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Journal of Materials Science

Erschienen in:

01.03.2016 | Review

Environmentally friendly preparation of nanoparticle-decorated carbon nanotube or graphene hybrid structures and their potential applications

verfasst von: Jaewook Lee, Keonje Lee, Simon S. Park

Erschienen in: Journal of Materials Science | Ausgabe 6/2016

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Abstract

Nanoparticle-modified carbon nanotubes or graphene structures have recently been developed for use in various applications, such as drug delivery systems, biosensors, batteries, energy storage, and nanoelectronics. However, highly hazardous materials may be produced and released during the synthesis reaction and sample preparation of these nanostructures under existing methods. In order to overcome the problem, many scientists are working on the development of environmentally friendly and user-friendly preparation methods for decorating carbon nanostructures with nanomaterials. This review introduces several synthesis strategies that may lead toward more eco-friendly approaches. Potential applications in various fields for nanoparticle-decorated carbon nanotubes or graphene prepared using an environmentally friendly method are also a focus of the article.

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Ko H, Tsukruk VV (2008) Nanoparticle-decorated nanocanals for surface-enhanced raman scattering. Small 4:1980–1984CrossRef

Chu H, Wang J, Ding L, Yuan D, Zhang Y, Liu J, Li Y (2009) Decoration of gold nanoparticles on surface-grown single-walled carbon nanotubes for detection of every nanotube by surface-enhanced raman spectroscopy. J Am Chem Soc 131:14310–14316CrossRef

Selvaraj V, Alagar M (2007) Pt and Pt–Ru nanoparticles decorated polypyrrole/multiwalled carbon nanotubes and their catalytic activity towards methanol oxidation. Electrochem Commun 9:1145–1153CrossRef

Kong J, Chapline MG, Dai H (2001) Functionalized carbon nanotubes for molecular hydrogen sensors. Adv Mater 13:1384–1386CrossRef

Lin K-Y, Tasi W-T, Chang J-K (2010) Decorating carbon nanotubes with Ni particles using an electroless deposition technique for hydrogen storage applications. Int J Hydrog Energy 35:7555–7562CrossRef

Zhang X, Whang G, Zhang W, Wei Y, Fang B (2009) Fixure-reduce method for the synthesis of Cu₂O/MWCNTs nanocomposites and its application as enzyme-free glucose sensor. Biosens Bioelectron 24:3395–3398CrossRef

Yang D, Yang F, Hu J, Long J, Wang C, Fu D, Ni Q (2009) Hydrophilic multi-walled carbon nanotubes decorated with magnetite nanoparticles as lymphatic targeted drug delivery vehicles. Chem Commun 29:4447–4449CrossRef

Zhu X, Zhu Y, Murali S, Stollers MD, Ruoff RS (2011) Nanostructured reduced graphene oxide/Fe₂O₃ composite as a high-performance anode material for lithium ion batteries. ACS Nano 5:3333–3338CrossRef

Pang X, He D, Luo S, Cai Q (2009) An amperometric glucose biosensor fabricated with Pt nanoparticle-decorated carbon nanotubes/TiO₂ nanotube arrays composite. Sens Actuator B Chem 137:134–138CrossRef

10.

Wildgoose GG, Banks CE, Compton RG (2006) Metal nanopartictes and related materials supported on carbon nanotubes: methods and applications. Small 2:182–193CrossRef

11.

Chen M-L, He Y-J, Chen X-W, Wang J-H (2012) Quantum dots conjugated with Fe₃O₄-filled carbon nanotubes for cancer-targeted imaging and magnetically guided drug delivery. Langmuir 28:16469–16476CrossRef

12.

Liu S, Shen Q, Cao Y, Gan L, Wang Z, Steigerwald ML, Guo X (2010) Chemical functionalization of single-walled carbon nanotube field-effect transistors as switches and sensors. Coord Chem Rev 254:1101–1116CrossRef

13.

Liu Z, Ling XY, Guo B, Hong L, Lee JY (2007) Pt and PtRu nanoparticles deposited on single-wall carbon nanotubes for methanol electro-oxidation. J Power Sources 167:272–280CrossRef

14.

Liu S, Tian J, Wang L, Sun X (2011) A method for the production of reduced graphene oxide using benzylamine as a reducing and stabilizing agent and its subsequent decoration with Ag nanoparticles for enzymeless hydrogen peroxide detection. Carbon 49:3158–3164CrossRef

15.

Liu S, Tian J, Wang L, Li H, Zhang Y, Sun X (2010) Stable aqueous dispersion of graphene nanosheets: noncovalent functionalization by a polymeric reducing agent and their subsequent decoration with Ag nanoparticles for enzymeless hydrogen peroxide detection. Macromolecules 43:10078–10083CrossRef

16.

Guo D-J, Li H-L (2005) High dispersion and electrocatalytic properties of palladium nanoparticles on single-walled carbon nanotubes. J Colloid Interface Sci 286:274–279CrossRef

17.

Quinn BM, Dekker C, Lemay SG (2005) Electrodeposition of noble metal nanoparticles on carbon nanotubes. J Am Chem Soc 127:6146–6147CrossRef

18.

Liu J, Fu S, Yuan B, Li Y, Deng Z (2010) Toward a universal “adhesive nanosheet” for the assembly of multiple nanoparticles based on a protein-induced reduction/decoration of graphene oxide. J Am Chem Soc 132:7279–7281CrossRef

19.

Lee J, Park EY, Lee J (2014) Non-toxic nanoparticles from phytochemicals: preparation and biomedical application. Bioprocess Biosyst Eng 37:983–989CrossRef

20.

Lee J, Kim HY, Zhou H, Hwang S, Koh K, Han D-W, Lee J (2011) Green synthesis of phytochemical-stabilized Au nanoparticles under ambient conditions and their biocompatibility and antioxidative activity. J Mater Chem 21:13316–13326CrossRef

21.

Kim JE, Lee J, Jang M, Kwak MH, Go J, Kho EK, Song SH, Sung JE, Lee J, Hwang DY (2015) Accelerated healing of cutaneous wounds using phytochemically stabilized gold nanoparticle deposited hydrocolloid membranes. Biomater Sci 3:509–519CrossRef

22.

Lee J, Kim JE, Go J, Lee JH, Han D-W, Hwang DY, Lee J (2015) Transdermal treatment of the surgical and burned wound skin via phytochemical-capped gold nanoparticles. Colloid Surf B Biointerfaces 135:166–174CrossRef

23.

Gong J, Zhou T, Song D, Zhang L (2010) Monodispersed Au nanoparticles decorated graphene as an enhanced sensing platform for ultrasensitive stripping voltammetric detection of mercury(II). Sens Actuator B Chem 150:491–497CrossRef

24.

Srivastava SK, Yamada R, Ogino C, Kondo A (2013) Sidewall modification of multiwalled carbon nanotubes by Allivum sativum (garlic) and its effect on the deposition of gold nanoparticles. Carbon 56:309–316CrossRef

25.

Moghaddam MJ, Taylor S, Gao M, Huang S, Dai L, McCall MJ (2004) Highly efficient binding of DNA on the sidewalls and tips of carbon nanotubes using photochemistry. Nano Lett 4:89–93CrossRef

26.

Alwarappan S, Liu C, Kumar A, Li C-Z (2010) Enzyme-doped graphene nanosheets for enhanced glucose biosensing. J Phys Chem C 114:12920–12924CrossRef

27.

Nayak P, Anbarasan B, Ramaprabhu S (2013) Fabrication of organophosphorus biosensor using ZnO nanoparticle-decorated carbon nanotube-graphene hybrid composite prepared by a novel green technique. J Phys Chem C 117:13202–13209CrossRef

28.

Ni X, Zhang B, Li C, Pang M, Su D, Williams CT, Liang C (2012) Microwave-assisted green synthesis of uniform Ru nanoparticles supported on non-functional carbon nanotubes for cinnamaldehyde hydrogenation. Catal Commun 24:65–69CrossRef

29.

Raghuveer MS, Agrawal S, Bishop N, Ramanath G (2006) Microwave-assisted single-step functionalization and in situ derivatization of carbon nanotubes with gold nanoparticles. Chem Mater 18:1390–1393CrossRef

30.

Hsieh C-T, Gu J-L, Tzou D-Y, Chu Y-C, Chen Y-C (2013) Microwave deposition of Pt catalysts on carbon nanotubes with different oxidation levels for formic acid oxidation. Int J Hydrog Energy 38:10345–10353CrossRef

31.

Zhang W, Jun Chen, Swiegers GF, Ma Z-F, Wallace GG (2010) Microwave-assisted synthesis of Pt/CNT nanocomposite electrocatalysts for PEM fuel cells. Nanoscale 2:282–286CrossRef

32.

Lee J, Ahmed SR, Oh S, Kim J, Suzuki T, Parmar K, Park SS, Lee J, Park EY (2015) A plasmon-assisted fluoro-immunoassay using gold nanoparticle-decorated carbon nanotubes for monitoring the influenza virus. Biosens Bioelectron 64:311–317CrossRef

33.

Su HC, Zhang M, Boseze W, Lim J-H, Myung NV (2013) Metal nanoparticles and DNA co-functionalized single-walled carbon nanotube gas sensors. Nanotechnology 24:505502CrossRef

34.

Baro M, Nayak P, Baby TT, Ramaprabhu S (2013) Green approach for the large-scale synthesis of metal/metal oxide nanoparticle decorated multiwalled carbon nanotubes. J Mater Chem A 1:482–486CrossRef

35.

Iliut M, Leordean C, Canpean V, Teodorescu C-M, Astilean S (2013) A new green, ascorbic acid-assisted method for versatile synthesis of Au-graphene hybrids as efficient surface-enhanced Raman scattering platforms. J Mater Chem C 1:4094–4104CrossRef

36.

Hussain N, Gogoi A, Sarma RK, Sharma P, Barras A, Boukherroub R, Saikia R, Sengupta P, Das MR (2014) Reduced graphene oxide nanosheets decorated with Au nanoparticles as an effective bactericide: investigation of biocompatibility and leakage of sugars and proteins. Chem Plus Chem 79:1774–1784

37.

Lee J, Kim J, Ahmed SR, Zhou H, Kim J-M, Lee J (2014) Plasmon-induced photoluminescence immunoassay for tuberculosis monitoring using gold-nanoparticle-decorated graphene. ACS Appl Mater Interfaces 6:21380–21388CrossRef

38.

Zhang Y, Tian J, Li H, Wang L, Qin X, Asiri AM, Al-Youbi AO, Sun X (2012) Biomolecule-assisted, environmentally friendly, one-pot synthesis of CuS/reduced graphene oxide nanocomposites with enhanced photocatalytic performance. Langmuir 28:12893–12900CrossRef

39.

Adhikari B, Banerjee A (2013) Catalytic properties of graphene-metal nanoparticle hybrid prepared using an aromatic amino acid as the reducing agent. Mater Chem Phys 139:450–458CrossRef

40.

Zhang L, Xiao SJ, Zheng LL, Li YF, Huang CZ (2014) Aptamer-mediated nanocomposites of semiconductor quantum dots and graphene oxide as well as their applications in intracellular imaging and targeted drug delivery. J Mater Chem B 2:8558–8565CrossRef

41.

Vinayan BP, Nagar R, Ramaprabhu S (2013) Solar light assisted green synthesis of palladium nanoparticle decorated nitrogen doped graphene for hydrogen storage application. J Mater Chem A 1:11192–11199CrossRef

42.

Chen H, Fan X, Ma J, Zhang G, Zhang F, Li Y (2014) Green route for microwave-assisted preparation of AuAg-alloy-decorated graphene hybrids with superior 4-NP reduction catalytic activity. Ind Eng Chem Res 53:17976–17980CrossRef

43.

Liu S, Wang L, Tian J, Lu W, Zhang Y, Wang X, Sun X (2011) Microwave-assisted rapid synthesis of Pt/graphene nanosheet composites and their application for methanol oxidation. J Nanopart Res 13:4731–4737CrossRef

44.

Jumeri FA, Lim HN, Ariffin SN, Huang NM, Teo PS, Fatin SO, Chia CH, Harrison I (2014) Microwave synthesis of magnetically separable ZnFe₂O₄-reduced graphene oxide for waste water treatment. Ceram Int 40:7057–7065CrossRef

45.

Zou Y, Kan J, Wang Y (2011) Fe₂O₃-graphene rice-on-sheet nanocomposite for high and fast lithium ion storage. J Phys Chem C 115:20747–20753CrossRef

46.

Zhang L, Zhen SJ, Sang Y, Li JY, Wang Y, Zhan L, Peng L, Wang J, Li YF, Huang CZ (2010) Controllable preparation of metal nanoparticle/carbon nanotube hybrids as efficient dark field light scattering agents for cell imaging. Chem Commun 46:4303–4305CrossRef

Titel: Environmentally friendly preparation of nanoparticle-decorated carbon nanotube or graphene hybrid structures and their potential applications
verfasst von: Jaewook Lee
Keonje Lee
Simon S. Park
Publikationsdatum: 01.03.2016
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 6/2016
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-015-9581-0

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