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American Focus > Blog > Tech and Science > How superheavy chemistry could rearrange the periodic table
Tech and Science

How superheavy chemistry could rearrange the periodic table

Last updated: August 9, 2025 11:15 am
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How superheavy chemistry could rearrange the periodic table
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The Heaviest Atom Observed Forming a Molecule: A Breakthrough in Superheavy Chemistry

The heaviest atom observed forming a molecule

David Dixon, Sarah Sprouse/The University of Alabama; Jennifer Pore/Berkeley Lab

Researchers have achieved a groundbreaking milestone by directly observing the heaviest atom participating in a chemical reaction and forming a molecule. This discovery has propelled the field of “superheavy” chemistry, which deals with extremely massive radioactive elements, to new heights and has the potential to reshape the periodic table as we know it.

Exploring exotic chemical elements poses unique challenges, especially when determining their accurate placement within the periodic table. For example, copernicium, a radioactive element, exhibits properties more akin to noble gases despite being classified among the transition metals. This discrepancy underscores the need for precise experimentation to unravel the true nature of these elements.

Addressing this challenge, Jennifer Pore and her team at the Lawrence Berkeley National Laboratory conducted a groundbreaking experiment involving the heaviest actinide, nobelium (element 102). By initiating a chemical reaction that produced a molecule containing nobelium, the researchers delved into the properties of these heavy and radioactive actinides.

The experimental setup involved a particle accelerator colliding energetic calcium atoms with lead, resulting in the formation of nobelium atoms that subsequently reacted with nitrogen and water molecules. Employing a sophisticated detector resembling a mass spectrometer enabled the precise identification of the resulting molecules, marking a significant advancement in superheavy chemistry.

Further experiments with a thulium target led to the creation of actinium (element 89), allowing for a comparative analysis of its reactivity with water against nobelium. This comparative study affirmed the similar behavior of these elements, suggesting a potential reevaluation of their placement in the periodic table.

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Notably, nobelium now stands as the heaviest element observed to form a molecule directly, although the title of the heaviest element ever created still belongs to oganesson (element 118). The methodology employed in creating and identifying nobelium-containing molecules holds promise for future breakthroughs in superheavy chemistry.

Sophia Heinz from GSI Helmholtz Centre for Heavy Ion Research in Germany commended the technical advancement achieved in this experiment, emphasizing the significance of directly studying single molecules in superheavy chemistry.

Peter Schwerdtfeger at Massey University in New Zealand highlighted the potential for future experiments with different superheavy elements, leveraging the success of this pioneering study.

The unexpected discovery that superheavy elements reacted with ambient substances like nitrogen and water has implications for reevaluating past experiments. This revelation challenges existing assumptions and underscores the need for a fresh perspective in studying superheavy elements and their molecular behavior.

Looking ahead, the team aims to explore chemistry with even heavier elements such as dubnium (element 105), necessitating a streamlined approach due to the rapid decay of heavier elements. This pursuit of pushing the boundaries of superheavy chemistry holds the promise of unveiling new insights and potentially reshaping our understanding of the periodic table.

Topics: chemistry / nuclear physics

The world of technology is constantly evolving, with new innovations and advancements being made every day. One such innovation that has been making waves in recent years is the development of artificial intelligence (AI). AI refers to the simulation of human intelligence in machines that are programmed to think and learn like humans.

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One of the key areas where AI is being used is in the field of healthcare. AI is being used to improve patient care, diagnosis, and treatment. By using AI algorithms, healthcare providers can analyze large amounts of data and identify patterns that may not be immediately visible to the human eye. This can lead to earlier and more accurate diagnosis of diseases, as well as more personalized treatment plans for patients.

AI is also being used to improve the efficiency of healthcare systems. By automating routine tasks such as appointment scheduling and prescription refills, healthcare providers can free up time to focus on more complex and critical aspects of patient care. AI can also help reduce errors in medical records and improve the overall quality of care that patients receive.

In addition to improving patient care, AI is also being used to advance medical research. By analyzing vast amounts of data from clinical trials and research studies, AI can help researchers identify new patterns and trends that may lead to breakthroughs in the treatment of diseases. This can ultimately lead to the development of new drugs and therapies that can improve the lives of patients around the world.

While the potential benefits of AI in healthcare are vast, there are also challenges that need to be addressed. Privacy concerns, data security, and ethical considerations are all important factors that need to be carefully considered when implementing AI in healthcare. It is crucial that healthcare providers and technology developers work together to ensure that AI is used responsibly and ethically to benefit patients and improve healthcare outcomes.

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Overall, the integration of AI in healthcare has the potential to revolutionize the way healthcare is delivered and improve patient outcomes. By harnessing the power of AI, healthcare providers can provide more personalized and efficient care to patients, leading to better health outcomes and a brighter future for healthcare around the world.

TAGGED:ChemistryPeriodicrearrangesuperheavyTable
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