mechanochemical routes to functionalized graphene

Journal of Materials Science

2018/6/11One-step mechanochemical synthesis of plasmonic Ag/Zn–Al LDH with excellent photocatalytic activity Authors (first, second and last of 6) Zhao Li Qiwu Zhang Yue Zhao Content type: Chemical routes to materials Published: 06 June 2018 Pages: 12795 - 12806

Carbon Nanocomposites: Preparation and Its

2018/2/23Carbon nanocomposites have gained huge interest in catalysis due to their small size and shape-dependent physicochemical properties. Particularly, metal nanostructures/carbon materials (mainly graphene and carbon nanotubes) based nanocomposites demonstrated extraordinary catalytic activity in organic reactions. The catalytic products prepared by using carbon nanocomposites are

A review on the mechanical and electrical properties of graphite

Functionalized graphene sheets for polymer nanocomposites. Nat Nanotech 2008;3:327–31. [104] Nguyen DA, Lee YR, Raghu AV, Jeong HM, Shin CM, Kim BK. Morphological and physical properties of a thermoplastic polyurethane reinforced with functionalized

Publications — Institute for Macromolecular Chemistry

Mechanochemical Route to Functionalized Graphene and Carbon Nanofillers for Graphene/SBR Nanocomposites 2014 Macromol Mater Eng Beckert F, Bodendorfer S, Zhang W, Thomann R, Mlhaupt R Mechanochemical Route to Graphene-Supported Iron

Synthesis of graphene: Potential carbon precursors and

Scalable production of edge-functionalized graphene nanoplatelets via mechanochemical ball-milling. Adv Funct Mater. 2015;25(45):6961–75. Search in Google Scholar [53] Eswaraiah V, Aravind SS, Ramaprabhu S. Top down method for synthesis of highly

Synthesis of graphene: Potential carbon precursors and

Scalable production of edge-functionalized graphene nanoplatelets via mechanochemical ball-milling. Adv Funct Mater. 2015;25(45):6961–75. Search in Google Scholar [53] Eswaraiah V, Aravind SS, Ramaprabhu S. Top down method for synthesis of highly

Mechanochemical Route to Functionalized Graphene and

Laura Burk, Matthias Gliem, Rolf Mlhaupt, Mechanochemical Routes to Functionalized Graphene Nanofillers Tuned for Lightweight Carbon/Hydrocarbon Composites, Macromolecular Materials and Engineering, 10.1002/mame.201800496, 304, 2, (2018).

Coatings

If a reduced-graphene graphene oxide-ZnO nanocomposite was applied to cotton fabric, excellent photodegradation of methylene blue dye and tea stains was observed, even under sunlight irradiation []. ZnO-coated textile substrates have previously been used for the solar-driven photodegradation process of toxic organic compounds in water and air.

Scalable Production of Edge‐Functionalized Graphene

Laura Burk, Matthias Gliem, Rolf Mlhaupt, Mechanochemical Routes to Functionalized Graphene Nanofillers Tuned for Lightweight Carbon/Hydrocarbon Composites, Macromolecular Materials and Engineering, 10.1002/mame.201800496, 304, 2, (2018).

Essentials of inorganic materials synthesis

Covers common reactions employed in synthesis, ceramic procedures, decomposition of precursor compounds, combustion synthesis, arc and skull methods, reactions at high pressures, mechanochemical methods, use of microwaves, soft chemistry routes

Mechanochemical Routes to Functionalized Graphene Nanofillers

Mechanochemical Routes to Functionalized Graphene Nanofillers Tuned for Lightweight Carbon/Hydrocarbon Composites Laura Burk, Matthias Gliem, and Rolf Mlhaupt* Dr. L. Burk, M. Gliem, Prof. R. Mlhaupt Freiburg Materials Research Center of the

Design and Synthesis of Polymer

This research focuses on exploring new synthetic approaches to prepare polymer-based advanced nanomaterials using highly efficient chemical tools, such as reversible addition-fragmentation chain transfer (RAFT) polymerization and click reactions. In the first project, novel synthetic routes to produce fullerene-based polymers were designed. First, mono-alkynyl functionalized fullerene was

Publications — Institute for Macromolecular Chemistry

Mechanochemical Route to Functionalized Graphene and Carbon Nanofillers for Graphene/SBR Nanocomposites 2014 Macromol Mater Eng Beckert F, Bodendorfer S, Zhang W, Thomann R, Mlhaupt R Mechanochemical Route to Graphene-Supported Iron

Graphene

Graphene or graphene derivatives such graphene oxide, reduced graphene oxide and doped graphene oxides are important class of support materials for catalytic degradation of contaminants in water. Incorporation of catalysts into graphene offer advantages such as high surface area and tensile strength, improved mobility and electron conductivity, lightweight, and stability [ 57 ].

Synthesis of graphene: Potential carbon precursors and

Scalable production of edge-functionalized graphene nanoplatelets via mechanochemical ball-milling. Adv Funct Mater. 2015;25(45):6961–75. Search in Google Scholar [53] Eswaraiah V, Aravind SS, Ramaprabhu S. Top down method for synthesis of highly

Antimony

2015/5/22(a) Schematic of mechanochemical ball-milling-driven doping antimony (Sb) to the edges of graphene nanoplatelets (GnPs). SEM images of ( b ) the pristine graphite before ball-milling, ( c ) SbGnPs after ball-milling graphite in the presence of solid Sb and complete work-up procedure, showing the dramatic grain size reduction of SbGnPs (1 μm) compared with the pristine graphite (150 μm).

Chemical Engineering Journal

routes have been explored to produce graphene which include micromechanical cleavage [3], topological growth on metal and non-metal substrate [4–6], chemical oxidation of graphite [7,8] and solution phase exfoliation of graphite [9–12]. It is also evident

cost ball mill to produce nanofiller

Mechanochemical Routes to Functionalized Graphene tion by wet ball-milling of graphite in a planetary ball mill in the presence of N,N-dimethyformamide to produce dispersions of multilayered graphene nanosheets with a thickness of 30–80 nm.[31] Irregular

(PDF) Literature study of graphene modified polymeric

Such functionalized graphene was used to modify epoxy, leading to improved strength and toughness by about 30-80 % and 200-700 % at room and low temperatures of -130 C, respectively, reduced CTE at both below and above Tg by about 25 % at loading of 1

(PDF) Surface Functionalization of Graphene with Polymers

. "pplications of functionalized graphene The use of graphene or functionalized graphene materials usually exploits properties such as the large surface area or high electrical conductivity. Currently, the applications of func‐ tionalized graphene are focused on clean energy devices and electronic devices, as well as on sensors, medical devices and catalysis.

Controlled Functionalization of Graphene Layers

Controlled functionalization of graphene layers is one of the most important research objectives in the material chemistry. A well established procedure is the oxidation with strong acids and oxidizing agents often in harsh and dangerous reaction conditions giving products of unknown precise structure. In this chapter, the controlled functionalization of graphene layers with a derivative of

Graphene

Graphene-Metal Organic Framework Composite Based Electrochemical Sensors for Toxic Chemicals P. Arul, N.S.K. Gowthaman, S. Abraham John, Hong Ngee Lim, Sheng-Tung Huang, Govindasamy Mani Metal organic frameworks (MOFs) are a class of porous materials designed by coordination chemistry between metal ions and secondary organic building units (linkers). They emerged as an extensive

Green Routes for Graphene Oxide Reduction and Self

Graphene-derived materials are currently studied because of their actual and projected applications. Among them, graphene oxide (GO) promises for outstanding applications as it can be prepared at large scale by simple, scalable, and low-cost techniques. The existent chemical methods based on the graphite exfoliation (phase solution and Hummers based) produce highly functionalized graphene, i.e

Controlled Functionalization of Graphene Layers

Controlled functionalization of graphene layers is one of the most important research objectives in the material chemistry. A well established procedure is the oxidation with strong acids and oxidizing agents often in harsh and dangerous reaction conditions giving products of unknown precise structure. In this chapter, the controlled functionalization of graphene layers with a derivative of

Functionalized graphene materials for hydrogen storage

2019/11/6Graphene oxide (GO) is obtained by exfoliation of graphite oxide [].Considering the presence of oxygen functionalized groups on its surface like epoxy, carboxyl, and hydroxyl, it can be used as brilliant precursor for countless applications. Its excellent hydrophilicity

Graphene

Graphene-Metal Organic Framework Composite Based Electrochemical Sensors for Toxic Chemicals P. Arul, N.S.K. Gowthaman, S. Abraham John, Hong Ngee Lim, Sheng-Tung Huang, Govindasamy Mani Metal organic frameworks (MOFs) are a class of porous materials designed by coordination chemistry between metal ions and secondary organic building units (linkers). They emerged as an extensive

cost ball mill to produce nanofiller

Mechanochemical Routes to Functionalized Graphene tion by wet ball-milling of graphite in a planetary ball mill in the presence of N,N-dimethyformamide to produce dispersions of multilayered graphene nanosheets with a thickness of 30–80 nm.[31] Irregular

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