| On the position of helium and neon in the Periodic Table of Elements |
8 |
| Why molecular structure cannot be strictly reduced to quantum mechanics |
5 |
| Tetrahedral and spherical representations of the periodic system |
4 |
| Mineral misbehavior: why mineralogists don't deal in natural kinds |
3 |
| Mendeleev's predictions: success and failure |
2 |
| Five ideas in chemical education that must die |
2 |
| Incompatible models in chemistry: the case of electronegativity |
2 |
| Early Industrial Roots of Green Chemistry and the history of the BHC Ibuprofen process invention and its Quality connection |
2 |
| The atomic number revolution in chemistry: a Kuhnian analysis |
2 |
| Thermodynamic foundations of physical chemistry: reversible processes and thermal equilibrium into the history |
2 |
| Does the period table appear doubled? Two variants of division of elements into two subsets. Internal and secondary periodicity |
2 |
| Valencies of the lanthanides |
2 |
| Moving beyond insularity in the history, philosophy, and sociology of chemistry |
1 |
| A historical/epistemological account of the foundation of the key ideas supporting chemical equilibrium theory |
1 |
| Research of chemical elements and chemical bonds from the view of complex network |
1 |
| Further light on the philosophical significance of Mackay's theoretical discovery of crystalline pure possibilities |
1 |
| About continuity and rupture in the history of chemistry: the fourth chemical revolution (1945-1966) |
1 |
| The orbital: a pivotal concept in the relationship between chemistry and physics? A comment to the work by Fortin and coauthors |
1 |
| Emile Meyerson and mass conservation in chemical reactions: a priori expectations versus experimental tests |
1 |
| A new chapter in the problem of the reduction of chemistry to physics: the Quantum Theory of Atoms in Molecules |
1 |
| Re-evaluating semi-empirical computer simulations in quantum chemistry |
0 |
| The problem of optical isomerism and the interpretation of quantum mechanics |
0 |
| The periodic table: revelation by quest rather than by revolution |
0 |
| The function of microstructure in Boyle's chemical philosophy: chymical atoms' and structural explanation |
0 |
| Theory comparison and choice in chemistry, 1766-1791 |
0 |
| A representation of the periodic system based on atomic-number triads |
0 |
| An allegory on molecular periodicity |
0 |
| Basic principles of the strategy concerning the elucidation of configuration of chiral centers of linear isomeric aldohexoses |
0 |
| Chemistry as a creative science |
0 |
| What is chemistry that I may teach it? |
0 |
| Priestley's views on the composition of water and related airs |
0 |
| The network theory: a new language for speaking about chemical elements relations through stoichiometric binary compounds |
0 |
| Getting it right is not equivalent to getting it wrong |
0 |
| What to make of Mendeleev's predictions? |
0 |
| Statistical mechanical interpretation of temperature |
0 |
| On the 'true position' of hydrogen in the Periodic Table |
0 |
| Climate change and the butterfly effect in an eighteenth century monograph |
0 |
| From multiple simultaneous independent discoveries to the theory of multiple simultaneous independent errors: a conduit in science |
0 |
