: The study demonstrates that this doping results in an indirect-to-direct electronic transition and a transition from a semiconductor to a semimetal.
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: The "156552" in your query matches the unique article identifier used in the URL of the Journal of Applied Physics (AIP Publishing). : The study demonstrates that this doping results
The paper is titled and was published in December 2019. Key Details of the Paper: 156552 zip
: The research investigates how substitutional chemical doping can manipulate the interlayer interactions of bilayer tin selenide ( SnSecap S n cap S e
: The study demonstrates that this doping results in an indirect-to-direct electronic transition and a transition from a semiconductor to a semimetal.
AI responses may include mistakes. For legal advice, consult a professional. Learn more
: The "156552" in your query matches the unique article identifier used in the URL of the Journal of Applied Physics (AIP Publishing).
The paper is titled and was published in December 2019. Key Details of the Paper:
: The research investigates how substitutional chemical doping can manipulate the interlayer interactions of bilayer tin selenide ( SnSecap S n cap S e