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2020 | OriginalPaper | Chapter

1. Introduction

Authors : Huan Pang, Xiaoyu Cao, Limin Zhu, Mingbo Zheng

Published in: Synthesis of Functional Nanomaterials for Electrochemical Energy Storage

Publisher: Springer Singapore

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Abstract

Human imagination and dreams often give rise to novel science and technology. As a frontier of twenty-first century, nanotechnology was born out of such dreams.

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Abe H, Liu J, Ariga K (2016) Catalytic nanoarchitectonics for environmentally compatible energy generation. Mater Today 19(1):12–18

Agubra VA, Zuniga L, Flores D, Villareal J, Alcoutlabi M (2016) Composite nanofibers as advanced materials for Li-ion, Li-O₂ and Li-S batteries. Electrochim Acta 192:529–550

Arico AS, Bruce P, Scrosati B, Tarascon J-M, Van Schalkwijk W (2005) Nanostructured materials for advanced energy conversion and storage devices. Nat Mater 4(5):366PubMed

Armaroli N, Balzani V (2007) The future of energy supply: challenges and opportunities. Angew Chem Int Ed 46(1–2):52–66

Asif M, Muneer T (2007) Energy supply, its demand and security issues for developed and emerging economies. Renew Sustain Energy Rev 11(7):1388–1413

Barkalina N, Charalambous C, Jones C, Coward K (2014) Nanotechnology in reproductive medicine: emerging applications of nanomaterials. Nanomed Nanotech Biol Med 10(5):e921–e938

Biju V (2014) Chemical modifications and bioconjugate reactions of nanomaterials for sensing, imaging, drug delivery and therapy. Chem Soc Rev 43(3):744–764PubMed

Boverhof DR, Bramante CM, Butala JH, Clancy SF, Lafranconi M, West J, Gordon SC (2015) Comparative assessment of nanomaterial definitions and safety evaluation considerations. Regul Toxicol Pharmacol 73(1):137–150PubMed

Bromberg L, Cohn D, Rabinovich A, Heywood J (2001) Emissions reductions using hydrogen from plasmatron fuel converters. Int J Hydrogen Energy 26(10):1115–1121

Candelaria SL, Shao Y, Zhou W, Li X, Xiao J, Zhang J-G, Wang Y, Liu J, Li J, Cao G (2012) Nanostructured carbon for energy storage and conversion. Nano Energy 1(2):195–220

Carrow JK, Gaharwar AK (2015) Bioinspired polymeric nanocomposites for regenerative medicine. Macromol Chem Phys 216(3):248–264

Catherine L, Olivier P (2017) Gold nanoparticles for physics, chemistry and biology

Chen T, Dai L (2014) Flexible supercapacitors based on carbon nanomaterials. J Mater Chem A 2(28):10756–10775

Chen Z, Yuan Y, Zhou H, Wang X, Gan Z, Wang F, Lu Y (2014) 3D nanocomposite architectures from carbon-nanotube-threaded nanocrystals for high-performance electrochemical energy storage. Adv Mater 26(2):339–345PubMed

Choi B, Chang S, Lee Y, Bae J, Kim H, Huh Y (2012) 3D heterostructured architectures of Co3O4 nanoparticles deposited on porous graphene surfaces for high performance of lithium ion batteries. Nanoscale 4(19):5924–5930PubMed

Choi SH, Ko YN, Lee JK, Kang YC (2015) 3D MoS₂–graphene microspheres consisting of multiple nanospheres with superior sodium ion storage properties. Adv Func Mater 25(12):1780–1788

Choi S, Lee H, Ghaffari R, Hyeon T, Kim DH (2016) Recent advances in flexible and stretchable bio-electronic devices integrated with nanomaterials. Adv Mater 28(22):4203–4218PubMed

Commission E (2011) Commission Recommendation of 18 October 2011 on the definition of nanomaterial. Official Journal of the European Communities: Legis

Cook TR, Dogutan DK, Reece SY, Surendranath Y, Teets TS, Nocera DG (2010) Solar energy supply and storage for the legacy and nonlegacy worlds. Chem Rev 110(11):6474–6502PubMed

Dai L, Chang DW, Baek JB, Lu W (2012) Carbon nanomaterials for advanced energy conversion and storage. Small 8(8):1130–1166

Devi RV, Doble M, Verma RS (2015) Nanomaterials for early detection of cancer biomarker with special emphasis on gold nanoparticles in immunoassays/sensors. Biosens Bioelectron 68:688–698

Dincer I (2000) Renewable energy and sustainable development: a crucial review. Renew Sustain Energy Rev 4(2):157–175

Dutta A, Datta J (2014) Energy efficient role of Ni/NiO in PdNi nano catalyst used in alkaline DEFC. J Mater Chem A 2(9):3237–3250

Fabiano A, Chetoni P, Zambito Y (2015) Mucoadhesive nano-sized supramolecular assemblies for improved pre-corneal drug residence time. Drug Dev Ind Pharm 41(12):2069–2076PubMed

Feynman R (2018) There’s plenty of room at the bottom. In: Feynman and computation

Frewer L, Gupta N, George S, Fischer A, Giles E, Coles D (2014) Consumer attitudes towards nanotechnologies applied to food production. Trends Food Sci Technol 40(2):211–225

Gai S, Yang G, Yang P, He F, Lin J, Jin D, Xing B (2018) Recent advances in functional nanomaterials for light–triggered cancer therapy. Nano Today 19:146–187

Ganesan P, Prabu M, Sanetuntikul J, Shanmugam S (2015) Cobalt sulfide nanoparticles grown on nitrogen and sulfur codoped graphene oxide: an efficient electrocatalyst for oxygen reduction and evolution reactions. ACS Catalysis 5(6):3625–3637

Gao M-R, Xu Y-F, Jiang J, Yu S-H (2013) Nanostructured metal chalcogenides: synthesis, modification, and applications in energy conversion and storage devices. Chem Soc Rev 42(7):2986–3017PubMed

Gawande MB, Goswami A, Felpin F-X, Asefa T, Huang X, Silva R, Zou X, Zboril R, Varma RS (2016) Cu and Cu-based nanoparticles: synthesis and applications in catalysis. Chem Rev 116(6):3722–3811PubMed

Ghaderi-Ghahfarokhi M, Barzegar M, Sahari M, Gavlighi HA, Gardini F (2017) Chitosan-cinnamon essential oil nano-formulation: application as a novel additive for controlled release and shelf life extension of beef patties. Int J Biol Macromol 102:19–28PubMed

Ghorani B, Tucker N (2015) Fundamentals of electrospinning as a novel delivery vehicle for bioactive compounds in food nanotechnology. Food Hydrocolloids 51:227–240

Guo R, Guo Y, Duan H, Li H, Liu H (2017) Synthesis of orthorhombic perovskite-type ZnSnO₃ Single-crystal nanoplates and their application in energy harvesting. ACS Appl Mater Interf 9(9):8271–8279

Hatto P (2011) ISO consensus definitions relevant to nanomaterials and nanotechnologies. In: 4th annual nano safety for success dialogue ISO TC 229and BSI NTI/1 Nano. https://doi.org/10.5772/58672technologiesstandardizationcommittees29thand30thMarch

Hochbaum AI, Yang P (2009) Semiconductor nanowires for energy conversion. Chem Rev 110(1):527–546

Hu X, Zhang W, Liu X, Mei Y, Huang Y (2015) Nanostructured Mo-based electrode materials for electrochemical energy storage. Chem Soc Rev 44(8):2376–2404PubMed

Jain KK, Jain KK (2017) The handbook of nanomedicine. Springer, Berlin

Ji L, Lin Z, Alcoutlabi M, Zhang X (2011) Recent developments in nanostructured anode materials for rechargeable lithium-ion batteries. Energy Environ Sci 4(8):2682–2699

Ji L, Meduri P, Agubra V, Xiao X, Alcoutlabi M (2016) Graphene-based nanocomposites for energy storage. Adv Energy Mater 6(16):1502159

Kagan CR, Fernandez LE, Gogotsi Y, Hammond PT, Hersam MC, Nel AE, Penner RM, Willson CG, Weiss PS (2016) Nano Day: celebrating the next decade of nanoscience and nanotechnology 10(10):9093–9103

Kim H-G, Bae J-H, Jastrzebski Z, Cherkas A, Heo B-G, Gorinstein S, Ku Y-G (2016) Binding, antioxidant and anti-proliferative properties of bioactive compounds of sweet paprika (Capsicum annuum L.). Plant Foods Hum Nutr 71(2):129–136

Kumar S, Ahlawat W, Kumar R, Dilbaghi N (2015) Graphene, carbon nanotubes, zinc oxide and gold as elite nanomaterials for fabrication of biosensors for healthcare. Biosens Bioelectron 70:498–503PubMed

Lee DJ, Yu S-H, Lee HS, Jin A, Lee J, Lee JE, Sung Y-E, Hyeon T (2017) Facile synthesis of metal hydroxide nanoplates and their application as lithium-ion battery anodes. J Mater Chem A 5(18):8744–8751

Lin N, Huang J, Dufresne A (2012) Preparation, properties and applications of polysaccharide nanocrystals in advanced functional nanomaterials: a review. Nanoscale 4(11):3274–3294PubMed

Lin D, Liu Y, Cui Y (2017) Reviving the lithium metal anode for high-energy batteries. Nat Nanotechnol 12(3):194PubMed

Liu N, Lu Z, Zhao J, Mcdowell MT, Lee HW, Zhao W, Cui Y (2014) A pomegranate-inspired nanoscale design for large-volume-change lithium battery anodes. Nat Nanotechnol 9(3):187–192PubMed

Li J, Cheng F, Huang H, Li L, Zhu J-J (2015) Nanomaterial-based activatable imaging probes: from design to biological applications. Chem Soc Rev 44(21):7855–7880PubMed

Li D, Wang Y, Sun Y, Lu Y, Chen S, Wang B, Zhang H, Xia Y, Yang D (2018) Turning gelidium amansii residue into nitrogen-doped carbon nanofiber aerogel for enhanced multiple energy storage. Carbon 137:31–40

Lu X, Wang C, Favier F, Pinna N (2017) Electrospun nanomaterials for supercapacitor electrodes: designed architectures and electrochemical performance. Adv Energy Mater 7:1601301

Lü Y, Zhan W, He Y, Wang Y, Kong X, Kuang Q, Xie Z, Zheng L (2014) MOF-templated synthesis of porous Co₃O₄ concave nanocubes with high specific surface area and their gas sensing properties. ACS Appl Mater Interf 6(6):4186–4195

Ma X, Luo W, Yan M, He L, Mai L (2016) In situ characterization of electrochemical processes in one dimensional nanomaterials for energy storages devices. Nano Energy 24:165–188

Mao J, Zhou T, Zheng Y, Gao H, Liu HK, Guo Z (2018) Two-dimensional nanostructures for sodium-ion battery anodes. J Mater Chem A 6(8):3284–3303

Manoharan M (2008) Research on the frontiers of materials science: the impact of nanotechnology on new material development. Technol Soc 30(3–4):401–404

Min SY, Kim TS, Lee Y, Cho H, Xu W, Lee TW (2015) Organic nanowire fabrication and device applications. Small 11(1):45–62PubMed

Mondal S, Rana U, Malik S (2015) Graphene quantum dot-doped polyaniline nanofiber as high performance supercapacitor electrode materials. Chem Commun 51(62):12365–12368

Murphy CJ (2002) Nanocubes and nanoboxes. Science 298(5601):2139–2141PubMed

Nazir S, Hussain T, Ayub A, Rashid U, MacRobert AJ (2014) Nanomaterials in combating cancer: therapeutic applications and developments. Nanomed Nanotechnol Biol Med 10(1):19–34

Omer AM (2008) Energy, environment and sustainable development. Renew Sustain Energy Rev 12(9):2265–2300

Ortega S, Ibáñez M, Liu Y, Zhang Y, Kovalenko MV, Cadavid D, Cabot A (2017) Bottom-up engineering of thermoelectric nanomaterials and devices from solution-processed nanoparticle building blocks. Chem Soc Rev 46(12):3510–3528PubMed

Ouyang S, Hu X, Zhou Q (2015) Envelopment–internalization synergistic effects and metabolic mechanisms of graphene oxide on single-cell chlorella vulgaris are dependent on the nanomaterial particle size. ACS Appl Mater Interf 7(32):18104–18112

Peng X, Peng L, Wu C, Xie Y (2014) Two dimensional nanomaterials for flexible supercapacitors. Chem Soc Rev 43(10):3303–3323PubMed

Peng L, Fang Z, Zhu Y, Yan C, Yu G (2017) Holey 2D nanomaterials for electrochemical energy storage. Adv Energy Mater. https://doi.org/10.1002/aenm.201702179CrossRef

Perreault F, De Faria AF, Elimelech M (2015) Environmental applications of graphene-based nanomaterials. Chem Soc Rev 44(16):5861–5896PubMed

Pfenninger S, Hawkes A, Keirstead J (2014) Energy systems modeling for twenty-first century energy challenges. Renew Sustain Energy Rev 33:74–86

Pomerantseva E, Gogotsi Y (2017) Two-dimensional heterostructures for energy storage. Nat Energy. https://doi.org/10.1038/nenergy.2017.89CrossRef

Qu C, Zhang L, Meng W, Liang Z, Zhu B, Dang D, Dai S, Zhao B, Tabassum H, Gao S (2018) MOF-Derived α-NiS nanorods on graphene as an electrode for high-energy-density supercapacitors. J Mater Chem A 6:4003–4012

Rengan AK, Bukhari AB, Pradhan A, Malhotra R, Banerjee R, Srivastava R, De A (2015) In vivo analysis of biodegradable liposome gold nanoparticles as efficient agents for photothermal therapy of cancer. Nano Lett 15(2):842–848PubMed

Sampaio M, Bacsa R, Benyounes A, Axet R, Serp P, Silva CG, Silva A, Faria JL (2015) Synergistic effect between carbon nanomaterials and ZnO for photocatalytic water decontamination. J Catal 331:172–180

Shao A, Xie Y, Zhu S, Guo Z, Zhu S, Guo J, Shi P, James TD, Tian H, Zhu WH (2015) Far-red and near-IR AIE-active fluorescent organic nanoprobes with enhanced tumor-targeting efficacy: shape-specific effects. Angew Chem 127(25):7383–7388

Shen L, Lv H, Chen S, Kopold P, van Aken PA, Wu X, Maier J, Yu Y (2017) Carbon nanowires: peapod-like Li₃VO₄/N-doped carbon nanowires with pseudocapacitive properties as advanced materials for high-energy lithium-ion capacitors. Adv Mater. https://doi.org/10.1002/adma.201770196CrossRefPubMedPubMedCentral

Si Y, Chen M, Wu L (2016) Syntheses and biomedical applications of hollow micro-/nano-spheres with large-through-holes. Chem Soc Rev 45(3):690–714PubMed

Sichert JA, Tong Y, Mutz N, Vollmer M, Fischer S, Milowska KZ, García Cortadella R, Nickel B, Cardenas-Daw C, Stolarczyk JK (2015) Quantum size effect in organometal halide perovskite nanoplatelets. Nano Lett 15 (10):6521–6527

Sobon G (2015) Mode-locking of fiber lasers using novel two-dimensional nanomaterials: graphene and topological insulators. Photonics Res 3(2):A56–A63

Song J, Li J, Li X, Xu L, Dong Y, Zeng H (2015) Quantum dot light-emitting diodes based on inorganic perovskite cesium lead halides (CsPbX₃). Adv Mater 27(44):7162–7167PubMed

Stark WJ, Stoessel PR, Wohlleben W, Hafner A (2015) Industrial applications of nanoparticles. Chem Soc Rev 44(16):5793–5805PubMed

Su X, Wu Q, Li J, Xiao X, Lott A, Lu W, Sheldon BW, Wu J (2014) Silicon-based nanomaterials for lithium-ion batteries: a review. Adv Energy Mater. https://doi.org/10.1002/aenm.201300882CrossRef

Sun H, Deng J, Qiu L, Fang X, Peng H (2015a) Recent progress in solar cells based on one-dimensional nanomaterials. Energy Environ Sci 8(4):1139–1159

Sun Y, Sills RB, Hu X, Seh ZW, Xiao X, Xu H, Luo W, Jin H, Xin Y, Li T (2015b) A bamboo-inspired nanostructure design for flexible, foldable, and twistable energy storage devices. Nano Lett 15(6):3899–3906

Tan C, Liu Z, Huang W, Zhang H (2015) Non-volatile resistive memory devices based on solution-processed ultrathin two-dimensional nanomaterials. Chem Soc Rev 44(9):2615–2628PubMed

Tan C, Cao X, Wu X-J, He Q, Yang J, Zhang X, Chen J, Zhao W, Han S, Nam G-H, Sindoro M, Zhang H (2017) Recent advances in ultrathin two-dimensional nanomaterials. Chem Rev 117(9):6225–6331PubMed

Tanaka K, Chujo Y (2015) Recent progress of optical functional nanomaterials based on organoboron complexes with β-diketonate, ketoiminate and diiminate. NPG Asia Mater 7(11):e223

Tao X, Wang J, Ying Z, Cai Q, Zheng G, Gan Y, Huang H, Xia Y, Liang C, Zhang W (2014) Strong Sulfur binding with conducting magnéli-phase Ti_nO_2n–1 nanomaterials for improving lithium-sulfur batteries. Nano Lett 14(9):5288–5294PubMed

Wang Y-J, Zhao N, Fang B, Li H, Bi XT, Wang H (2015) Carbon-supported Pt-based alloy electrocatalysts for the oxygen reduction reaction in polymer electrolyte membrane fuel cells: particle size, shape, and composition manipulation and their impact to activity. Chem Rev 115(9):3433–3467PubMed

Wang P, Lombi E, Zhao F-J, Kopittke PM (2016a) Nanotechnology: a new opportunity in plant sciences. Trends Plant Sci 21(8):699–712

Wang J, Zhang X, Wei Q, Lv H, Tian Y, Tong Z, Liu X, Hao J, Qu H, Zhao J (2016b) 3D self-supported nanopine forest-like Co₃O₄@CoMoO₄ core–shell architectures for high-energy solid state supercapacitors. Nano Energy 19:222–233

Wang L, Xiong Q, Xiao F, Duan H (2017) 2D nanomaterials based electrochemical biosensors for cancer diagnosis. Biosens Bioelectron 89:136–151PubMed

Wang C, Kaneti YV, Bando Y, Lin J, Liu C, Li J, Yamauchi Y (2018) Metal–organic framework-derived one-dimensional porous or hollow carbon-based nanofibers for energy storage and conversion. Mater Horiz 5:394–407

Wei Q, Xiong F, Tan S, Huang L, Lan EH, Dunn B, Mai L (2017) Energy storage: porous one‐dimensional nanomaterials: design, fabrication and applications in electrochemical energy storage. Adv Mater. https://doi.org/10.1002/adma.201602300

Wu XL, Jiang LY, Cao FF, Guo YG, Wan LJ (2009) LiFePO₄ nanoparticles embedded in a nanoporous carbon matrix: superior cathode material for electrochemical energy-storage devices. Adv Mater 21(25–26):2710–2714

Wu LC, Chen YJ, Mao ML, Li QH, Zhang M (2014) Facile Synthesis of spike-piece-structured Ni(OH)2 interlayer nanoplates on nickel foam as advanced pseudocapacitive materials for energy storage. ACS Appl Mater Interf 6(7):5168–5174

Wu S, Xu R, Lu M, Ge R, Iocozzia J, Han C, Jiang B, Lin Z (2015) Graphene-containing nanomaterials for lithium-ion batteries. Adv Energy Mater. https://doi.org/10.1002/aenm.201500400CrossRef

Wu Q, Yang L, Wang X, Hu Z (2017) From carbon-based nanotubes to nanocages for advanced energy conversion and storage. Acc Chem Res 50(2):435–444PubMed

Xin YC, Perumal A, Bruno A, Yantara N, Veldhuis S, Martinezsarti L, Chandran B, Chirvony VS, Lo SZA, So J (2018) Self-assembled hierarchical nanostructured perovskites enable highly efficient LEDs via energy cascade. Energy Environ Sci 11:1770–1778

Xing J, Yan F, Zhao Y, Chen S, Yu H, Zhang Q, Zeng R, Demir HV, Sun X, Huan A (2016) High-efficiency light-emitting diodes of organometal halide perovskite amorphous nanoparticles. ACS Nano 10(7):6623–6630PubMed

Zalfani M, van der Schueren B, Mahdouani M, Bourguiga R, Yu W-B, Wu M, Deparis O, Li Y, Su B-L (2016) ZnO quantum dots decorated 3DOM TiO₂ nanocomposites: symbiose of quantum size effects and photonic structure for highly enhanced photocatalytic degradation of organic pollutants. Appl Catal B 199:187–198

Zhang H (2015) Ultrathin two-dimensional nanomaterials. ACS nano 9(10):9451–9469PubMed

Zhang A, Lieber CM (2015) Nano-bioelectronics. Chem Rev 116(1):215–257PubMedPubMedCentral

Zhang Q, Uchaker E, Candelaria SL, Cao G (2013) Nanomaterials for energy conversion and storage. Chem Soc Rev 42(7):3127–3171PubMed

Zhang J, Zhao Z, Xia Z, Dai L (2015a) A metal-free bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions. Nat Nanotechnol 10(5):444

Zhang X, Wang K, Liu M, Zhang X, Tao L, Chen Y, Wei Y (2015b) Polymeric AIE-based nanoprobes for biomedical applications: recent advances and perspectives. Nanoscale 7(27):11486–11508

Zhang H, Yun Q, Lu Q, Zhang X, Tan C (2017) Three-dimensional architectures constructed from transition metal dichalcogenide nanomaterials for electrochemical energy storage and conversion. Angew Chem. https://doi.org/10.1002/anie.201706426CrossRef

Zhao B, Jiang S, Su C, Cai R, Ran R, Tadé MO, Shao Z (2013) A 3D porous architecture composed of TiO₂ nanotubes connected with a carbon nanofiber matrix for fast energy storage. J Mater Chem A 1(39):12310–12320

Zhao Z, Li M, Zhang L, Dai L, Xia Z (2015) Design principles for heteroatom-doped carbon nanomaterials as highly efficient catalysts for fuel cells and metal–air batteries. Adv Mater 27(43):6834–6840PubMed

Zhu C, Yang G, Li H, Du D, Lin Y (2014) Electrochemical sensors and biosensors based on nanomaterials and nanostructures. Anal Chem 87(1):230–249PubMedPubMedCentral

Title: Introduction
Authors: Huan Pang
Xiaoyu Cao
Limin Zhu
Mingbo Zheng
Publisher: Springer Singapore
Book: Synthesis of Functional Nanomaterials for Electrochemical Energy Storage
Print ISBN: 978-981-13-7371-8

Electronic ISBN: 978-981-13-7372-5

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-13-7372-5_1