1. bookVolume 13 (2020): Issue 1 (April 2020)
Journal Details
License
Format
Journal
eISSN
1339-3065
First Published
10 Dec 2012
Publication timeframe
2 times per year
Languages
English
access type Open Access

Carbon family nanomaterials — new applications and technologies

Published Online: 29 Jun 2020
Volume & Issue: Volume 13 (2020) - Issue 1 (April 2020)
Page range: 77 - 87
Journal Details
License
Format
Journal
eISSN
1339-3065
First Published
10 Dec 2012
Publication timeframe
2 times per year
Languages
English
Abstract

Research on carbon-based nanomaterials (CBNMs) and their development is one of the major scientific disciplines of the last century. This is mainly because of their unique properties which can lead to improvements in industrial technology or new medical applications. Therefore, it is necessary to examine their properties such as shape, size, chemical composition, density, toxicity, etc. This article focuses on the general characteristics of nanomaterials (NMs) and their behavior when entering the environment (water and soil). In addition, it presents individual members of the graphene family including porous ecological carbon (biochar). The article mainly deals with the new potential technologies of CBNMs considering their possible toxic and genotoxic effects. This review also highlights the latest developments in the application of self-propelled micromotors for green chemistry applications. Finally, it points to the potential biomedical applications of CBNMs.

Keywords

Agharkar M, Kochrekar S, Hidouri S, Azeez MA (2014) Mater Res Bull 59: 323.10.1016/j.materresbull.2014.07.051Search in Google Scholar

Ahmed F, Rodrigues DF (2013) J Hazard Mater 256—257: 33.10.1016/j.jhazmat.2013.03.06423669788Search in Google Scholar

Anjum NA, Singh N, Singh MK, Sayeed I, Duarte AC, Pereira E, Ahmad I (2014) Sci Total Environ 472: 834.10.1016/j.scitotenv.2013.11.01824342089Search in Google Scholar

Bakand S, Hayes A, Dechsakulthorn F (2012) Inhalation Toxicol 24: 125.10.3109/08958378.2010.64202122260506Search in Google Scholar

Baptista-Pires L, Orozco J, Guardia P, Merkoci A (2018) Small (Weinheim an der Bergstrasse, Germany) 14.10.1002/smll.20170274629171716Search in Google Scholar

Barreto JA, O’Malley W, Kubeil M, Graham B, Stephan H, Spiccia L (2011) Adv Mater 23: H18.10.1002/adma.20110014021433100Search in Google Scholar

Baun A, Sayre P, Steinhäuser KG, Rose J (2017) NanoImpact 8: 1.10.1016/j.impact.2017.06.004Search in Google Scholar

Begum P, Ikhtiari R, Fugetsu B (2011) Carbon 49: 3907.10.1016/j.carbon.2011.05.029Search in Google Scholar

Borm PJ, Robbins D, Haubold S, Kuhlbusch T, Fissan H, Donaldson K, Schins R, Stone V, Kreyling W, Lademann J, Krutmann J, Warheit D, Oberdorster E (2006) Part Fibre Toxicol 3: 11.10.1186/1743-8977-3-11158424816907977Search in Google Scholar

Brandeburová P, Bírošová L, Vojs M, Kromka A, Gál M, Tichý J, Híveš J, Mackuľak T (2017) Monatsh Chem — Chemical Monthly 148: 525.10.1007/s00706-016-1911-7Search in Google Scholar

Calvaresi M, Quintana M, Rudolf P, Zerbetto F, Prato M (2013) Chem Phys Chem 14: 3447.10.1002/cphc.20130033723757109Search in Google Scholar

Chabot V, Higgins D, Yu A, Xiao X, Chen Z, Zhang J (2014) E Environ Sci 7: 1564.10.1039/c3ee43385dSearch in Google Scholar

Chartarrayawadee W, Moulton SE, Too CO, Kim BC, Yepuri R, Romeo T, Wallace GG (2013) J Appl Electrochem 43: 865.10.1007/s10800-013-0575-9Search in Google Scholar

Chen L, Hu P, Zhang L, Huang S, Luo L, Huang C (2012) Sci China Chem 55: 2209.10.1007/s11426-012-4620-zSearch in Google Scholar

Chen M, Sun Y, Liang J, Guangming Z, Li Z, Tang L, Zhu Y, Jiang D, Song B (2019) Environ Int 126: 690—698.10.1016/j.envint.2019.02.00530875562Search in Google Scholar

Chien CT, Li SS, Lai WJ, Yeh YC, Chen HA, Chen IS, Chen LC, Chen KH, Nemoto T, Isoda S, Chen M, Paredes JI, Fernández-Merino MJ, Villar-Rodil S, Solís-Fernández P, Guardia L, García R, Martínez-Alonso A, Tascón JMD (2013) Preparation of graphene and graphene-metal nanoparticle hybrids with enhanced catalytic activity by reduction of graphite oxide with efficient natural bioreductants Paper presented at the Imagine Nano, Bilbao Spain.Search in Google Scholar

Chng ELK, Pumera M (2013) Chemi — A Europ J 19: 8227.10.1002/chem.20130082423630053Search in Google Scholar

Chua CK, Pumera M (2013) Chem Soc Rev 42: 3222.10.1039/c2cs35474h23403465Search in Google Scholar

Chung C, Kim YK, Shin D, Ryoo SR, Hong BH, Min DH (2013) Acc Chem Res 46: 2211.10.1021/ar300159f23480658Search in Google Scholar

Conde J, Arnold CE, Tian F, Artzi N (2016) Mater Today 19: 29.10.1016/j.mattod.2015.07.005Search in Google Scholar

Donaldson K, Stone V, Tran CL, Kreyling W, Borm PJA (2004) Occupational Environ Med 61: 727.10.1136/oem.2004.013243176367315317911Search in Google Scholar

Duarte, Armando C. In: Cachada A, Rocha-Santos T (eds) Soil Pollution. Academic Press, pp 161. doi: 10.1016/B978-0-12-849873-6.00007-8.10.1016/B978-0-12-849873-6.00007-8Search in Google Scholar

Durnev AD, Lapitskaya AS (2013) Russ J Genet: Applied Research 3: 388.10.1134/S2079059713050031Search in Google Scholar

Fakhri A (2017) J Saudi Chem Soc 21: S52.10.1016/j.jscs.2013.10.002Search in Google Scholar

Fernández-Merino MJ, Guardia L, Paredes JI, Villar-Rodil S, Solís-Fernández P, Martínez-Alonso A, Tascón JMD (2010) J Phys Chem C 114: 6426.10.1021/jp100603hSearch in Google Scholar

Freixa A, Acuña V, Sanchís J, Farré M, Barceló D, Sabater S (2018) Sci Total Environ 619—620: 328.10.1016/j.scitotenv.2017.11.09529154051Search in Google Scholar

Fujita T, Eda G, Yamaguchi H, Chhowalla M, Chen CW (2012) Angew Chem Int Ed Engl 51: 6662.10.1002/anie.20120047422623281Search in Google Scholar

Gao M, Zhang Z, Lv M, Song W, Lv Yu (2018) Ecotoxicol and Environ Saf 148: 261—268.10.1016/j.ecoenv.2017.10.03829069613Search in Google Scholar

Garcia IL (2017) Antimicrobial activity of graphene and its viability. Degree final project. University of Barcelona pp 34.Search in Google Scholar

Gkika DA, Magafas L, Cool P, Braet J (2018) Toxicology 393: 83.10.1016/j.tox.2017.11.00829127034Search in Google Scholar

Gopalakrishnan I, Sugaraj Samuel R, Sridharan K (2018) Nanomaterials-Based Adsorbents for Water and Wastewater Treatments. In: Sridharan K (ed) Emerging Trends of Nanotechnology in Environment and Sustainability: A Review-Based Approach. Springer International Publishing, Cham, pp 89. doi: 10.1007/978-3-319-71327-4_11.10.1007/978-3-319-71327-4_11Search in Google Scholar

Guo X, Mei N (2014) J Food and Drug Anal 22: 105.10.1016/j.jfda.2014.01.009635050724673908Search in Google Scholar

Hao J, Yang W, Zhang Z, Tang J (2015) Nanoscale 7: 10498.10.1039/C5NR00759C26009257Search in Google Scholar

Hu Y, Sun X (2013) Chemically Functionalized Graphene and Their Applications in Electrochemical Energy Conversion and Storage. In: Aliofkhazraei M (ed) Ad Graphene Sci. InTech, Rijeka, p Ch. 07. doi: 10.5772/55666.10.5772/55666Search in Google Scholar

Hussain S, Boland S, Baeza-Squiban A, Hamel R, Thomassen LC, Martens JA, Billon-Galland MA, Fleury-Feith J, Moisan F, Pairon JC, Marano F (2009) Toxicology 260: 142.10.1016/j.tox.2009.04.00119464580Search in Google Scholar

Jamieson T, Bakhshi R, Petrova D, Rocock R, Imani M, Seifalian AM (2007) Biomaterials 28: 31, 4717—4732.10.1016/j.biomaterials.2007.07.01417686516Search in Google Scholar

Jastrzebska AM, Kurtycz P, Olszyna AR (2012) J Nanopart Res 14: 1320.10.1007/s11051-012-1320-8351780423239936Search in Google Scholar

Jia H-R, Zhu Y-X, Duan Q-Y, Chen Z, Wu F-G (2019) J of Control Rel 311—312, 301—318.10.1016/j.jconrel.2019.08.02231446084Search in Google Scholar

Ju H (2018) Appl Mater Today 10: 51.10.1016/j.apmt.2017.11.001Search in Google Scholar

Jurado-Sanchez B, Sattayasamitsathit S, Gao W, Santos L, Fedorak Y, Singh VV, Orozco J, Galarnyk M, Ramesha GK, Vijaya Kumara A, Muralidhara HB, Sampath S (2011) J Colloid Interface Sci 361: 270.10.1016/j.jcis.2011.05.05021679961Search in Google Scholar

Jurado-Sánchez B, Wang J (2018) Environ Sci: Nano 5: 1530.10.1039/C8EN00299ASearch in Google Scholar

Kabiri S, Tran DN, Altalhi T, Losic D (2014) Carbon 80: 523.10.1016/j.carbon.2014.08.092Search in Google Scholar

Krishnakumar S, Rajalakshmi AG, Balaganesh B, Manikandan P, Vinoth C, Rajendran V (2014) Int J Ad Res 2: 933Search in Google Scholar

Kyzas GZ, Deliyanni EA, Matis KA (2014) J Chem Technol Biotechnol 89: 196.10.1002/jctb.4220Search in Google Scholar

Lalwani G, D’Agati M, Khan AM, Sitharaman B (2016) Adv Drug Delivery Rev 105: 109.10.1016/j.addr.2016.04.028503907727154267Search in Google Scholar

Lee J, Lee B, Shin D, Kwak SS, Bahk JD, Lim CO, Yun DJ (2002) Mol Cells 13(3): 407—412.Search in Google Scholar

Lee JW, Hall AS, Kim J-D, Mallouk TE (2012) Chem Mater 24: 1158.10.1021/cm203697wSearch in Google Scholar

Li J, Rao J, Pu K (2018) Biomaterials 155: 217.10.1016/j.biomaterials.2017.11.025597872829190479Search in Google Scholar

Lim SY, Shen W, Gao Z (2015) Carbon quantum dots and their applications. Chem. Soc. Rev. 44 (1), 362—381.10.1039/C4CS00269E25316556Search in Google Scholar

Lin J, Chen X, Huang P (2016) Adv Drug Delivery Rev 105: 242.10.1016/j.addr.2016.05.013503906927233213Search in Google Scholar

Liu Y, Tourbin M, Lachaize S, Guiraud P (2014) Powder Technol 255: 149.10.1016/j.powtec.2013.08.025Search in Google Scholar

Loureiro S, Tourinho PS, Cornelis G, Van Den Brink NW, Díez-Ortiz M, Vázquez-Campos S, Pomar-Portillo V, Svendsen C, Van Gestel CAM (2018) Chapter 7 — Nanomaterials as Soil Pollutants A2.10.1016/B978-0-12-849873-6.00007-8Search in Google Scholar

Mackuľak T, Vojs M, Grabic R, Golovko O, Staňová AV, Birošová L, Medveďová A, Híveš J, Gál M, Kromka A, Hanusová A (2016) Monatsh Chem — Chemical Monthly 147: 97.10.1007/s00706-015-1582-9Search in Google Scholar

Martinéz-Paz P, Negri V, Esteban-Arranz A, Martínez-Guitarte JL, Ballesteros P, Morales M (2019) Aquat Toxicol 209: 42—48.10.1016/j.aquatox.2019.01.01730690261Search in Google Scholar

Molaei MJ (2019b) A review on nanostructured carbon quantum dots and their applications in biotechnology, sensors, and chemiluminescence. Talanta 196, 456—478.10.1016/j.talanta.2018.12.04230683392Search in Google Scholar

Molaei MJ (2019a) Carbon quantum dots and their biomedical and therapeutic applications: a review. RSC Adv. 9 (12), 6460—6481.10.1039/C8RA08088G906111935518468Search in Google Scholar

Molaei MJ (2020) The optical properties and solar energy conversion applications of carbon quantum dots: A review. Sol. Energy 196, 549—566.Search in Google Scholar

Mesarič T, Sepčič K, Piazza V, Gambardella C, Garaventa F, Drobne D, Faimali M (2013) Chem Ecol 29: 64310.1080/02757540.2013.817563Search in Google Scholar

Miners SA, Rance GA, Khlobystov AN (2016) Chem Soc Rev 45: 4727.10.1039/C6CS00090H27301444Search in Google Scholar

Moon J, Kwak JI, An Y-J (2019) Chemosphere 215: 50—56.10.1016/j.chemosphere.2018.09.17730312916Search in Google Scholar

Nam S-H, An Y-J (2019) Ecotoxicol and Environ Saf 168: 388—393.10.1016/j.ecoenv.2018.10.08230396135Search in Google Scholar

Notarianni M, Jinzhang L, Vernon K, Motta N (2016) Beilstein J of Nanotechnol 7, 149—196.10.3762/bjnano.7.17473443126925363Search in Google Scholar

Oladipo AA, Ifebajo AO (2018) J Environ Manage 209: 9.10.1016/j.jenvman.2017.12.03029274516Search in Google Scholar

Orozco J, Mercante LA, Pol R, Merkoçi A (2016) J Mater Chem A 4: 3371.10.1039/C5TA09850ESearch in Google Scholar

Pan Y, Liu X, Zhang W, Liu Z, Zeng G, Shao B, Liang Q, He Q, Yuan X, Huang D, Chen M (2020) Appl. Cat. B: Environ 265: 118579.Search in Google Scholar

Park J, Yan M (2013) Acc Chem Res 46: 181.10.1021/ar300172h23116448Search in Google Scholar

Paulchamy B, Arthi G, Lignesh B (2015) J Nanomed Nanotechnol 6: 1.Search in Google Scholar

Pochkaeva EI, Podolsky NE, Zakusilo DN, Petrov AV, Charykov NA, Vlasov TD, Penkova AV, Vasina LV, Murin IV, Sharoyko VV, Semenov KN (2020) Prog Solid State Chem 57: 100255.10.1016/j.progsolidstchem.2019.100255Search in Google Scholar

Roacho Perez JA, Gallardo Blanco HL, Sanchez Dominguez M, Garcia Casillas PE, Chapa Gonzalez C, Sanchez Dominguez CN (2018) Mol Med Rep 17: 1413.Search in Google Scholar

Roupcová P (2017) Monitorování ekotoxicity u nanočástic na bázi uhlíku. Thesis for dissertation work, Technical University of Ostrava, Ostrava.Search in Google Scholar

Roupcová P, Friedrichová R, Klouda K, Weisheitelová M, Perďochová M (2017) Biochar Modification, Thermal Stability and Toxicity of Products Modification. TRANSACTIONS of the VŠB — Technical University of Ostrava, Safety Engineering Series, vol 12. doi: 10.1515/tvsbses-2017-0012.10.1515/tvsbses-2017-0012Search in Google Scholar

Roupcová P, Klouda K (2017) Hybrid Compounds based on Graphene Oxide and their Compounds with Metals. Paper presented at the Nanocon 2017, Brno, Czech Republic.Search in Google Scholar

Roupcová P, Klouda K, Pavlovský J, Weisheitelová M (2017) DEStech Transactions on Engineering and Technology Research.Search in Google Scholar

Roupcová P, Kubátová H, Klouda K, Lepík P (2016) Phytotoxicological Tests — Applications of Foils Based on Graphene (Graphene Oxide). TRANSACTIONS of the VŠB — Technical University of Ostrava, Safety Engineering Series, vol 11. doi: 10.1515/tvsbses-2016-0011.10.1515/tvsbses-2016-0011Search in Google Scholar

Sanchez VC, Jachak A, Hurt RH, Kane AB (2012) Chem Res Toxicol 25: 15.10.1021/tx200339hSearch in Google Scholar

Saunders DS, Gillanders SW, Lewis RD (1994) J Insect Physiol 40(11): 957—968.10.1016/0022-1910(94)90134-1Search in Google Scholar

Sen A, Ibele M, Hong Y, Velegol D (2009) Faraday Discuss 143: 15.10.1039/b900971j20334092Search in Google Scholar

Seabra AB, Paula AJ, de Lima R, Alves OL, Duran N (2014) Chem Res Toxicol 27: 159.10.1021/tx400385x24422439Search in Google Scholar

Schmidt H, Wilson K (2014) the Biochar J.Search in Google Scholar

Shahil KM, Balandin AA (2012) Solid State Commun 152: 1331.10.1016/j.ssc.2012.04.034Search in Google Scholar

Shanmugharaj AM, Yoon JH, Yang WJ, Ryu SH (2013) J Colloid Interface Sci 401: 148.10.1016/j.jcis.2013.02.05423622684Search in Google Scholar

Sharma A, Anghore D, Awasthi R, Kosey S, Jindal S, Gupta N, Raj D, Sood R (2015) World J of Pharm and Pharm Sci 4, 1088—1113.Search in Google Scholar

Singh VV, Martin A, Kaufmann K, DS de Oliveira S, Wang J (2015) Chem Mater 27: 8162.10.1021/acs.chemmater.5b03960Search in Google Scholar

Song W, Musetti SN, Huang L (2017) Biomaterials 148: 16.10.1016/j.biomaterials.2017.09.017Search in Google Scholar

Stanković DM, Ognjanović M, Fabian M, Švorc Ľ, Mariano JFML, Antić B (2017) Anal Biochem 539: 104.10.1016/j.ab.2017.10.018Search in Google Scholar

Svítková J, Ignat T, Švorc Ľ, Labuda J, Barek J (2016) Crit Rev Anal Chem 46: 248.10.1080/10408347.2015.1082125Search in Google Scholar

Sun M, Wang G, Li X, Li C (2014) J Power Sources 245: 436.10.1016/j.jpowsour.2013.06.145Search in Google Scholar

Tabei Y, Fukui H, Nishioka A, Hagiwara Y, Sato K, Yoneda T, Koynama T, Horie M (2019) Sci Rep 9: 2224.10.1038/s41598-019-38598-4Search in Google Scholar

Terrones H, Lv R, Terrones M, Dresselhaus MS (2012) Rep Prog Phys 75: 062501.10.1088/0034-4885/75/6/062501Search in Google Scholar

Theng BK, Yuan G (2008) Elements 4: 395.10.2113/gselements.4.6.395Search in Google Scholar

Tiede K, Boxall ABA, Tear SP, Lewis J, David H, Hassellöv M (2008) Food Addit Contam: Part A 25: 795.10.1080/02652030802007553Search in Google Scholar

Tratnyek PG, Johnson RL (2006) Nano Today 1: 44.10.1016/S1748-0132(06)70048-2Search in Google Scholar

Vilela D, Parmar J, Zeng Y, Zhao Y, Sánchez S (2016) Nano Lett 16: 2860.10.1021/acs.nanolett.6b00768486747126998896Search in Google Scholar

Wang D, Yang G, Ma Q, Wu M, Tan Y, Yoneyama Y, Tsubaki N (2012) ACS Catal 2: 1958.10.1021/cs300234eSearch in Google Scholar

Wang G, Qian F, Saltikov CW, Jiao Y, Li Y (2011) Nano Res 4: 563.10.1007/s12274-011-0112-2Search in Google Scholar

Wang J (2015) Small (Weinheim an der Bergstrasse, Germany) 11: 499.Search in Google Scholar

Wang L, Xiong Q, Xiao F, Duan H (2017) Biosens Bioelectron 89: 136.10.1016/j.bios.2016.06.01127318880Search in Google Scholar

Weber K, Quicker P (2018) Fuel 217: 240.10.1016/j.fuel.2017.12.054Search in Google Scholar

Wei D, Li B, Huang H, Luo L, Zhang J, Yang Y, Guo J, Tang L, Zeng G, Zhou Y (2018) Chemosphere.Search in Google Scholar

Woo S, Kim Y-R, Chung TD, Piao Y, Kim H (2012) Electrochim Acta 59: 509.10.1016/j.electacta.2011.11.012Search in Google Scholar

Xu Z, Sun H, Zhao X, Gao C (2013) Adv Mater 25: 188.10.1002/adma.20120344823047734Search in Google Scholar

Yao Y, Wu F (2015) Nano E 17: 91.10.1016/j.nanoen.2015.08.004Search in Google Scholar

Yoo BM, Shin HJ, Yoon HW, Park HB (2014) J Appl Polym Sci 131: n/a.10.1002/app.39628Search in Google Scholar

Zhang L, Jiang J, Holm N, Chen F (2014) J Appl Electrochem 44: 1145.10.1007/s10800-014-0726-7Search in Google Scholar

Zhang W, Li X, Yang Z, Tang X, Ma Y, Li M, Hu N, Wei H, Zhang Y (2016) Nanotechnology 27: 265703.10.1088/0957-4484/27/26/26570327196539Search in Google Scholar

Zhang X, Huang Y, Wang Y, Ma Y, Liu Z, Chen Y (2009) Carbon 47: 334.10.1016/j.carbon.2008.10.018Search in Google Scholar

Zhang Y, Ren L, Wang S, Marathe A, Chaudhuri J, Li G (2011) J Mater Chem 21: 5386.10.1039/c1jm10257eSearch in Google Scholar

Zhao J, Wang Z, White JC, Xing B (2014) Environ Sci Technol 48: 9995.10.1021/es502267925122195Search in Google Scholar

Zhou X, Laroche F, Lamers GEM, Torraca V, Voskamp P, Lu T, Chu F, Spaink HP, Abrahams JP, Liu Z (2012) Nano Res 5: 703.10.1007/s12274-012-0254-xSearch in Google Scholar

Zhu S, Tang S, Zhang J, Yang B (2012) Chem Commun (Camb) 48: 4527.10.1039/c2cc31201h22473417Search in Google Scholar

Zuo P et al. (2016) A review on syntheses, properties, characterization and bioanalytical applications of fluorescent carbon dots. Microchim. Acta 183 (2), 519—542.10.1007/s00604-015-1705-3Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo