Synthesis of a single-layer fullerene community

  • Geim, AK & Novoselov, KS The Rise of Graphene. Evening. Mater. 6183–191 (2007).

    ADS CAS Article Google Scholar

  • Wang, QH, Kalantar-Zadeh, Ok., Kis, A., Coleman, JN & Strano, MS Electronics and optoelectronics of two-dimensional transition steel dichalcogenides. Nat. Nanotechnology. seven699-712 (2012).

    ADS CAS Article Google Scholar

  • Li, L et al. Black phosphorus area impact transistors. Nat. Nanotechnology. 9372–377 (2014).

    ADS CAS Article Google Scholar

  • Novoselov, KS et al. Electrical area impact in atomically skinny carbon movies. Science 306666–669 (2004).

    ADS CAS Article Google Scholar

  • Fan, Q. et al. Biphenylene community: a non-benzenoid carbon allotrope. Science 372852–856 (2021).

    ADS CAS Article Google Scholar

  • Kolmer, M. et al. Rational synthesis of atomically exact graphene nanoribbons immediately on steel oxide surfaces. Science 369571–575 (2020).

    ADS CAS Article Google Scholar

  • Yu, H., Xue, Y. & Li, Y. Graphdiyne and its meeting architectures: synthesis, functionalization and functions. Adv. Mater. 31e1803101 (2019).

    Google Scholar article

  • Bakharev, PV et al. Chemically induced transformation of bilayer graphene grown by chemical vapor deposition into fluorinated monolayer diamond. Nat. Nanotechnology. 1559–66 (2020).

    ADS CAS Article Google Scholar

  • Toh, CT et al. Synthesis and properties of self-supporting monolayer amorphous carbon. Nature 577199-203 (2020).

    ADS CAS Article Google Scholar

  • Cui, X et al. Wind up transition steel dichalcogenide nanoscrolls by way of a drop of ethanol. Nat. Widespread. 91301 (2018).

    Article on Google Scholar Adverts

  • Wan, J. et al. Extremely-thin stable electrolyte interphase evolution and crumpling course of in lithium-ion batteries primarily based on molybdenum disulfide. Nat. Widespread. ten3265 (2019).

    Article on Google Scholar Adverts

  • Hirsch, A. The period of carbon allotropes. Evening. Mater. 9868–871 (2010).

    ADS CAS PubMed Google Scholar

  • Simon, P. & Gogotsi, Y. Supplies for electrochemical capacitors. Evening. Mater. seven845–854 (2008).

    ADS CAS Article Google Scholar

  • Cao, Y. et al. Unconventional superconductivity in magic-angle graphene superlattices. Nature 55643–50 (2018).

    ADS CAS Article Google Scholar

  • Zhai, HJ et al. Remark of an all boron fullerene. Nat. Chem. 6727–731 (2014).

    CAS Google Scholar Article

  • Jena, P. & Solar, Q. Atomic Superclusters: Design Guidelines and Potential for Materials Constructing Blocks. Chem. Spherical. 1185755–5870 (2018).

    CAS Google Scholar Article

  • Clean, VD et al. Excessive stress polymerized phases of C60. Carbon 36319-343 (1998).

    CAS Google Scholar Article

  • Okada, S. & Saito, S. Digital and energetic construction of pressure-induced two-dimensional C60 polymers. Phys. Rev. B 591930-1936 (1999).

    ADS CAS Article Google Scholar

  • Xu, CH & Scuseria, GE Theoretical predictions for a two-dimensional rhombohedral section of the stable C60. Phys. Rev. Lett. 74274–277 (1995).

    ADS CAS Article Google Scholar

  • Makarova, TL et al. Magnetic carbon. Nature 413716–718 (2001).

    ADS CAS Article Google Scholar

  • Tanaka, M. & Yamanaka, S. Vapor section progress and structural characterization of magnesium Mg-doped two-dimensional fullerene polymer single crystals2VS60. Christ. Development Cube. 183877–3882 (2018).

    CAS Google Scholar Article

  • Pekker, S. et al. Monocrystalline (KC60)not: a conductive linear alkaline fulleride polymer. Science 2651077-1078 (1994).

    ADS CAS Article Google Scholar

  • Porezag, D., Pederson, MR, Frauenheim, T. & Kohler, T. Construction, stability and vibrational properties of polymerized C60. Phys. Rev. B 5214963–14970 (1995).

    ADS CAS Article Google Scholar

  • Haddon, RC et al. Making C films60 and so on70 by alkaline doping. Nature 350320–322 (1991).

    ADS CAS Article Google Scholar

  • Wågberg, T. & Sundqvist, B. Raman research of two-dimensional Na polymers4VS60 and tetragonal C60. Phys. Rev. B 65155421 (2002).

    Article on Google Scholar Adverts

  • Lengthy, VC et al. Vibrational properties within the far infrared of C excessive stress excessive temperature60 polymers and C60 dimer. Phys. Rev. B 6113191–13201 (2000).

    ADS CAS Article Google Scholar

  • Chen, Y. et al. Black arsenic: a layered semiconductor with excessive in-plane anisotropy. Adv. Mater. 30e1800754 (2018).

    Google Scholar article

  • Xia, F., Wang, H. & Jia, Y. Rediscovering black phosphorus as an anisotropic layered materials for optoelectronics and electronics. Nat. Widespread. 54458 (2014).

    ADS CAS Article Google Scholar

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