2018
DOI: 10.1002/adma.201801236
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Parts‐per‐Million‐Level Doping Effects in Organic Semiconductor Films and Organic Single Crystals

Abstract: Controlling the pn-type behavior of a semiconductor such as silicon by adding an extremely small quantity of an impurity (doping) is a central part of inorganic semiconductor electronics since the 20th century. Recent progress in the doping of organic semiconductors strongly suggests the advent of a new era of doped organic semiconductors. Here, the principles and effects of doping at the level of parts per million (ppm) in organic semiconductor films and single crystals are described, including descriptions o… Show more

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Cited by 45 publications
(32 citation statements)
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References 94 publications
(210 reference statements)
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“…TIPS‐PEN 4 is representative of high quality crystals with a low g value of 0.3% . The link between mobility values and the defects and disorder within single crystal remains somewhat unexplored, so far . Another characteristic of molecular semiconductors is that they often form polymorphs.…”
Section: Charge Transportmentioning
confidence: 99%
See 2 more Smart Citations
“…TIPS‐PEN 4 is representative of high quality crystals with a low g value of 0.3% . The link between mobility values and the defects and disorder within single crystal remains somewhat unexplored, so far . Another characteristic of molecular semiconductors is that they often form polymorphs.…”
Section: Charge Transportmentioning
confidence: 99%
“…Obviously a better control of crystal defects is needed because the current quality of organic single crystals used for transport experiments is too low. In undoped single crystals of rubrene 3 , the observed carrier concentration is of ≈10 15 cm −3 , whereas it is only on the amount of ≈10 10 cm −3 for undoped Si . To lower crystal defects, the first step is to start from ultrapure samples obtained by zone refining .…”
Section: Charge Transportmentioning
confidence: 99%
See 1 more Smart Citation
“…[180,181] An in-depth discussion of doped adsorbate layers, however, goes beyond the scope of the present review and we refer the reader to recent, more specialized papers. [182][183][184][185]…”
Section: Organic Monolayers Versus Multilayers and Doped Filmsmentioning
confidence: 99%
“…This is true not only for conventional inorganic semiconductors; in fact, a monumental work on bromine-doped perylene enkindled the dawn of "organic semiconductor" research [1,2] and led to the discovery of conductive polymers [3], charge transfer complexes [4,5], and molecular superconductors [5][6][7][8]. Although ordinary organic (opto-)electronic devices have been designed using intrinsic organic semiconductors without any intentional doping, on-demand introduction of dopants into molecular semiconductor materials is a long-standing topic in this research field (for review, see e.g., [9][10][11][12][13][14]).…”
Section: Introductionmentioning
confidence: 99%