2010
DOI: 10.1002/pssc.201000144
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Carrier mobilities in multicrystalline silicon wafers made from UMG‐Si

Abstract: We investigate majority‐ and minority‐carrier mobilities in multicrystalline silicon (mc‐Si) made from upgraded metallurgical‐grade (UMG) feedstock. Since UMG‐Si contains high amounts of both boron and phosphorus, a decrease of the carrier mobility due to increased scattering at ionized impurities is expected. Minority‐carrier mobilities are determined by measuring effective carrier lifetimes τeff on as‐cut wafers, where τeff is limited by carrier diffusion to the unpassivated surfaces. By examining a wafer cu… Show more

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Cited by 28 publications
(16 citation statements)
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“…This extra reduction in l Hall , observed here for C l >6, has been recently reported by different research groups, using the Hall effect 3,4 or a combination of electrochemical capacitance-voltage (ECV) and q measurements. 9,11 The origin of this drop is still under investigation and is variously attributed to an additional or enhanced carrier scattering mechanism introduced by compensation (scattering by electrostatic disorder, 3 unscreening of dopants, 11 altered electron-hole scattering 6 …) or by some deviation in the measurement associated to a high inhomogeneity in transport properties at high C l , 29,30 all of these mechanisms possibly working in parallel.…”
Section: Hall Profilesmentioning
confidence: 97%
See 1 more Smart Citation
“…This extra reduction in l Hall , observed here for C l >6, has been recently reported by different research groups, using the Hall effect 3,4 or a combination of electrochemical capacitance-voltage (ECV) and q measurements. 9,11 The origin of this drop is still under investigation and is variously attributed to an additional or enhanced carrier scattering mechanism introduced by compensation (scattering by electrostatic disorder, 3 unscreening of dopants, 11 altered electron-hole scattering 6 …) or by some deviation in the measurement associated to a high inhomogeneity in transport properties at high C l , 29,30 all of these mechanisms possibly working in parallel.…”
Section: Hall Profilesmentioning
confidence: 97%
“…In other words, SoG M -Si features high and similar concentrations of mainly B and P [B and P], resulting in modified electrical properties that need to be investigated. In particular there is no consensus yet on the validity of standard mobility (l) models such as Klaassen's 2 in compensated Si, although many studies have been carried out in this direction [3][4][5][6][7][8][9][10][11] using various techniques including the Hall effect, 3-7,9,10 electrochemical 6,7,9,11 or standard 3 capacitance-voltage (CV/ECV), fourier transform infraRed spectroscopy (FTIR) for free carrier absorption (FCA) measurements, 8 all together with resistivity (q) measurements, or other independent techniques involving carrier lifetime measurements. [6][7][8]11 To complement previous work, we investigate in the first part of this study the effects of compensation on majority carrier mobilities (l maj ) in two highly doped SoG M -Si ingots.…”
Section: Introduction and Scientific Approachmentioning
confidence: 99%
“…The mobility differs between minority and majority carriers because the screening and scattering is different. Recently, heavily compensated material such as upgraded metallurgical grade (UMG) material has become available, and the evaluation of the carrier mobility is in progress [110][111][112][113]. To be precise, mobility would need to be parameterized as a tensor where the relative current-directions of electrons and holes are taken into account, especially in highly-injected solar cells [114][115][116].…”
Section: Transport Equations At High Dopant or Injection Densitiesmentioning
confidence: 99%
“…. No agreement has been reached yet to explain the observed reduction in room temperature majority carrier mobility in compensated samples, but various mechanisms have been suggested, for example, reduced screening of the ionized scattering centers caused by the decrease of free carriers , or carrier trapping caused by potential fluctuations and introduction of deep level (recombination) centers within the bandgap . However, the contribution of these various mechanisms is temperature dependent, and their balance at low temperature is still unknown, with no measurements reported in the literature for multicrystalline compensated silicon.…”
Section: Introductionmentioning
confidence: 99%
“…In particular, carrier mobility (m) is of interest owing to its effect on carrier lifetime and, hence, on the performance of the solar cells. A number of studies have been recently published on majority carrier mobility in both multicrystalline and monocrystalline compensated materials measured by different techniques, such as Hall effect [1][2][3][4][5][6][7], free carrier absorption [8,9], electrochemical capacitance voltage [3,5,8,[10][11][12] or Fe-acceptor pairing [13]. All these investigations show a reduction of majority carrier mobility at room temperature in compensated samples compared with uncompensated ones.…”
Section: Introductionmentioning
confidence: 99%