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資料

GF40945754

ケイ素

Name: ケイ素
Brand: ALDRICH

rod, 50mm, diameter 5mm, single crystal, -111, 99.999%

別名:

ケイ素

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About This Item

化学式:

CAS番号:

7440-21-3

分子量:

28.09

MDL番号:

MFCD00085311

UNSPSCコード:

12141911

PubChem Substance ID:

329806269

NACRES:

NA.23

アッセイ

99.999%

形状

rod

メーカー／製品名

Goodfellow 409-457-54

L ×直径

50 mm × 5 mm

bp

2355 °C (lit.)

mp

1410 °C (lit.)

密度

2.33 g/mL at 25 °C (lit.)

SMILES記法

[Si]

InChI

1S/Si

InChI Key

XUIMIQQOPSSXEZ-UHFFFAOYSA-N

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詳細

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

法的情報

Goodfellow製品

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Porous silicon advances in drug delivery and immunotherapy.

David J Savage et al.

Current opinion in pharmacology, 13(5), 834-841 (2013-07-13)

Biomedical applications of porous silicon include drug delivery, imaging, diagnostics and immunotherapy. This review summarizes new silicon particle fabrication techniques, dynamics of cellular transport, advances in the multistage vector approach to drug delivery, and the use of porous silicon as

Ultrathin silicon membranes for wearable dialysis.

Dean G Johnson et al.

Advances in chronic kidney disease, 20(6), 508-515 (2013-11-12)

The development of wearable or implantable technologies that replace center-based hemodialysis (HD) hold promise to improve outcomes and quality of life for patients with ESRD. A prerequisite for these technologies is the development of highly efficient membranes that can achieve

Silicon: the health benefits of a metalloid.

Keith R Martin

Metal ions in life sciences, 13, 451-473 (2014-01-29)

Silicon is the second most abundant element in nature behind oxygen. As a metalloid, silicon has been used in many industrial applications including use as an additive in the food and beverage industry. As a result, humans come into contact

(28)silicon radiation impairs neuronal output in CA1 neurons of mouse ventral hippocampus without altering dendritic excitability.

Emil Rudobeck et al.

Radiation research, 181(4), 407-415 (2014-03-15)

An unavoidable complication of space travel is exposure to radiation consisting of high-energy charged particles (HZE), such as Fe and Si nuclei. HZE radiation can affect neuronal functions at the level of the synapse or neuronal soma without inducing significant

Silicon nanowires for biosensing, energy storage, and conversion.

Yanli Wang et al.

Advanced materials (Deerfield Beach, Fla.), 25(37), 5177-5195 (2013-07-06)

Semiconducting silicon nanowires (SiNWs) represent one of the most interesting research directions in nanoscience and nanotechnology, with capabilities of realizing structural and functional complexity through rational design and synthesis. The exquisite control of chemical composition, structure, morphology, doping, and assembly

資料

ケイ素