Add to ORKGIt is shown how the properties of different elements of the Periodic System of Elements can be obtained using the properties of the theoretically predicted heaviest element No.155 (it draws the upper principal limit of the Table, behind which stable elements cannot exist). It is suggested how the properties of element No.155 can be used in the synthesis of superheavy elements. An analysis of nuclear reactions is also produced on the same basis
The evaluation of the residue cross-sections of reactions synthesising superheavy elements has been ...
Studies of the superheavy elements bring several challenges through low production yields, short hal...
As the International Year of the Periodic Table came to an end in 2019, the authors reflect on the c...
For the first time, using the heaviest possible element, the diagram for known nuclides and stable i...
On the basis of the method involving equilateral hyperbolas developed by us with ref-erence to the P...
Artificially produced chemical elements heavier than uranium have been known for more than...
Although somewhat in the shadow of the discoveries of new elements, experimental chemical investigat...
One hundred and fifty years after its conception the periodic table of the elements contains 118 mem...
Theoretical investigation of atomic and chemical properties of the elements at the low edge of the p...
This paper gives a survey for the methods how a possible upper limit in Mendeleev’s Periodic Table c...
Unnoticed by many chemists, the Periodic Table of the Elements has been extended significantly in th...
The authors discuss fission properties of the heaviest elements. In particular they focus on stabili...
Systematic calculations of superheavy region from Z = 1 0 0 to Z = 1 5 0 and N/Z ratio ranging from ...
Abstract-The extension of the Periodic Table into the range of unknown atomic numbers of above one h...
Science often develops most vigorously through challenging studies of extreme phenomena. Superheavy ...
The evaluation of the residue cross-sections of reactions synthesising superheavy elements has been ...
Studies of the superheavy elements bring several challenges through low production yields, short hal...
As the International Year of the Periodic Table came to an end in 2019, the authors reflect on the c...
For the first time, using the heaviest possible element, the diagram for known nuclides and stable i...
On the basis of the method involving equilateral hyperbolas developed by us with ref-erence to the P...
Artificially produced chemical elements heavier than uranium have been known for more than...
Although somewhat in the shadow of the discoveries of new elements, experimental chemical investigat...
One hundred and fifty years after its conception the periodic table of the elements contains 118 mem...
Theoretical investigation of atomic and chemical properties of the elements at the low edge of the p...
This paper gives a survey for the methods how a possible upper limit in Mendeleev’s Periodic Table c...
Unnoticed by many chemists, the Periodic Table of the Elements has been extended significantly in th...
The authors discuss fission properties of the heaviest elements. In particular they focus on stabili...
Systematic calculations of superheavy region from Z = 1 0 0 to Z = 1 5 0 and N/Z ratio ranging from ...
Abstract-The extension of the Periodic Table into the range of unknown atomic numbers of above one h...
Science often develops most vigorously through challenging studies of extreme phenomena. Superheavy ...
The evaluation of the residue cross-sections of reactions synthesising superheavy elements has been ...
Studies of the superheavy elements bring several challenges through low production yields, short hal...
As the International Year of the Periodic Table came to an end in 2019, the authors reflect on the c...