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Merck
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主要文件

安全信息

797766

Sigma-Aldrich

Graphene nanoribbons

greener alternative

alkyl functionalized

别名:

GNRs, nano-graphene ribbons

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About This Item

线性分子式:
C
分子量:
12.01
EC 号:
231-153-3
UNSPSC代码:
12352103
NACRES:
NA.23

方案

≥85% carbon basis (TGA)

表单

powder

环保替代产品特性

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

长度 × 宽度

2-15 μm × 40-250 nm

表面积

38 m2/g

密度

1.5763 g/mL (He gas method)

堆积密度

0.0953 g/mL (Mercury Porosimetry)

环保替代产品分类

Enabling,

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此商品
215619GF46525620GF38907221
硅 powder, −60 mesh, 99.998% trace metals basis

267414

硅 powder, −325 mesh, 99% trace metals basis

215619

硅 powder, max. particle size 45 micron, weight 50 g, high purity 99.998%

GF46525620

硅 powder, max. particle size 150 micron, weight 100 g, purity 97.5%

GF38907221

assay

99.998% trace metals basis

assay

99% trace metals basis

assay

99.998%

assay

97.5%

bp

2355 °C (lit.)

bp

2355 °C (lit.)

bp

2355 °C (lit.)

bp

2355 °C (lit.)

mp

1410 °C (lit.)

mp

1410 °C (lit.)

mp

1410 °C (lit.)

mp

1410 °C (lit.)

density

2.33 g/mL at 25 °C (lit.)

density

2.33 g/mL at 25 °C (lit.)

density

2.33 g/mL at 25 °C (lit.)

density

2.33 g/mL at 25 °C (lit.)

particle size

−60 mesh

particle size

−325 mesh

particle size

-

particle size

-

一般描述

We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product belongs to Enabling category of greener alternatives thus aligns with "Design for energy efficency". Click here for more information.

应用

  • Composites.
  • Conductive inks.
  • Electrodes for LiB.
  • Energy storage & harvesting applications.
  • Bio-medical applications.

制备说明

Preferred dispersing organic solvents: pyrrolidones and chlorinated solvents, also dispersible in acetone, ethyl acetate, dimethyl formamide, ethylene glycol, or 1,2-dimethoxyethane at concentration ≤0.1 mg/mL after bath sonication for 15 min with stability for a few hours.
  • Less preferred dispersing organic solvents: cyclohexanone and γ-butyrolactone.
  • Aqueous dispersions are possible at 0.1 mg/mL with triton-X-100, sodium cholate and deoxycholate and cellulose-based surfactants.

分析说明

Raman Spectroscopic Data:
ID/IG = 1.84±0.25
I2D/IG = 2.12±0.32
2D FWHM = 41 cm-1

法律信息

Graphene Nanoribbon Composites and Methods of Making the Same, WO/2012/112435 A1.

储存分类代码

11 - Combustible Solids

WGK

nwg

闪点(°F)

Not applicable

闪点(°C)

Not applicable

法规信息

新产品
  • 技术规格说明书

    • 历史批次信息供参考:

    分析证书(COA)

    Lot/Batch Number
    MKBX2276V

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    Changsheng Xiang et al.
    ACS nano, 7(11), 10380-10386 (2013-10-10)
    A thermoplastic polyurethane (TPU) composite film containing hexadecyl-functionalized low-defect graphene nanoribbons (HD-GNRs) was produced by solution casting. The HD-GNRs were well distributed within the polyurethane matrix, leading to phase separation of the TPU. Nitrogen gas effective diffusivity of TPU was
    Bostjan Genorio et al.
    ACS nano, 6(5), 4231-4240 (2012-04-04)
    A cost-effective and potentially industrially scalable, in situ functionalization procedure for preparation of soluble graphene nanoribbon (GNRs) from commercially available carbon nanotubes is presented. The physical characteristics of the functionalized product were determined using SEM, evolved gas analysis, X-ray diffraction
    High Throughput Preparation of Large Area Transparent Electrodes Using Non-Functionalized Graphene Naroribbons.
    Zhu Y, et al.
    Chemistry of Materials, 23, 935-939 (2011)
    Lei Li et al.
    ACS applied materials & interfaces, 5(14), 6622-6627 (2013-06-25)
    A facile and cost-effective approach to the fabrication of a nanocomposite material of polyaniline (PANI) and graphene nanoribbons (GNRs) has been developed. The morphology of the composite was characterized by scanning electron microscopy, transmission electron microscopy, X-ray photoelectron microscopy, and
    Lei Li et al.
    Advanced materials (Deerfield Beach, Fla.), 25(43), 6298-6302 (2013-09-03)
    A facile and cost-effective approach for the fabrication of a hierarchical nanocomposite material of graphene-wrapped MnO2 -graphene nanoribbons (GMG) is developed. The resulting composite has a high specific capacity and an excellent cycling stability owing to the synergistic combination of
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