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Journal articles on the topic 'Mendeleev's Periodic Table'

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Published: 5 June 2025
Last updated: 15 July 2025

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1

Hoffman, D. C. "Role of the periodic table in discovery of new elements." Proceedings in Radiochemistry 1, no. 1 (2011): 1–5. http://dx.doi.org/10.1524/rcpr.2011.0000.

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AbstractThis year (2009) marks the 140th Anniversary of Mendeleev's original 1869 periodic table of the elements based on atomic weights. It also marks the 175th anniversary of his birth in Tolbosk, Siberia. The history of the development of periodic tables of the chemical elements is briefly reviewed beginning with the presentation by Dmitri Mendeleev and his associate Nikolai Menshutkin of their original 1869 table based on atomic weights. The value, as well as the sometimes negative effects, of periodic tables in guiding the discovery of new elements based on their predicted chemical proper
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2

Alum, Benedict Nnachi. "Exploring the Trends and Patterns in Periodicity of Elements: from Mendeleev to Modern Periodic Table." NEWPORT INTERNATIONAL JOURNAL OF SCIENTIFIC AND EXPERIMENTAL SCIENCES 5, no. 2 (2024): 1–6. http://dx.doi.org/10.59298/nijses/2024/10.5.26216.

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Dmitri Mendeleev created the periodic table in 1869, and it has undergone significant modifications to become an essential tool in chemical science today. This abstract provides an informative summary of the evolution of periodic trends and patterns, from Mendeleev's work to the latest complexities in the current periodic table. The first step towards comprehending the periodicity of elements was Mendeleev's periodic table, which he offered as a means of classifying elements according to their atomic weights and chemical behaviours. The periodic table underwent additions and modifications duri
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3

Dharmanandan, N. Raju. "Pams Quantum Periodic Table, an improvement over the existing Mendeleev's Periodic Table." Education in Chemical Science and Technology Vol. 03, Aug 2022 (2022): 61–79. https://doi.org/10.5281/zenodo.6821941.

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1-1-336/102, Viveknagar, Chikkadpally, Hyderabad-500 020, Telangana, India <em>E-mail : </em>idid_raju@yahoo.com Atoms of chemical elements have three dimensional structures, and it is necessary that periodic table must have 3D shape. &quot;Pams Quan&shy;tum Periodic Table&quot;, which is an improvement over the Mendeleev&#39;s Pe&shy;riodic Table, without disturbing its basic theme is a three dimensional periodic table. All four quantum numbers can be visualized in this peri&shy;odic table at a time, where as in Mendeleev&#39;s Periodic Table only prin&shy;cipal and azimuthal quantum numbers
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4

Edwards, Peter P., Russell G. Egdell, Dieter Fenske, and Benzhen Yao. "The periodic law of the chemical elements: ‘ The new system of atomic weights which renders evident the analogies which exist between bodies ' []." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, no. 2180 (2020): 20190537. http://dx.doi.org/10.1098/rsta.2019.0537.

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The historical roots, the discovery and the modern relevance of Dmitri Mendeleev's remarkable advance have been the subject of numerous scholarly works. Here, with a brief overview, we hope to provide a link into the contents of this special issue honouring the great scientist. Mendeleev's advance, announced in March 1869, as he put it in 1889, to the ‘… then youthful Russian Chemical Society… ’, first set out the very basis of the periodic law of the chemical elements, the natural relation between the properties of the elements and their atomic weights. This was, and still is, the centrepiece
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5

DMITRIEV, IGOR S. "Scientific discovery in statu nascendi: The case of Dmitrii Mendeleev's Periodic Law." Historical Studies in the Physical and Biological Sciences 34, no. 2 (2004): 233–75. http://dx.doi.org/10.1525/hsps.2004.34.2.233.

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ABSTRACT: The history of Mendeleev's famous discovery has long been a matter of lively debate among experts. This essay proposes a new reading of this story, which differs from the well-known reconstructions made by Kedrov, Bensaude-Vincent, Graham and others. Particular attention is paid to the context of a Mendelevian thought and the analysis of the surviving outlines of his first variants of the Periodic Table. By considering Mendeleev's discovery of the Periodic Law one can identify the three principal stages in his work: 1) the composition of the ““first attempt””(pervaia proba) of the sy
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6

Oksengendler, Boris, Kamil Mukimov, Renat Letfullin, Nigora Turaeva, Gulmurza Abdurakhmanov, and Shavkat Yuldashev. "Periodic table of elements, Mendeleev's periodic table: history, achievements and problems." Bulletin of National University of Uzbekistan: Mathematics and Natural Sciences 2, no. 2 (2019): 94–112. http://dx.doi.org/10.56017/2181-1318.1023.

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7

Seaborg, Glenn T. "Modification and expansion of Mendeleev's Periodic Table." Journal of Radioanalytical and Nuclear Chemistry Articles 203, no. 2 (1996): 233–45. http://dx.doi.org/10.1007/bf02041508.

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8

Oganessian, Yury Ts, and Sergey N. Dmitriev. "Superheavy elements in D I Mendeleev's Periodic Table." Russian Chemical Reviews 78, no. 12 (2009): 1077–87. http://dx.doi.org/10.1070/rc2009v078n12abeh004096.

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9

Reznick, David. "The tree and the table: Darwin, Mendeleev and the meaning of ‘theory’." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, no. 2180 (2020): 20190309. http://dx.doi.org/10.1098/rsta.2019.0309.

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Darwin and Mendeleev revolutionized their respective disciplines by organizing diverse facts into simple, pictorial representations—a tree and a table. Each representation provides a foundation for a scientific theory for two reasons. First, a successful theory unites diverse phenomena under a single explanatory framework. Second, it does so in a way that defines paths for future inquiry that extends its reach and tests its limits. For Mendeleev, this meant creating a table that accommodated the current understanding of the elements but also contained blanks that predicted the discovery of pre
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10

Khakimov, N. Z., and A. Sh Razzokov. "THEORETICAL PREDICTIONS AND PREP ARATION OF SEMICONDUCTOR SOLIDS BASED ON A STATISTICAL GENERALIZED MOMENT." SEMOCONDUCTOR PHYSICS AND MICROELECTRONICS 3, no. 2 (2021): 20–24. http://dx.doi.org/10.37681/2181-1652-019-x-2021-2-3.

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The article presents an analytical formula, theoretical results and calculations of statistically generalized moments of the elements of Mendeleev's peri odic table. For the elements of the periodic table, the results obtained for their radii and generalized moments are given, which provide the basis for scientific prediction of their so lubility in order to grow new solid semiconductor materials from the liquid phase
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11

Uzakova, A., N. Chinibayeva, M. Ahtaeva, D. Karazhanova, N. Sarova, and N. Akhmetov. "A NEW LOOK AT THE STRUCTURE OF THE PERIODIC TABLE OF D.I. MENDELEEV." Chemical Journal of Kazakhstan, no. 1 (March 27, 2025): 88–97. https://doi.org/10.51580/2025-1.2710-1185.09.

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The article considers the main contradiction identified in the Periodic Table of Mendeleev: the discrepancy between the results of the calculation according to the already known formula and the internal structure of the periodic table of D. I. Mendeleev, that is, the maximum number of electrons calculated according to the known formula does not correspond to the number of elements in the corresponding period. An alternative approach to constructing periods of Mendeleev's Periodic Table is proposed. The new structure of periods of the Mendeleev table will not be complete without its accompanyin
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12

Yao, Benzhen, Vladimir L. Kuznetsov, Tiancun Xiao, et al. "Metals and non-metals in the periodic table." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, no. 2180 (2020): 20200213. http://dx.doi.org/10.1098/rsta.2020.0213.

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The demarcation of the chemical elements into metals and non-metals dates back to the dawn of Dmitri Mendeleev's construction of the periodic table; it still represents the cornerstone of our view of modern chemistry. In this contribution, a particular emphasis will be attached to the question ‘Why do the chemical elements of the periodic table exist either as metals or non-metals under ambient conditions?’ This is perhaps most apparent in the p-block of the periodic table where one sees an almost-diagonal line separating metals and non-metals. The first searching, quantum-mechanical considera
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13

Deckmann Nicoletti, Caroline. "New Elements in the Mendeleev's Periodic Table: What does Change in Practice?" Revista Virtual de Química 8, no. 5 (2016): 1786–89. http://dx.doi.org/10.21577/1984-6835.20160118.

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14

LI, Shuni, Quanguo ZHAI, Yucheng JIANG, Mancheng HU, Zhihong LIU, and Shengli GAO. "Periodic Table of Elements and Chemistry Education: Commemorating the 150th Anniversary of the Publication of Mendeleev's Periodic Table of Elements." University Chemistry 34, no. 12 (2019): 2–7. http://dx.doi.org/10.3866/pku.dxhx201909024.

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15

Widdowson, Daniel, Marco M. Mosca, Angeles Pulido, Andrew I. Cooper, and Vitaliy Kurlin. "Average minimum distances of periodic point sets – foundational invariants for mapping periodic crystals." MATCH Communications in Mathematical and in Computer Chemistry 87, no. 3 (2021): 529–59. http://dx.doi.org/10.46793/match.87-3.529w.

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The fundamental model of any solid crystalline material (crystal) at the atomic scale is a periodic point set. The strongest natural equivalence of crystals is rigid motion or isometry that preserves all inter-atomic distances. Past comparisons of periodic structures often used manual thresholds, symmetry groups and reduced cells, which are discontinuous under perturbations or thermal vibrations of atoms. This work defines the infinite sequence of continuous isometry invariants (Average Minimum Distances) to progressively capture distances between neighbors. The asymptotic behaviour of the new
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16

Chellan, Prinessa, and Peter J. Sadler. "The elements of life and medicines." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 373, no. 2037 (2015): 20140182. http://dx.doi.org/10.1098/rsta.2014.0182.

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Which elements are essential for human life? Here we make an element-by-element journey through the periodic table and attempt to assess whether elements are essential or not, and if they are, whether there is a relevant code for them in the human genome. There are many difficulties such as the human biochemistry of several so-called essential elements is not well understood, and it is not clear how we should classify elements that are involved in the destruction of invading microorganisms, or elements which are essential for microorganisms with which we live in symbiosis. In general, genes do
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17

Lander, Eric S. "Scientific Commentary: The Scientific Foundations and Medical and Social Prospects of the Human Genome Project." Journal of Law, Medicine & Ethics 26, no. 3 (1998): 184–88. http://dx.doi.org/10.1111/j.1748-720x.1998.tb01418.x.

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We are living through one of the greatest scientific revolutions in history: the “information revolution” in genetics. The revolution is leading to a deep understanding of biological processes and is uncovering the molecular basis of many human diseases and susceptibilities. It is also confronting society with a vast array of choices, and presenting each individual with the question of what knowledge to seek and how to act on that knowledge, My purpose is to discuss the scientific foundations of this revolution and to foreshadow its consequences.The current scientific revolution has perhaps on
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18

Assem Uzakova, Nurzhan Chinibayeva, Nurlan Akhmetov, and Zhanar Kozhagulova. "ALTERNATIVE EXPLANATION OF FILLING THE ELECTRONIC LAYERS OF ATOMS OF CHEMICAL ELEMENTS." Chemical Journal of Kazakhstan, no. 3 (September 30, 2024): 78–91. http://dx.doi.org/10.51580/2024-3.2710-1185.34.

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The article provides a new approach to the formation of periods in Mendeleev's periodic system. Reconfiguration of the periods in the Mendeleev table using the newly proposed formula and the newly proposed quantum states for the outer electron shells of atoms of chemical elements is proposed. Purpose of work: Further development of the alternative theory of creation of electronic shells of atoms of chemical elements in D.I.Mendeleev's table. Results and discussions. The following order of formation of electron layers is proposed: principle quantum number (n), then the quantum state of the elec
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19

Murog, Igor A., Valery F. Gnido, Elena V. Tinina, Igor A. Ilchuk, and Tatiana A. Asayeva. "Simulation of thermal processes on the electrode of a miniature protective spark gap." Revista de la Universidad del Zulia 12, no. 32 (2021): 127–38. http://dx.doi.org/10.46925//rdluz.32.10.

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The article discusses the issues that arise when determining the temperature in the region of the cathode spot in miniature protective spark gaps. The modeling principle is used to study the temperature field on the spark gap electrode. A mathematical model of the process is compiled on the basis of the balance of power entering the cathode spot and its removal inside the cathode due to thermal conductivity. A numerical solution of the obtained nonlinear heat equation with inhomogeneous boundary conditions by the finite-difference method is presented. The authors compared the found temperature
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20

Лапасов, С. "STUDY OF THE POTATO GENEFOUND IN THE FUTURE." MODERN SCIENCE AND RESEARCH 2, no. 11 (2023): 1065–69. https://doi.org/10.5281/zenodo.10897291.

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<em>This article presents information on the study and enrichment of the potato gene pool, growth and productivity. The research was conducted in 2022 in the experimental fields of the ITI of Vegetables, Poly crops and Potatoes. Today, potatoes are sold in 21.5 million countries of the world. 351 mln. per hectare. more than tons of potatoes are being grown. In the world, potato is the second most important crop after wheat, rice, and corn. Potatoes are a source of protein, starch, various vitamins and mineral salts, elements important for humans. </em> <em>Potato tubers contain D. It was found
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21

Khidirov, I., S. Dj Rakhmanov, and Sh A. Makhmudov. "About rms amplitude of zero oscillations of atoms in crystal." Izvestiya vysshikh uchebnykh zavedenii. Fizika, no. 7 (2021): 48–53. http://dx.doi.org/10.17223/00213411/64/7/48.

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It is shown that the values of the energy and amplitude of zero-point vibrations of atoms in a crystal, due to the uncertainty principle, depend on the dynamic characteristics of atoms in the crystal. It was found that the root-mean-square amplitude of thermal and zero-point vibrations of atoms, like other properties, has a periodic dependence on the ordinal number of elements in the Mendeleev's Periodic Table. It is shown that the value of the root-mean-square amplitude of thermal vibrations of atoms in a lattice of elements with a high value of the Debye temperature at room temperature does
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22

Paribok, A. V., R. V. Pskhu, G. V. Zashchitina, L. G. Roman, and N. N. Danilova. "Difficulties and Perspectives of Parametrical Conception of Language." RUDN Journal of Philosophy 25, no. 2 (2021): 340–48. http://dx.doi.org/10.22363/2313-2302-2021-25-2-340-348.

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The article looks into the issues, outlined in M. Baker's The Atoms of Language: The Mind's Hidden Rules of Grammar . This work is notable for the parametric theory of the languages, set out in it, according to which languages are different, nevertheless retaining the ability to be compared. That can be further supported by the assertion that the differences among languages are determined by "a smallish number of discreet elements, called parameters."What is more, the diversity of language reveals a certain regularity, very much resembling that of Mendeleev's periodic table of chemical element
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23

Zhou, Qi-Feng. "Foreword for PAC special issue 4th International Conference on the Periodic Table (Mendeleev 150)." Pure and Applied Chemistry 91, no. 12 (2019): 1893–95. http://dx.doi.org/10.1515/pac-2019-0907.

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Abstract The conference Mendeleev 150 was held to join the worldwide celebrations of the 150th Anniversary of the publication of Dmitri I. Mendeleev’s Periodic Table of Chemical Elements and the International Year of the Periodic Table proclaimed by the United Nations. The presentations of the invited speakers were published by the Journal of Pure and Applied Chemistry as a special issue. The papers in this issue formed a broad picture of the Periodic Table: the history, the people, the reasoning, the mathematical description of the law, and the efforts to predict and to create any new element
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24

Babenko, I. A. "THE PERIODIC TABLE OF CHEMICAL ELEMENTS AND THE PROBLEM OF ITS JUSTIFICATION." Metaphysics, no. 1 (March 15, 2023): 19–29. http://dx.doi.org/10.22363/2224-7580-2023-1-19-29.

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The article considers five stages in the history of the discovery and attempts to substantiate Mendeleev’s periodic system of chemical elements. The first stage consists in the accumulation, systematic analysis of extensive empirical material and in the direct establishment of the periodic law of chemical elements by Mendeleev. At the second stage, attempts were made to atomic-electronic explanation of the periodicity of the physical and chemical properties of elements on the basis of quantum mechanics and the Pauli principle. The third stage is associated with the development of nuclear physi
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25

Uliganets, Serhii I., Sergii Yu Syrovets, Nataliia S. Koroma, and Mykola A. Molochko. "A geographical dimension of resource endowment of Ukrainian territories." Journal of Geology, Geography and Geoecology 30, no. 3 (2021): 589–96. http://dx.doi.org/10.15421/112154.

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&#x0D; &#x0D; &#x0D; Given the multidisciplinary nature of this research, it is important to develop a common understanding of the security and complexity of the rational consumption of available minerals. Considerations for the availability and depletion of minerals are part of a diverse range of research focused on sustainable development, in areas such as resource critical shortage, life cycle assessment and material flow analysis. Mineral resources are non-renewable resources that provide humanity with a wide range of goods and services. Although their value has been recognized for millenn
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Tsivadze, Aslan Yu. "Periodic Law, Mendeleev Society and Mendeleev Congresses." Vestnik RFFI, no. 1 (April 24, 2019): 17–24. http://dx.doi.org/10.22204/2410-4639-2019-101-01-17-24.

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In November 1868, the Ministry of Enlightenment of Russia approved the Charter of the Russian Chemical Society (RCS), one of the Founding Members of which had been Dmitri Mendeleev. The first report on Mendeleev Periodic Table of Chemical Elements was delivered during a meeting of the RCS in March 1869. Therefore 1869 is considered by the world science as the year of discovery of the Periodic Law and formulation of the Periodic Table of Chemical Elements. Year 2019 is the 150th anniversary since Dmitry Mendeleev discovered the Periodic System, and the United Nations proclaimed this year to be
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27

Anatoly, Vinogradov. "Prospects for practical use of kaminskii thermovoltaic effect." Brazilian Journal of Development 8, no. 11 (2022): 76428–39. http://dx.doi.org/10.34117/bjdv8n11-381.

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The effect discovered by Kaminskii V. V. in 1999 represents one of the new principles of transformation of thermal energy into electrical energy. It was observed in samarium monosulfide, the results of investigation of the tensorresistive effect in which were presented at the 1st CP-CPLP. The tensorresistive sensitivity was maximum among all semiconductors. Qualitative theoretical analysis of the formidable properties of SmS is made from the relations between ionization energy of impurities and ionization potentials and ionic radii, which are more favorable in rare earth elements. This is expl
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28

NICOLIN, Bogdan Adrian, and Ilie NICOLIN. "Green hydrogen as an environmentally-friendly power source." INCAS BULLETIN 15, no. 2 (2023): 141–47. http://dx.doi.org/10.13111/2066-8201.2023.15.2.13.

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Hydrogen is the most plentiful chemical element in the visible universe. The mass composition of the visible universe is approximately 74% hydrogen, 24% helium, 1% oxygen, and the rest of all other chemical elements is about 1%. Hydrogen has the symbol H and the atomic number 1. It is placed in the first position in Mendeleev's periodic table of elements, in the upper left corner. It is an easily flammable, colorless, tasteless, odorless gas, and in nature, it is found mainly in the form of the diatomic molecule, H 2. With an atomic mass unit of 1.00794, hydrogen is the lightest chemical eleme
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29

SIROTKIN, O. S., R. O. SIROTKIN, and M. YU PERUKHIN. "ASSESSMENT OF THE EFFECT OF A MIXED TYPE OF CHEMICAL BOND ON STRUCTURE AND PROPERTIES OF SUBSTANCES WITHIN THE FRAMEWORK OF A COMPUTER PROGRAMME BASED ON THE "CHEMICAL TRIANGLE"." Herald of Technological University 27, no. 10 (2024): 131–36. https://doi.org/10.55421/1998-7072_2024_27_10_131.

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As part of the development of systematic research to account for the complex effect of the composition and type of mixed chemical bond of elements based on atoms of the D.I. Mendeleev's Periodic Table on structure and properties of homo- and heteronuclear compounds with E-O bonds (oxides), substances and materials, a computer programme was developed. As a fundamental basis for the creation of this specialized computer program, the authors used a single model of chemical bond and a system of chemical bonds and compounds in the form of a "Chemical triangle" by O.S. Sirotkin and R.O. Sirotkin, de
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Galiulin, R. V., and K. B. Imangazieva. "Crystallography of Mendeleev’s periodic table." Crystallography Reports 50, no. 6 (2005): 893–901. http://dx.doi.org/10.1134/1.2132392.

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31

Stonik, Valentin A., and Tatyana N. Makarieva. "Mendeleev’s Periodic Table and Marine Biomolecules." Vestnik RFFI, no. 1 (April 24, 2019): 105–19. http://dx.doi.org/10.22204/2410-4639-2019-101-01-105-119.

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The mini-review highlights the involvement of some elements of Mendeleev Periodic Table into marine biogenic compounds and these elements participation in the marine organisms’ metabolism. Some metals accumulation by marine invertebrates and the metal complexation by highly structurally diverse secondary metabolites are discussed. In addition, examples of the covalent bonds formation in marine bioorganic molecules with a number of non-metals are considered.
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32

Schindler, Samuel. "Novelty, coherence, and Mendeleev’s periodic table." Studies in History and Philosophy of Science Part A 45 (March 2014): 62–69. http://dx.doi.org/10.1016/j.shpsa.2013.10.007.

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33

Flegar, Vanja Horvat, and Suzana Inić. "Mendeleev’s discovery of the periodic table and the first European Academy of Sciences to honour him." Acta Pharmaceutica 73, no. 4 (2023): 735–53. http://dx.doi.org/10.2478/acph-2023-0039.

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Abstract The chemical science community will commemorate the 155th anniversary of Mendeleev’s groundbreaking discovery of the periodic table of elements in 2024. This paper aims to underscore the significance of Mendeleev’s honorary membership in the Academy of Sciences in Zagreb, Croatia, which occurred in 1882, making it the first scientific academy in Europe to extend this recognition. Additionally, we seek to explore the contextual circumstances that contributed to this noteworthy event within the broader European context. To provide insight into the specificities and variations in the inf
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Semenova, Anna A., Evelina I. Nikelshparg, Nadezhda A. Brazhe, Irina A. Veselova, and Eugene A. Goodilin. "Nanoelements in Mendeleev’s Periodic Table. Copper Subgroup." Vestnik RFFI, no. 2 (June 25, 2019): 46–57. http://dx.doi.org/10.22204/2410-4639-2019-102-02-46-57.

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The 150th anniversary of the Mendeleev’s Periodic Table of elements requires scientists to rethink the outstanding role of this fundamental law in modern areas of chemistry, including such interdisciplinary and high-tech fields as nanochemistry and nanomaterials. The situation analysis shows that the most “nanotechnologically” popular elements belong to 1st, 2nd and partially to the 3rd periods, wherein a special practically important role is played by the noble metals because of their clear «specialization» in the development and implementation of new analytical techniques, in particular, the
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35

Podberezskaya, N. V. "Heat-resistant metals in Mendeleev’s periodic table." Crystallography Reports 57, no. 6 (2012): 768–72. http://dx.doi.org/10.1134/s1063774512040116.

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36

Varlamov, Vadim V., Larisa D. Pavlova, and Olga S. Babushkina. "Group Theoretical Description of the Periodic System." Symmetry 14, no. 1 (2022): 137. http://dx.doi.org/10.3390/sym14010137.

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The group theoretical description of the periodic system of elements in the framework of the Rumer–Fet model is considered. We introduce the concept of a single quantum system, the generating core of which is an abstract C*-algebra. It is shown that various concrete implementations of the operator algebra depend on the structure of the generators of the fundamental symmetry group attached to the energy operator. In the case of the generators of the complex shell of a group algebra of a conformal group, the spectrum of states of a single quantum system is given in the framework of the basic rep
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37

Druzhinin, Petr A. "The First Publication of Mendeleev’s Periodic System of Elements." Historical Studies in the Natural Sciences 50, no. 1-2 (2020): 129–82. http://dx.doi.org/10.1525/hsns.2020.50.1-2.129.

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This study explores the full set of handwritten and printed materials associated with the 1869 publication of the first version of Dmitrii Mendeleev’s periodic system of elements: “An Attempt at a System of Elements Based on Their Atomic Weight and Chemical Affinity.” Using innovative historical research methods, the author has been able to refute the publication date traditionally associated with the first version of the periodic table, as well as to establish an accurate chronology of its subsequent publications. This task was made possible through the discovery of previously unknown handwri
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Podberezskaya, N. V. "Mendeleev’s periodic table: Current data on structure symmetry." Crystallography Reports 54, no. 5 (2009): 738–42. http://dx.doi.org/10.1134/s1063774509050046.

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39

Kostić, Danijela, Nenad Krstić, and Marina Blagojević. "History of the Periodic System of the Elements." Chemia Naissensis 3, no. 2 (2020): 117–35. http://dx.doi.org/10.46793/chemn3.2.117k.

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There were several attempts to classify known elements before Mendeleev. Numerous scientists, such as John Newlands, Alexandre-Emile Beguyer de Chancourtois and Julius Lothar Mayer, have contributed to the discovery of the periodic table. Mendeleev was not the first to try to arrange the elements according to their properties, but he was the first to recognize and leave empty positions for the elements to be discovered. Many of his predictions came true and time confirmed the periodic law and the accuracy of the periodic table of elements.
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40

Ponizovkin, Andrey Yu. "XX Mendeleev Congress on General and Applied Chemistry." Vestnik RFFI, no. 2 (June 25, 2019): 14–25. http://dx.doi.org/10.22204/2410-4639-2019-102-02-14-25.

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A comprehensive report on the XX Mendeleev Congress on General and Applied Chemistry is presented. The most interesting reports are considered, among them are: presentation of Nobel Prize winner Professor D. Shechtman on quasi-periodical crystals; report of Professor S. Dmitriev about completing Mendeleev’s Periodic Table of chemical elements with super heavy elements (atomic numbers 113–118); lecture of then RAS President Academician V. Fortov on the behavior of chemical elements under extremal conditions of superhigh pressures where materials basically change their properties; presentation o
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41

Kustov, Leonid M., Anton I. Kudelin, and Vera I. Isaeva. "Variability and Periodicity of Properties of Metal-Organic Frameworks: D.I. Mendeleev’s Periodic System in Action." Vestnik RFFI, no. 2 (June 25, 2019): 74–81. http://dx.doi.org/10.22204/2410-4639-2019-102-02-74-81.

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This mini-review presents the analysis of the structure of metal-organic frameworks in terms of the D.I. Mendeleev’s Periodic Law. Up to date, 69,666 compounds of these coordination polymers, containing 78 elements of the Periodic Table, have been synthesized, and their structure has been established.
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42

Atkins, Peter. "Elements of Education." Chemistry International 41, no. 4 (2019): 4–7. http://dx.doi.org/10.1515/ci-2019-0404.

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Abstract The periodic table was born in chemical education and thrives there still. Mendeleev was inspired to create his primitive but pregnant table in order to provide a framework for the textbook of chemistry that he was planning, and it has remained at the heart of chemical education ever since. It could be argued that the education of a chemist would be almost impossible without the table; at least, chemistry would remain a disorganized heap of disconnected facts. Thanks to Mendeleev and his successors, by virtue of the periodic table, chemical education became a rational discussion of th
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43

Ingrain, Antonio Marchal. "Artistic Periodic Table in Honor of Mendeleev." Journal of Chemical Education 85, no. 11 (2008): 1489. http://dx.doi.org/10.1021/ed085p1489.1.

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44

"Herald of the RAS", Board of the journal. "150th anniversary of periodic table of chemical elements." Вестник Российской академии наук 89, no. 6 (2019): 561–62. http://dx.doi.org/10.31857/s0869-5873896561-562.

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The United Nations declared 2019 the International Year of the Periodic Table of Chemical Elements, coinciding with the 150th anniversary of the Periodic Law, opened in 1869 by the great Russian scientist-encyclopedist Dmitry Ivanovich Mendeleev (1834–1907).
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45

Varlamov, V. V. "Group Theoretical Description of Periodic System of Elements: III. 10-Periodic Extension." Mathematical structures and modeling, no. 3 (2019): 5–20. http://dx.doi.org/10.24147/2222-8772.2019.3.5-20.

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10-periodic extension of Mendeleev table is studied within group theoretical approach. A multiplet structure is considered in detail for periods of the extended table. It is shown that period lengths are defined by a structure of basic representation of the Rumer-Fet group. Theoretical masses of elements are calculated for 10-th and 11-th periods. A notion of hypertwistor is introduced.
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46

Beidyk, Oleksandr O., and Oleksandr O. Komliev. "Mineral and raw material self-sufficiency of Ukraine: a geographical mensuration." Journal of Geology, Geography and Geoecology 32, no. 2 (2023): 217–23. http://dx.doi.org/10.15421/112320.

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For a more objective assessment of Ukraine’s resource self-sufficiency, monitoring of its natural resource environment, in particular, subsoil, is used, which is in importmant factor in insuring economic stability and security of the state. A component of this scientific and practical issue is the expansion and deepening of the systemic manifestations of the placement of geochemical resources on the territory of Ukraine with the help of economic-geographical zoning schemes and the table of chemical elements, which are considered as fundamental methodological levers. The authors of the article
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47

Schindler, Samuel. "Use-novel predictions and Mendeleev’s periodic table: response to." Studies in History and Philosophy of Science Part A 39, no. 2 (2008): 265–69. http://dx.doi.org/10.1016/j.shpsa.2008.03.008.

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48

Gomollón-Bel, Fernando. "Ten Chemical Innovations That Will Change Our World: IUPAC identifies emerging technologies in Chemistry with potential to make our planet more sustainable." Chemistry International 41, no. 2 (2019): 12–17. http://dx.doi.org/10.1515/ci-2019-0203.

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Abstract 2019 is a very special year in chemistry. 2019 marks two major anniversaries: the 100th anniversary of the founding of the International Union of Pure and Applied Chemistry (IUPAC), and the 150th anniversary of Dimitri Mendeleev’s first publication on the Periodic Table of Elements [1]. IUPAC is the global organization that, among many other things, established a common language for chemistry—enabling scientific research, education, and trade. In a similar manner, Mendeleev’s system classified all the elements that were known at the time, and even predicted the existence of elements t
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49

Akhmetov, N. K. "DERIVATION OF A NEW EQUATION FOR CALCULATING THE NUMBER OF ELECTRONS CORRESPONDING TO DIFFERENT VALUES OF THE PRINCIPAL QUANTUM NUMBER." International Journal of Advanced Research 9, no. 07 (2021): 715–19. http://dx.doi.org/10.21474/ijar01/13173.

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This paper deals with a new approach in the formation of periods in the Mendeleevs Periodic Table. Using a newly suggested formula and newly suggested quantum states for the external electron shells of atoms of chemical elements, the author proposed the reconfiguration of periods in the Mendeleevs table. The reducing of the number of periods in the table is assumed, andthe material represented in the paper proves it.The following order of formation of electron layers is suggested: the principle quantum number (n), followed by the quantum state of electrons (first and second) which constitute t
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50

Ginak, Elena. "The «D.I. Mendeleev’s Periodic System of the Elements» Mural Near the Mendeleev Institute for Metrology in Saint Petersburg: How Metrologists Celebrated the 100th Anniversary of the Scientist." Substantia 5, no. 2 (2021): 79–84. http://dx.doi.org/10.36253/substantia-1028.

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This article is timed to the celebration of the International Year of the Periodic Table of Chemical Elements, declared by the UN and UNESCO in connection with the 150th anniversary of the discovery by D. I. Mendeleev of the Periodic Law of Chemical Elements (1869). The article highlights the metrological activity of D. I. Mendeleev and tells about how in the scientific metrological center, he created the Main Chamber of Weights and Measures. Now the D.I. Mendeleyev Institute for Metrology (VNIIM) preserves the memory of the life and activities of the great Russian scientist and encyclopedist.
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