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Key Documents

791520

Sigma-Aldrich

氧化石墨烯,氨功能化

greener alternative

1 mg/mL, dispersion in H2O

同義詞:

N-doped GO, N-doped graphene oxide

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About This Item

分類程式碼代碼:
12352103
NACRES:
NA.23

形狀

dispersion in H2O

品質等級

環保替代產品特色

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

sustainability

Greener Alternative Product

濃度

1 mg/mL

環保替代類別

SMILES 字串

NC1=C2C3=C4C=C5C=C6C7=C8C9=C%10C%11=C%12C=C(O)C%13C%11C%14=C9C(N)(C7=O)c%15cc%16C%17=C(C(O)=O)C%18=CC%19=C%20C(=C1)C%21=C%22C%23=C%24C=C%25C%26=C%27C=C%28C%29=C%30C%31=C%32C%33=C%34C(C=CC(N)(C%28=C%35C(=O)C=C%36C%37OC%37%38C=C%39C=C%40C(=O)C%41(O)C=C%42C=C%43C=C(O)c%44cc(C(O)=O)c%45c%46c%44c%43c%47c%42c%48C%41=C%49C%40=C%50C(C%19=C%51C(=C%26C(=C%38C%51(N)C%39%50N)C%36%52OC%27%35%52)C%20%53OC%22%25%53)=C%18C%49%54OC%17%54c%48c%55c%16c%56c(c%57c%45ccc%13c%57c%14c%15%56)C%46%58OC%47%55%58)C%30%34N)=CC%59C(=O)C%60=CC%61=C(C(O)=O)c%62ccc(C(O)=O)c%63C=C%64C(=O)C%65%66OC%65%67C%68=C%64C(C%61C%69=C%60C(=C%33%59)C%70(N)C(=C%68%69)C%71=C%67C%72=C%73C%74=C%75C%76=C%77C%78(OC%78%79C=C%24C%80(N)C%81=C%23C%82(OC2%21%82)C%83=C3C%84=C(C(O)=C(O)C%85=CC%86=C(C(O)=O)C%87=CC%88=CC%89=C(C(O)=O)c%90ccc(O)c%12c%90C%10%91OC%89%91C8=C%88C6=C%87C5=C%86C4(N)C%84%85N)C%92%93OC%92C%94=C%95C(=O)C(O)=C%96C=C%97C%98C%99C%96=C%95C%100=C%101C%99=C%102C%103%104OC%103%105C%106=C%107C%108=C%109C(C%110=CC=C(O)C%111=CC%112=CC(=C%97C(O)=O)C(C%106=C%112C%108C%110%111)=C%98%104)=C(C=C%113C(=O)C%66=C%72C%114(OC%109%113%114)C%107=C%73C%105=C%75C%102%115OC%77%115C%101=C%79C%80(N)C%100=C%94C%81=C%83%93)C(O)=O)C(=C%29)C%31=C%76C(=C%71%74)C%32%70N)c%62%63

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相關類別

一般說明

N-doped graphene may be prepared by chemical vapor deposition (CVD), direct synthesis of N-graphene and also by electrical annealing of graphene nanoribbons in NH3 in the presence of NH3.Another technique of preparing N-doped graphene by microbial reduction of graphene oxide was reported. N doping alters the electrical properties of graphene effectively by modifying its band structure. A report also shows that doped graphene can act as excellent support for Pt catalysts and show better performance in Li ion batteries.
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". High concentrated graphene oxide sheets provide the prerequisite viscosity to bind the electrode materials together and enable 3D printing. Using water as a green solvent makes this aqueous ink system feasible for processing and drying safety and low cost. Click here for more information.

應用

Dielectric Materials for Field Effect Transistors (FET); Non-silicon-based materials for integrated circuits (IC).
Nitrogen doping (N-doping) can improve electro-conductivity of graphene sheet .

儲存類別代碼

10 - Combustible liquids

水污染物質分類(WGK)

WGK 2

閃點(°F)

Not applicable

閃點(°C)

Not applicable


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分析證明 (COA)

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您可以在文件庫中找到最近購買的產品相關文件。

存取文件庫

Chemical vapor deposition of N-doped graphene and carbon films: the role of precursors and gas phase.
Ito Y, et al.
ACS Nano, 8.4, 3337-3346 (2014)
Laser mediated programmable N doping and simultaneous reduction of graphene oxide.
Guo L,et al.
Advanced Optical Materials, 2, 120-125 (2014)
Preparation of N-doped graphene by reduction of graphene oxide with mixed microbial system and its haemocompatibility
Fan M, et al.
Nanoscale, 6, 4882-4882 (2014)
Nitrogen-doped graphene sheets grown by chemical vapor deposition: synthesis and influence of nitrogen impurities on carrier transport.
Lu Y, et al.
ACS Nano, 7.8, 6522-6532 (2013)
Influence of N-doping on the structural and photoluminescence properties of graphene oxide films.
Khai TV, et al.
Carbon, 50, 3799- 3806 (2012)

文章

Carbon nanomaterials (CNMs), such as single-walled carbon nanotubes (SWCNTs), multi-walled carbon nanotubes (MWCNTs), and graphene (Figure 1), have diverse commercial applications including lighter and stronger composite materials, improved energy storage devices, more sensitive sensors, and smaller transistors.

Carbon nanomaterials (CNMs), such as single-walled carbon nanotubes (SWCNTs), multi-walled carbon nanotubes (MWCNTs), and graphene (Figure 1), have diverse commercial applications including lighter and stronger composite materials, improved energy storage devices, more sensitive sensors, and smaller transistors.

Since its discovery little more than a decade ago,1 the two-dimensional (2D) allotrope of carbon—graphene—has been the subject of intense multidisciplinary research efforts.

Advanced technologies for energy conversion and storage are widely sought after for their potential to improve consumer and electronic device performance as well as for the prospect of reducing the societal and environmental impact of energy generation.

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