Literature DB >> 26618885

Metal-insulator transition in films of doped semiconductor nanocrystals.

Ting Chen1, K V Reich2,3, Nicolaas J Kramer4, Han Fu2, Uwe R Kortshagen4, B I Shklovskii2.   

Abstract

To fully deploy the potential of semiconductor nanocrystal films as low-cost electronic materials, a better understanding of the amount of dopants required to make their conductivity metallic is needed. In bulk semiconductors, the critical concentration of electrons at the metal-insulator transition is described by the Mott criterion. Here, we theoretically derive the critical concentration nc for films of heavily doped nanocrystals devoid of ligands at their surface and in direct contact with each other. In the accompanying experiments, we investigate the conduction mechanism in films of phosphorus-doped, ligand-free silicon nanocrystals. At the largest electron concentration achieved in our samples, which is half the predicted nc, we find that the localization length of hopping electrons is close to three times the nanocrystals diameter, indicating that the film approaches the metal-insulator transition.

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Year:  2015        PMID: 26618885     DOI: 10.1038/nmat4486

Source DB:  PubMed          Journal:  Nat Mater        ISSN: 1476-1122            Impact factor:   43.841


  20 in total

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5.  Heavily doped semiconductor nanocrystal quantum dots.

Authors:  David Mocatta; Guy Cohen; Jonathan Schattner; Oded Millo; Eran Rabani; Uri Banin
Journal:  Science       Date:  2011-04-01       Impact factor: 47.728

6.  Phosphorus-doped silicon nanocrystals exhibiting mid-infrared localized surface plasmon resonance.

Authors:  David J Rowe; Jong Seok Jeong; K Andre Mkhoyan; Uwe R Kortshagen
Journal:  Nano Lett       Date:  2013-02-19       Impact factor: 11.189

7.  Gate-induced carrier delocalization in quantum dot field effect transistors.

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Journal:  Nano Lett       Date:  2014-09-09       Impact factor: 11.189

8.  Stoichiometric control of lead chalcogenide nanocrystal solids to enhance their electronic and optoelectronic device performance.

Authors:  Soong Ju Oh; Nathaniel E Berry; Ji-Hyuk Choi; E Ashley Gaulding; Taejong Paik; Sung-Hoon Hong; Christopher B Murray; Cherie R Kagan
Journal:  ACS Nano       Date:  2013-02-07       Impact factor: 15.881

9.  III-V nanocrystals capped with molecular metal chalcogenide ligands: high electron mobility and ambipolar photoresponse.

Authors:  Wenyong Liu; Jong-Soo Lee; Dmitri V Talapin
Journal:  J Am Chem Soc       Date:  2013-01-16       Impact factor: 15.419

10.  Colloidal quantum dot light-emitting devices.

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Journal:  Nano Rev       Date:  2010-07-07
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  5 in total

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3.  Stoichiometric control of the density of states in PbS colloidal quantum dot solids.

Authors:  Daniel M Balazs; Klaas I Bijlsma; Hong-Hua Fang; Dmitry N Dirin; Max Döbeli; Maksym V Kovalenko; Maria A Loi
Journal:  Sci Adv       Date:  2017-09-29       Impact factor: 14.136

4.  Metal-Insulator Transition in Nanoparticle Solids: Insights from Kinetic Monte Carlo Simulations.

Authors:  Luman Qu; Márton Vörös; Gergely T Zimanyi
Journal:  Sci Rep       Date:  2017-08-01       Impact factor: 4.379

5.  Dense Ge nanocrystals embedded in TiO2 with exponentially increased photoconduction by field effect.

Authors:  A-M Lepadatu; A Slav; C Palade; I Dascalescu; M Enculescu; S Iftimie; S Lazanu; V S Teodorescu; M L Ciurea; T Stoica
Journal:  Sci Rep       Date:  2018-03-20       Impact factor: 4.379
  5 in total

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