Add to ORKGAbstract: This chapter reviews possible experimental aspects of relativistic effects in heavier Main Group elements and their compounds. Attention is focused on the sixth, sev-enth and eighth Period elements, for which the relativistic contribution to their physical and chemical properties is significant. Superheavy elements through Z D 120 are also discussed. This review may increase interest of theoreticians in chemistry-oriented problems that require use of relativistic methods of quantum chemistry
Relativity has a significant influence in chemistry. This only the case for chemical systems with el...
Electronic structure and atomic properties of the transactinide or superheavy elements (SHEs) are re...
SIGLEAvailable from TIB Hannover: RO 801(92-03) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - T...
Progress in the development of relativistic molecular codes has allowed for an adequate description ...
Spectacular developments in the relativistic quantum theory and computational algorithms in the last...
Great progress has been achieved in the last few decades in the synthesis of superheavy elements (SH...
The chemistry of transactinides and superheavy elements has reached element 108. Preparations are un...
Interaction of superheavy element 112 and its homolog Hg with inert and gold surfaces was studied on...
In keeping with the goal of the Viewpoint series of the Journal of Chemical Education, this article ...
The aim of the research presented in this Thesis is ab initio high accuracy investigations of atomic...
Superheavy elements are ideal for furthering our understanding of relativistic effects and how they ...
Chemical investigations of superheavy elements in the gas-phase, i.e. elements with Z≥104Z≥104, allo...
Abstract-The extension of the Periodic Table into the range of unknown atomic numbers of above one h...
We present fully relativistic coupled cluster calculations of ionization potentials, electron affini...
The experimentally known chemical properties of the transactinide elements 104 and 105, and the expe...
Relativity has a significant influence in chemistry. This only the case for chemical systems with el...
Electronic structure and atomic properties of the transactinide or superheavy elements (SHEs) are re...
SIGLEAvailable from TIB Hannover: RO 801(92-03) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - T...
Progress in the development of relativistic molecular codes has allowed for an adequate description ...
Spectacular developments in the relativistic quantum theory and computational algorithms in the last...
Great progress has been achieved in the last few decades in the synthesis of superheavy elements (SH...
The chemistry of transactinides and superheavy elements has reached element 108. Preparations are un...
Interaction of superheavy element 112 and its homolog Hg with inert and gold surfaces was studied on...
In keeping with the goal of the Viewpoint series of the Journal of Chemical Education, this article ...
The aim of the research presented in this Thesis is ab initio high accuracy investigations of atomic...
Superheavy elements are ideal for furthering our understanding of relativistic effects and how they ...
Chemical investigations of superheavy elements in the gas-phase, i.e. elements with Z≥104Z≥104, allo...
Abstract-The extension of the Periodic Table into the range of unknown atomic numbers of above one h...
We present fully relativistic coupled cluster calculations of ionization potentials, electron affini...
The experimentally known chemical properties of the transactinide elements 104 and 105, and the expe...
Relativity has a significant influence in chemistry. This only the case for chemical systems with el...
Electronic structure and atomic properties of the transactinide or superheavy elements (SHEs) are re...
SIGLEAvailable from TIB Hannover: RO 801(92-03) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - T...