivity of functional 1-methyl-silacyclopentenes
  147. Role of the trichlorosilyl radical and dichlorosilylene in gas-phase reactions of trichlorosilane
  148. Thermolysis mass spectrometry study of the decomposition of HSiCl3, MeHSiCl2 and chlorodisilanes
  149. ChemInform Abstract: Electronic Structure and Aromaticity of Azaphospholes
  150. [1,3]-CARBANIONISCHE UMLAGERUNGEN—SYNTHESE VON 1,3-BENZOXASILOLENEN
  151. ChemInform Abstract: Electronic Structure and Aromaticity of 1,3‐Azaphosphole and 1,3‐ Azarsole
  152. ChemInform Abstract: Chemistry of Silylenes: Cycloadditions of Methoxymethylsilylene with Heterodienes.
  153. Zur chemie der silylene: Cycloadditionen von methoxymethylsilylen mit heterodienen
  154. The electronic structure and aromaticity of 1,3-azaphosphole and 1,3-azarsole
  155. Zur Synthese von Polysilanen
  156. [1,3]‐Carbanionische Umlagerungen – Synthese von Bis‐(o‐hydroxyphenyl)silicium‐Verbindungen
  157. Zur Thermolyse von Polysilanen
  158. Zur Funktionalisierung von Polysilanen mittels Trifluormethansulfonsäure
  159. Zur Synthese von methylphenylsubstituierten Polysilan‐Copolymeren
  160. Synthese und NMR‐spektroskopische Untersuchungen von Dibenzo[d,g]‐1,3‐dioxa‐2‐element‐6‐silocinen
  161. Röntgenuntersuchungen an Polysilanen
  162. Investigation of heterocyclic compounds containing a PC or AsC bond by ultraviolet photoelectron spectroscopy
  163. Investigation of 3-substituted benzazaphospholes and benzazarsoles by UV-photoelectron spectroscopy
  164. 1,3-CARBANIONISCHE UMLAGERUNGEN SYNTHESE VON BIS(o-HYDROXYARYL)- PHOSPHORVERBINDUNGEN
  165. Zur Synthese und Pyrolyse von Organoelement-benzasolderivaten des Phosphors, Arsens, Siliciums und Zinns
  166. (p‐p) π‐AsC‐Verbindungen: Synthese von 2‐Methyl‐1H‐1,3‐azarsol
  167. 1,3‐Benzazarsolin‐2‐thione und 2‐Methylmercapto‐1,3‐benzazarsole
  168. 1,3-carbanionische umlagerungen: Reaktionen von phosphorsäure-o-haloarylestern mit metallen zu arylphosphonsäurederivaten
  169. Zur Synthese der 1,3‐Azaphospholine‐1
  170. o-Phosphinophenole durch 1,3-carbanionische umlagerungen o-metallierter aroxyphosphine
  171. 1H-1,3-azaphosphole - neue phosphaaromaten
  172. 1,3-BENZOXAPHOSPHOLE-HETEROCYCLEN MIT PHOSPHOR DER KOORDINATIONSZAHL 2
  173. Metallierungs- und substitutions-reaktionen an der λ3AsC−N-strukturgruppe der 1H-1,3-benzazarsole
  174. Zur Oxydation von (γ3‐PC≤)‐Derivaten; Untersuchungen an 2‐tert‐Butyl‐1,3‐benzoxaphosphol
  175. Synthese und umlagerungsreaktionen von o-funktionellen phenyllithium- und phenylnatrium derivaten der IVB- und VB-elemente
  176. Zur Umsetzung von o‐Lithio‐lithiumphenolat und o‐Lithio‐N‐methyl‐lithiumanilid mit Halogeniden des Phosphors, Arsens und Siliziums
  177. Synthesis of o‐Halogenphenoxy, o‐Halogenphenylthio and o‐Halogen‐methylanilino Derivatives of Group IVb, Vb Elements
  178. [4+2]-cycloadditionen der der 1,3-benz-oxaphosphole bzw. -Arsole mit dimethylbutadien und tetrachlorbenzochinon
  179. C-metallierung an phosphaaromaten - 2-lithio-1-methyl-1,3-benzazaphosphol
  180. Synthese von 2‐tert‐Butyl‐1,3‐benzoxaphosphol
  181. Organoarsenverbindungen Zur Synthese von Aminoacylarsinen
  182. Arsenheterocyclen. Von A. Tzschach und J. Heinicke; VEB Deutscher Verlag für Grundstoffindustrie, Leipzig 1978; 234 Seiten, Format 16,5 × 23 cm; Pappeinband 59,— M
  183. Organoarsen‐Verbindungen. XXVIII [1]. Reaktionen 2‐aminofunktioneller Arsine mit Acetylenen
  184. Organoarsen‐Verbindungen. XXI. Zur Umsetzung der 2‐Aminoalkylarsine mit Ketocarbonsäuren und Ketocarbonsäureestern
  185. Low-Coordinated Si-Compounds: Gas Phase Reactions with Heterosubstituted Silylenes
  186. Low-Coordinated Si-Compounds: Gas Phase Reactions with Heterosubstituted Silylenes
  187. Donor-Substituted Silylenes: From Gas-Phase Reactions to Stable Molecules