169. Laws of nature according to philosophers of science and according to chemists, Foundations of Chemistry, Special Issue for the Croatia meeting of ISPC, July 2024. 168. Entry on The Philosophy of Chemistry for the Routledge Handbook on the History of Philosophy of Science, Padovani, F., Tamas Tuboly, A. 167. A commentary on Robin Hendry's views on molecular structure, emergence and chemical bonding, in D. Vecchi, New Mechanism: Emergence and Scientific Explanation. Ontological and Epistemological challenges in the Natural Sciences, Springer, 2023. 166. How and why the Periodic Table should be elevated to a higher status in chemistry courses, and a very brief history of the periodic table, in New Directions in Chemical Education, V. Domenici ed., Pisa University Press, 9-20, 2023. 165. Preface to Introduction to Philosophy of Chemistry, M. Labarca, S. Fortin (eds.), 2023. 164. Should atoms be put first in teaching general chemistry and if so how? in L.Orian ed., Perspectives in Chemical Education, Padua University Press. 163. A new response to Wray and an attempt to widen the conversation, submitted to Studies in History & Philosophy of Science. 162. In praise of chemical triads, Foundations of Chemistry, 24, 285-300 (2022). 161. On Weisberg's writings about chemical bonding, Foundations of Chemistry, Accepted (in press). 160. Hasok Chang on the Nature of Acids, Foundations of Chemistry, 24, 2022 159. Various forms of the periodic table including the left-step table, the regularization of atomic number triads and first member anomalies, Chem Texts, 8, 6 (2022). 158. The Tree of Life and the Table of the Elements, Oxford University Press blog. 157. Integrating the History and Philosophy of Science and restoring the centrality of the Periodic Table into a college general chemistry course, Chimica Nella Scuola, 4, 16-23, 2021. 156. Provisional report on Discussions on Group 3 of the Periodic Table, Chemistry International, January-March issue, 2021, 31-34. 155. Response to Geoffrey Neuss on how to teach the 4s 3d conundrum, Foundations of Chemistry 23, 247-251 (2021). 154. The impact of twentieth century physics on the periodic table and some remaining questions in the twenty-first century, in Giunta, C.J.; Mainz, V. V.; Girolami, G. S. Eds.150 Years of the Periodic Table - A Commemorative Symposium; Perspectives on the History of Chemistry; Springer: Heidelberg, 2021 153. Nicholson's atomic theory and realism, in Contemporary Scientific Challenge from the History of Science, P. Vickers, T. Lyons, (eds.), Oxford University Press, 2020. (in press). 152. Reassessing the Notion of a Kuhnian Revolution: What Happened in 20th C. Chemistry, A Commentary on Wray's claim of the discovery of atomic number as a revolution in chemistry, Cambridge University Press, (in press) 151. Causation and the Periodic Table, Synthese (submitted) 150. On Chemical Natural Kinds, Journal for the General Philosophy of Science, (accepted) 149. How Can the Periodic Table Be Improved? Philosophical Transactions of the Royal Society, (accepted). 148. The Periodic Table and the Turn to Practice, Studies in History and Philosophy of Science, 79, 87-93, 2020. 147. Happy 150th Birthday to the Periodic Table, Chemistry European Journal, in press. 146. Can Quantum Ideas Explain Chemistry's Greatest Icon? Nature, 565, 557-558, 2019. 145. Happy Sesquicentennial to the Periodic Table, Scientific American, January 22nd, 2019. 144. Five ideas in chemical education that must die, Foundations of Chemistry (in press) 143. Looking backwards and forwards at the development of the periodic table, Chemistry International, January-March, 16-20, 2019. 142. Response to Kragh, Bulletin for the History of Chemistry, 43, 2, 125-127, 2018. 141. Co-authored with W. Parsons, What Elements Belong in Group 3? in E.R. Scerri, G. Restrepo eds., Mendeleev to Oganesson, Oxford University, New York, 2018. 140. A response to Labarca and Zambon on their claimed reconceptualization of the concept of element and its basis as a new representation of the periodic system, Educacion Quimica (Mexico), 29, 9, 128-132, 2018. 139. The Periodic Table: Celebrating 150 Years in 2019, Chemical & Engineering January 1 st , 2-2, 2018. 138. Response to Vogt on A Tale of Seven Scientists, Hyle, 24, 1-4, 2018. 137. How Should the Periodic Table be Regarded? A Brief Look at Some Published Proposals, Rutherford Magazine (New Zealand), volume 5, 2018. 136. A Comment of the Srivath’s Labarca Periodic Table, Chemistry, Bulgarian Journal of Science Education, 26, 667-671, 2017. 135. El descubrimiento de la tabla peridica como un caso de descubrimiento simultaneo, Epistemologia e Historia de la Ciencia (Argentina), 1, 2, 2017. 134. The Gulf Between Chemistry and Philosophy of Chemistry, Then and Now, Structural Chemistry, 28, 1599-1605, 2017. 133. On the Madelung Rule, Response to Marc Henry’s Super-Saturated Chemistry, Inference (on-line inter-disciplinary journal), March, 2017. 132. Co-written with Ed Wasserman, Forget the insight of a lone genius. Innovation is an evolving process of trial and error, The Conversation, 2017, 131. Op-Ed, Forget genius. Science is the product of less-than-brilliant minds, Los Angeles Times, 20th February, 2017. 130. Antonius van den Broek, Moseley and the concept of atomic number. In For Science, King and Country, Henry Moseley, eds. R. Edgell, R. MacLeod, 2018, 102-118. 129. Another Four Bricks in the Wall, co-authored with S. Burdette, P. Ball, K. Day, B. Thornton, Nature Chemistry, 8, 283-288, 2016. 128. Which Elements Belong to Group 3 of the Periodic Table, Chemistry International, Volume 38, Issue 2, Pages 22-23, March, 2016. 127. The Changing Views of a Philosopher of Chemistry on the Question of Reduction, in E.R. Scerri, G. Fisher eds. Essays in the Philosophy of Chemistry, Oxford University Press, New York, 2016. 126. Science Popularization, The Competing Forces of Nationalism and Globalization in Science and a New Model of Scientific Discovery, Journal of Science Education, 15, 29-30, 2014. 125. The discovery of the periodic table as a case of simultaneous discovery, Philosophical Transactions of the Royal Society A, A 373: 20140172, 2014. 124. Master of Missing Elements (Moseley), American Scientist, 102, 358-365, 2014. 123. On the naming and symbols for elements 115 and 112, Chemistry International, July-August, 2014, 31-32. 122. Sobre una nica otima tabla peridica Uruguay Ciencia, 17, Marzo, 2014, 30-33. 121. The trouble with the Aufbau Principle, Education in Chemistry, November, 24-26, 2013. 120. The Ambiguity of Reduction, The Panetteo Forum, Issue 51, July 2013. Reprinted from Hyle. 119. Some comments on the views of Niaz, Rodriguez and Brito on Mendeleev's periodic system, Educacion Quimica, 24, 278-284, 2013. 118. Cracks in the Periodic Table, Scientific American, June, 2013, 32-37. Translated into Spanish, Italian, French and German. 117. Four articles for Discoveries in Modern Science: Exploration, Invention, Technology, ed. J. Trefil, MacMillan, 2013. Articles on periodic table, atomic weight, elements and transuranium elements. 116. Editorial Introduction for 30-second element, Icon Press, UK, 2013. 115. The Quest for the Periodic Table, Editorial Introduction to Scientific American Classic that documents important developments in our understanding of the elements. Published by Scientific American as part of Scientific American Classics series, 2013. 114. Is it time to get real? New Scientist, 24th November 2012, 30-31. 113. A Critique of Weisberg's Who Is A Modeler? Foundations of Chemistry, 14, 275-284, 2012. 112. Philosophy of Chemistry: Where has it been and where is it going? in J.P. Llored (ed), Chemistry the Neglected Science, Cambridge Scholars Press, 2013 111. Mendeleev's periodic table finally completed and what to do about group 3, Chemistry International, July-August, 2012, p. 28-31. 110. Some comments on the recently proposed periodic table featuring elements ordered by their subshells, Journal of Biological Physics and Chemistry 12, (2), 2012. 109. What is an element? What is the periodic table? And what does quantum mechanics contribute to the question, Foundations of Chemistry, 14, 69-81, 2012. 108. Trouble in the Periodic Table, Education in Chemistry, 13-17, January 2012. 107. Who is a Theorist, Revista Eureka sobre Enseanza y Divulgacin de las Ciencias, 8 (3), 231-239, 2011. 106. Top Down Causation Regarding the Chemistry Physics Interface, A Skeptical View, Interface Focus, Royal Society Publications, 2, 20-25, 2012. 105. The Human Side: The Story of the Periodic Table, Article in Chemistry textbook, 104. Book Review of, Image & Reality, by Alan J. Rocke, American Journal of Physics, 2011 103. Forum: The Philosophy of Classification, Knowledge Organization, 38, 9-24, 2011. 102. Comments on a recent Defense of Constructivism in Chemical Education, Chemical Education in New Zealand, November, 2010, 15-18. 101. Preface to Italian edition of Linus Pauling's, The Nature of the Chemical Bond, La Natura del Legame Chimico, Franco Angeli, Milano, 2011, XI-XX. 100. Book Review of The Scientist's Atom and the Philosopher's Stone, by Alan Chalmers, reviewed in Metascience, 19, 349-371, 2010. 99. A review of research on the history and philosophy of the periodic table, Journal of Science Education, 12, 4-7, 2011. 98. Discovering Rhenium, Nature Chemistry, 2, 598-598, 2010. 97. Explaining the Periodic Table and the Role of Chemical Triads, Foundations of Chemistry, 12, 69-83, 2010. 96. Chemistry Goes Abstract, Nature Chemistry, December 1, (10), 679-680, 2009. 95. Finding francium, Nature Chemistry, 1, November, 1, (9), 670-670, 2009. 94. Entry for Periodic Table, in Elsevier Handbook of Philosophy of Science, R. Hendry, A. Woody, (eds.), Elsevier, 2012, 329-338. 93. Tales of technetium, Nature Chemistry, 1 (4), 332-332, 2009. 92. Periodic Change, Chemistry World, March, 2009, 46-49. 91. The Dual Sense of the Term Element, Attempts to Derive the Madelung Rule and the Optimal Form of the Periodic Table, if any, International Journal of Quantum Chemistry, 109, 959-971, 2009. 90. Chemistry, K. Jensen, A. Nielsen, Copenhagen, 2008, p. 13-36. 89. Periodic Visions, Cosmos Magazine (Australia), 80, 72-77, 2008. 88. The Past and Future of the Periodic Table, American Scientist, 52-58, January-February, 2008. Translated into Spanish (twice) in Educacion Quimica (Mexico) and Ciencia y Investigacion, (Spain) and into French, Pour La Science. 87. The Role of Triads in the Evolution of the Periodic System, Journal of Chemical Education, 85, 585-589, 2008. 86. Book Review of, The Chemical Element: A Historical Perspective, by Andrew Ede, reviewed in Journal of Chemical Education, 86, 24-24, 2007. 85. Mendeleev's Legacy: The Periodic System, Chemical Heritage, Vol. 25, No. 1, Spring 2007. 84. The Legacy of Mendeleev and his Periodic Table, Xjenza (Journal of Science), 11, 1-3, 2006. Also at http://www.xjenza.com/ 83. Reduction and Emergence in Chemistry, Proceedings of the PSA 2006 Meeting, Philosophy of Science, 74, 920-931, 2007. 82. The Ambiguity of Reduction, HYLE International Journal for Philosophy of Chemistry, 13, 67-81, 2007. 81. The Tyranny of the Chemist, Chemistry International, 27, 27-28, 2006. 80. Response to Barnes' Critique of Scerri and Worrall, Studies in History and Philosophy of Science, 36, 813-816, 2005. 79. Introduction chapter, co-authored with D. Baird, L. McIntyre, in Philosophy of Chemistry, The Synthesis of a New Discipline, Baird, D., Scerri, E.R., Dordrecht, 2005, p. 3-18. 78. On the Continuity of Reference of the Elements, A Response to Hendry, Studies in History and Philosophy of Science, 37, 308-321, 2006. 77. Some aspects of the metaphysics of chemistry and the nature of the elements, HYLE International Journal for Philosophy of Chemistry, 11, 127-145, 2005. 76. Commentary on Allen & Knight's Response to the Lowdin Challenge, Foundations of Chemistry, 8, 285-293, 2006. 75. Normative and Descriptive Philosophy of Science and the Role of Chemistry, in Philosophy of Chemistry, The Synthesis of a New Discipline, Baird, D., McIntyre, L., Scerri, E.R., (eds.), Boston Studies in the Philosophy of Science, Springer, Dordrecht, 2005, p. 119-128. 74. Presenting the left-step periodic table, Education in Chemistry, 42, 135-136, 2005. 73. The Formalization of the Periodic System Revisited, in Cognitive Structures in Scientific Enquiry, Essays in Debate with Theo Kuipers, Volume 2, Roberto Festa, Atocha Aliseda, and Jeanne Peijnenburg, eds., Poznan Studies in the Philosophy of the Sciences and the Humanities, Rodopi, Amsterdam, 2006. 72. Principles and Parameters in Chemistry and Physics, Proceedings of Philosophy of Science Association meeting, PSA 2002, Philosophy of Science, 71, 1082-1094, 2004. 71. Relative Virtues of the Pyramidal and Left-Step Periodic Tables, in The Periodic Table: Into the 21 st Century, D. Rouvray, B. King (eds.), Science Research Press, UK, 2004 70. The Placement of Hydrogen in Periodic System, reprinted in Chemistry in Australia, 71, (4), 22-22, 2004. 69. Film review of What the bleep do we know? Critical Inquirer, Sept-October, 2004. 68. The Placement of Hydrogen in Periodic System, Chemistry International, 26, (3), 21-22, 2004. 67. How Ab Initio is Ab Initio Quantum Chemistry? Foundations of Chemistry, 6, 93-116, 2004, Special Issue dedicated to Stuart Rosenfeld, N. Bhushan (guest editor). 66. Hafnium, Chemical & Engineering News, Special Issue on the Periodic System, Sept 8 th , 2003, p. 138. 65. Response to book review by Sara Vollmer, Philosophy of Science, 70, 391-398, 2003. 64. Constructivism, Relativism and Chemistry, In Chemical Explanation, Proceedings of New York Academy of Sciences, vol .998, J. Earley (ed.), New York, 2003, p. 359-369. 63. Principles and Parameters in Chemistry and Physics, PSA 2002, 1082-1094, Philosophy of Science, (Supplement), Symposia Papers edited by S. Mitchell. 62. Philosophy of Chemistry, Chemistry International, May-June, 2003, 6-8 61. Lowdins Remarks on the Aufbau Principle and a Philosopher's View of Ab Initio Quantum Chemistry, in Fundamental Perspectives in Quantum Chemistry, A Tribute Volume to the Memory of Per-Olov Lowdin, E. Brandas and E. Kryachko (eds.), Kluwer Academic Publishers, Dordrecht, Holland, 2003, 675-694. 60. Philosophical Confusion in Chemical Education, Journal of Chemical Education, 468-474, 2003. 59. The Formalization of the Periodic System Revisited, in Cognitive Structures in Scientific Inquiry, Volume dedicated to Theo Kuipers, R. Festa, (ed.), Poznan Studies in Philosophy of Science, Poznan, Poland, 2005, 191-219. 58. The Nature of Chemical Knowledge and Chemical Education, co-authored with S. Erduran, in Chemical Education: Towards Research-Based Practice, J. Gilbert, O. De Jong, R. Justi, D.F. Teagust, J.H. Van Driel, (eds.), Kluwer, Dordrecht, 2002, p. 7-27. 57. Response to Katz, The Chemical Educator, E. Letter to the Editor (August 30, 2002). Chem. Educator [Online], http://chemed.boisestate.edu". 56. Bibliography of Literature on the Periodic System, Foundations of Chemistry, 3, 183-196, 2001. Co-author, J. Edwards. 55. The New Philosophy of Chemistry and Its Application to Chemical Education, Cerapie, 2, 165-170, 2001. 54. A Philosophical Commentary on Giunta's Critique of Newland's Periodic System, Bulletin for the History of Chemistry, 26, 124-132, 2001. 53. The Periodic Table: The Ultimate Paper Tool in Chemistry, in Tools and Modes of Representation in the Laboratory Sciences, Ursula Klein (ed.), Boston Studies in the Philosophy of Science, vol 222, Kluwer Academic Press, Dordrecht, 2001, pp.163-177. 52. The Recently Claimed Observation of Atomic Orbitals and Some Related Philosophical Issues, Philosophy of Science, 68 (Proceedings) S76-S88, N. Koertge, ed. Philosophy of Science Association, East Lansing, MI, 2001. 51. Prediction and the Periodic Table, co-authored with J. Worrall, Studies in History and Philosophy of Science, 32, 407-452, 2001. 50. Interdisciplinary Research at the Caltech Beckman Institute, in Practicing Interdisciplinarity, P. Weingart, N. Stehr (eds.), University of Toronto Press, 2000, pp. 194-214. 49. Waxing Philosophical About Chemistry, Chemistry, Published by American Chemical Society, co-authored with L. Guterman, 17-20, Winter 2000. 48. Response to Nesbet, Foundations of Chemistry, 2, 77-78, 2000. 47. Have Orbitals Really Been Observed?, Journal of Chemical Education 77, 1492-1494, 2000. 46. Philosophy of Chemistry - A New Interdisciplinary Field? Journal of Chemical Education, 77, 522-526, 2000. 45. Second Response to Needham, International Studies in Philosophy of Science, 14, 307-315, 2000. 44. The Failure of Reduction and How to Resist the Disunity of Science in Chemical Education, Science and Education, 9, 405-425, 2000. 43. Naive Realism, Reduction and the Intermediate Position, in Of Minds and Molecules, Bhushan, N., Rosenfeld, S., (eds.), Oxford University Press, New York, 2000. 42. A Critique of Atkins' Periodic Kingdom and Some Writings on Electronic Structure, Foundations of Chemistry, 1, 287-296, 1999. 41. Response to Needham, International Studies in Philosophy of Science, 13, 185-192, 1999. 40. La Filosofia de la Quimica, la Seccion Mas Reciente de la Filosofia de la Ciencia, Anuario Latino Americano de Quimica (Argentinean Journal of Chemical Education), XI, 187-191, 1998-99. 39. On the Nature of Chemistry, Educacion Qumica, (Mexico), 10, 74-78, 1999. E. Scerri 38. The Evolution of the Periodic System, Scientific American, September, 279, 78-83, 1998, translated into French, Italian, German, Spanish, Polish, Russian, Chinese, Japanese, and Arabic. 37. Ordinal Explanation of the Periodic System of Chemical Elements, E. R. Scerri, V. Kreinovich, P. Wojciechowski and R. R. Yager, International Journal of Uncertainty, Fuzziness and Knowledge-Based Systems, 6, 387-400, 1998. 36. How Good is the Quantum Mechanical Explanation of the Periodic Table? Journal of Chemical Education, 75, 1384-1385,1998. 35. Popper's Naturalized Approach to the Reduction of Chemistry, International Studies in Philosophy of Science, 12, 33-44, 1998. 34. Has the Periodic Table Been Successfully Axiomatized? Erkentnnis, 47, 229-243, 1997. 33. The Periodic Table and the Electron, American Scientist, 85, 546-553, 1997. 32. The Case for Philosophy of Chemistry, (co-authored with L. McIntyre), Synthese, 111, 213-232, 1997. 31. Bibliography on Philosophy of Chemistry, Synthese, 111, 305-324, 1997. 30. Interdisciplinary Research at the Beckman Institutes, Interdisciplinary Science Reviews, 22, 1-7, 1997. 29. Chemical Periodicity, in Macmillan Encyclopedia of Chemistry, J.J. Lagowski ed., Macmillan, New York, vol. 3, 22-32, 1997. 28. The Periodic System, Encarta Internet Encyclopedia, Microsoft Corporation. 27. Are Chemistry and Philosophy Miscible? Chemical Intelligencer 3, 44-46, 1997. 26. It All Depends What You Mean By Reduction, in From Simplicity to Complexity, Information, Interaction, Emergence, Proceedings of the 1994 ZiF Meeting in Bielefeld, 77-93, K. Mainzer, A. Müller, and W. Saltzer, eds. Vieweg-Verlag. 25. Reduktion und Erklarung in der Chemie, Philosophie der Chemie Bestandsaufnahme und Ausblik, K. Ruthenberg and N. Psarros, J. Schummer, eds. Wartzburg, Koingshausen & Neumann, 1996. 24. Why the 4s Orbital Is Occupied before the 3d, Journal of Chemical Education, 73, 6, 498-503, 1996. (Co-authored with M. Melrose). E. Scerri - 10 23. Stephen Brush, The Periodic Table and the Nature of Chemistry, in Die Sprache der Chemie, P. Jannich and N. Psarros, eds. Proceedings of the Second Erlenmeyer Colloquium on Philosophy of Chemistry, Wartzburg, Koningshausen & Neumann, 1996, pp. 169-176. 22. Philosophy of Chemistry Resurgens, Chemical Heritage, Beckman Center for History of Chemistry, Philadelphia, 13, no. 1, 33, Winter 1995-96. 21. The Exclusion Principle, Chemistry and Hidden Variables, Synthese, 102,65-169, 1995. 20. Has Chemistry Been at Least Approximately Reduced to Quantum Mechanics? in PSA 1, D. Hull, M. Forbes, and R. Burian, eds. 160-170, 1994. 19. Plus Change (The Periodic Table), Chemistry in Britain, 30, no. 5, 379- 381, 1994. 18. Prediction of the Nature of Hafnium from Chemistry, Bohr's Theory and Quantum Theory, Annals of Science, 51, 137-150, 1994. 17. The Reduction of Chemistry, Popper and Induction, in The Philosophy of Chemistry, Report of a meeting held at Science Museum, London, October 1993, Royal Society of Chemistry, London, 1993. 16. Book Review of, "Meaning of Quantum Theory," by J. Baggott, reviewed in Chemistry in Britain, 29, no. 7 (1993): 612. 15. Is Chemistry a Reduced Science? Education in Chemistry, 30, no. 4, 112, 1993. 14. Configurational Energy and Bond Polarity Index, Journal of Physical Chemistry, 97, 5786, 1993. 13. 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11. "Elements, A Visual History", by Philip Ball, reviewed in Ambix, 2022.
10. "The Periodic Table, Past Present and Future", by G. Rayner-Canham's, reviewed in Foundations of Chemistry, 23, 293-295, 2021. 9. "Orbitals with applications in atomic spectra," by Charles S. McCaw, 2nd edition, World Scientific Press, 2020 8. "The Scientist’s Atom and the Philosopher’s Stone," by Alan Chalmers, reviewed in Metascience, 19, 349-371, 2010. 7. "Image & Reality", by Alan J. Rocke, American Journal of Physics, 2011 6. "The Chemical Element: A Historical Perspective", by Andrew Ede, reviewed in Journal of Chemical Education, 86, 24-24, 2007. 5. Film review of "What the bleep do we know?" Critical Inquirer, Sept-October, 2004. 4. "Meaning of Quantum Theory," by J. Baggott, reviewed in Chemistry in Britain, 29, no. 7 (1993): 612. 3. "The Historical Development of Chemical Concepts," by R. Mierzecki, reviewed in Education in Chemistry 29, no. 3 (1992): 612. 2. "From Caveman to Chemist," by H.W. Saltzberg, reviewed in Chemistry in Britain, 28, no. 4 (1992): 357. 1. "The Correspondence of Michael Faraday," edited by F.A.J.L. James, reviewed in Education in Chemistry, 29, no. 1 (1992): 24. |