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Merck
CN

GF46268433

disks, 15.9mm, thickness 0.38mm, single crystal, n-type, 100%

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线性分子式:
Si
化学文摘社编号:
7440-21-3
分子量:
28.09
NACRES:
NA.23
PubChem Substance ID:
329806995
UNSPSC Code:
12141911
MDL number:
MFCD00085311

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InChI

1S/Si

SMILES string

[Si]

InChI key

XUIMIQQOPSSXEZ-UHFFFAOYSA-N

assay

100%

form

disc

manufacturer/tradename

Goodfellow 462-684-33

diam. × thickness

15.9 mm × 0.38 mm

bp

2355 °C (lit.)

mp

1410 °C (lit.)

density

2.33 g/mL at 25 °C (lit.)

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For updated SDS information please visit www.goodfellow.com.

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Atteq ur Rehman et al.
TheScientificWorldJournal, 2013, 470347-470347 (2014-01-25)
The p-type crystalline silicon wafers have occupied most of the solar cell market today. However, modules made with n-type crystalline silicon wafers are actually the most efficient modules up to date. This is because the material properties offered by n-type
Dominique Collard
Frontiers in bioscience (Elite edition), 5, 955-965 (2013-06-12)
In modern life, technologies enabling detection of biological molecules at a low threshold, for health and ecological concerns, are in high demand. Directly interrogating the molecules is a promising direction to clarify the noisy response of conventional assays arising from
Bomin Cho et al.
Journal of nanoscience and nanotechnology, 14(7), 4832-4836 (2014-04-25)
Asymmetric porous silicon multilayer (APSM)-based optical biosensor was developed to specify human Immunoglobin G (Ig G). APSM chip was generated by an electrochemical etching of silicon wafer using an asymmetric electrode configuration in aqueous ethanolic HF solution and constituted with
Timothy J Barnes et al.
Therapeutic delivery, 4(7), 811-823 (2013-07-26)
Porous silicon (pSi) is a nanostructured carrier system that has received considerable attention over the past 10 years, for use in a wide variety of biomedical applications, including biosensing, biomedical imaging, tissue scaffolds and drug delivery. This interest is due
Younes Belmamouni et al.
Journal of nanoscience and nanotechnology, 14(6), 4409-4417 (2014-04-18)
The aim of the present study was to prepare resorbable hydroxyapatite (HA) based bone graft materials reinforced with carbon nanotubes as a way to cope with the inability of pure HA to resorb and its intrinsic brittleness and poor strength
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