累积烯链对sp-sp2非晶碳振动和电子性质的影响。

Influence of cumulenic chains on the vibrational and electronic properties of s p-s p2 amorphous carbon.

作者信息

Ravagnan L, Piseri P, Bruzzi M, Miglio S, Bongiorno G, Baserga A, Casari C S, Li Bassi A, Lenardi C, Yamaguchi Y, Wakabayashi T, Bottani C E, Milani P

机构信息

Dipartimento di Fisica and CIMAINA, Università di Milano, Via Celoria 16, I-20133 Milan, Italy.

出版信息

Phys Rev Lett. 2007 May 25;98(21):216103. doi: 10.1103/PhysRevLett.98.216103.

DOI:10.1103/PhysRevLett.98.216103

PMID:17677788

Abstract

We report the production and characterization of a form of amorphous carbon with s p-s p(2) hybridization (atomic fraction of sp hybridized species > or =20%) where the predominant sp bonding appears to be (=C=C=)(n) cumulene. Vibrational and electronic properties have been studied by in situ Raman spectroscopy and electrical conductivity measurements. Cumulenic chains are substantially stable in high vacuum conditions for temperatures lower than 250 K and they influence the electrical transport properties of the s p-s p(2) carbon through a self-doping mechanism by pinning the Fermi level closer to one of the mobility gap edges. Upon heating above 250 K the cumulenic species decay to form graphitic nanodomains embedded in the s p(2) amorphous matrix thus reducing the activation energy of the material. This is the first example of a pure carbon system where the s p hybridization influences bulk properties.

摘要

我们报道了一种具有sp-sp(2)杂化（sp杂化物种的原子分数≥20%）的非晶碳形式的制备及表征，其中主要的sp键似乎是(=C=C=)(n)累积烯。通过原位拉曼光谱和电导率测量研究了其振动和电子性质。累积烯链在低于250 K的高真空条件下基本稳定，并且通过将费米能级固定在更接近迁移率能隙边缘之一的位置，通过自掺杂机制影响sp-sp(2)碳的电输运性质。在加热到250 K以上时，累积烯物种分解形成嵌入sp(2)非晶基质中的石墨纳米域，从而降低了材料的活化能。这是sp杂化影响整体性质的纯碳体系的首个实例。

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累积烯链对sp-sp2非晶碳振动和电子性质的影响。

Influence of cumulenic chains on the vibrational and electronic properties of s p-s p2 amorphous carbon.

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