Inorganic Chemicals Industry ›› 2024, Vol. 56 ›› Issue (3): 19-27.doi: 10.19964/j.issn.1006-4990.2023-0374
• Reviews and Special Topics • Previous Articles Next Articles
Review on application of new types of chemical reactors in preparation of nanoparticles
WANG Minjuan(
), WANG Chongqing()
- Nanjing Tech University State Key Laboratory of Materials-Oriented Chemical Engineering,Nanjing 211816,China
-
Received:2023-07-14Online:2024-03-10Published:2024-03-14 -
Contact:WANG Chongqing E-mail:wangminjuan@njtech.edu.cn;cqw@njtech.edu.cn
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Cite this article
WANG Minjuan, WANG Chongqing. Review on application of new types of chemical reactors in preparation of nanoparticles[J]. Inorganic Chemicals Industry, 2024, 56(3): 19-27.
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Fig.1
Schematic diagram of rotating disc reactor(a),rotating packed-bed reactor(b)and device forpreparing monodisperse MgAl-LDH nanoparticles(c)[28]"
Fig.1
Fig.2
Structure diagram of novel high-shearagitation reactor [26]"
Fig.2
Fig.3
Diagram of kuait-taylor reactor for preparationof copper sulfide nanoparticles[30]"
Fig.3
Fig.4
Preparation flow chart of BaSO4 nanoparticles[36-37]"
Fig.4
Fig.5
PDMS chip reactor with T-shaped microchannel device diagram(a) and synthesis schematic diagramof Ag3PO4 nanoparticle(b)[38]"
Fig.5
Fig.6
Synthesis microreactor device diagramof core-shell TiO2 nanoparticles[39]"
Fig.6
Fig.7
Diagram of flow focusing microreactorwith Co3O4@SiO2 core-shell structure[40]"
Fig.7
Fig.8
Structural diagram of high-temperaturehorizontal reactor[44]"
Fig.8
Fig.9
Structural diagram of laser vaporization flow reactor[45]"
Fig.9
Fig.10
Structural diagram of aerosol reactor[46]"
Fig.10
Fig.11
Structural diagram of continuous flow nonthermal plasma reactor[44]"
Fig.11
| 1 | HAKKE V, SONAWANE S, ANANDAN S,et al.Process intensification approach using microreactors for synthesizing nanomateri-als:A critical review[J].Nanomaterials,2021,11(1):11010098. |
| 2 | FASSI B, DRIZ S, AL-DOURI Y,et al.Optical investigations of Cu2CdSnS4 quaternary alloy nanostructure for indoor optical wireless communications[J].Optics Communications,2022,517:128351. |
| 3 | WU Shihao, LI Gang, LIU Wenxia,et al.Fabrication of polyethyleneimine-paper composites with improved tribopositivity for triboelectric nanogenerators[J].Nano Energy,2022,93:106859. |
| 4 | ZHANG Jialu, SHEN Cheng, DIAO Guangfen.Application and microstructure properties of nanomaterials in new concrete materi-als[J].Journal of Nanomaterials,2022,2022:1-10. |
| 5 | WAZALWAR R, SAHU M, RAICHUR A M.Mechanical properties of aerospace epoxy composites reinforced with 2D nano-fillers:Current status and road to industrialization[J].Nanoscale Advances,2021,3(10):2741-2776. |
| 6 | ZHANG Yinfeng, WANG Tingting, SUN Meng,et al.Advanced nanomedicine:Redefining therapeutic paradigms for inflammatory bowel disease[J].Advanced Healthcare Materials,2023,12(19):2300069. |
| 7 | ISLAM M H, AFROJ S, UDDIN M A,et al.Graphene and CNT-based smart fiber-reinforced composites:A review[J].Advanced Functional Materials,2022,32(40):2205723. |
| 8 | CHEN Xiaoyu, WANG Zumin, WEI Yanze,et al.High phase-purity 1T-MoS2 ultrathin nanosheets by a spatially confined templa-te[J].Angewandte Chemie International Edition,2019,58(49):17621-17624. |
| 9 | CAI Yahui, MA Shuyi, YANG Tingting,et al.Preparation of YVO4 octahedral nanomaterials and gas-sensing characteristics to triethylamine[J].Journal of Alloys and Compounds,2022,897:163167. |
| 10 | PU Houkang, ZHANG Te, DONG Kaiyu,et al.Evolution of PtCu tripod nanocrystals to dendritic triangular nanocrystals and study of the electrochemical performance to alcohol electrooxidation[J].Nanoscale,2021,13(48):20592-20600. |
| 11 | PHAM V H, QUAN D H, MANH N T,et al.Microstructure and luminescence of VO2(B) nanoparticle synthesis by hydrothermal method[J].Green Processing and Synthesis,2019,8(1):802- 807. |
| 12 | POLYAKOV M N, SCHOEPPNER R L, PETHÖ L,et al.Direct co-deposition of mono-sized nanoparticles during sputtering[J].Scripta Materialia,2020,186:387-391. |
| 13 | SINGH M, PANDEY A, SINGH S,et al.Iron nanoparticles decorated hierarchical carbon fiber forest for the magnetic solid-phase extraction of multi-pesticide residues from water samples[J].Chemosphere,2021,282:131058. |
| 14 | ISHII K, KAWAYAMA K, FUMOTO K.Synthesis and evaluation of high thermal conductivity magnetic heat storage inorganic microcapsules simultaneously containing gallium and magnetic nanoparticles by sol-gel method[J].Journal of Energy Storage,2023,59:106426. |
| 15 | MORÁN D, GUTIÉRREZ G, MENDOZA R,et al.Synthesis of controlled-size starch nanoparticles and superparamagnetic st-arch nanocomposites by microemulsion method[J].Carbohydrate Polymers,2023,299:120223. |
| 16 | DANG Lehang, VU M T, CHEN Jun,et al.Effect of ultrasonication on self-assembled nanostructures formed by amphiphilic positive-charged copolymers and negative-charged drug[J].ACS Omega,2019,4(3):4540-4552. |
| 17 | MAASS D, VALÉRIO A, LOURENÇO L A,et al.Biosynthesis of iron oxide nanoparticles from mineral coal tailings in a stirred tank reactor[J].Hydrometallurgy,2019,184:199-205. |
| 18 | JIANG Pengfei, KIM W S, YU T.Effective dispersion of CuPd alloy nanoparticles using the Taylor vortex flow for the preparation of catalysts with relatively clean surfaces[J].ACS Applied Nano Materials,2022,5(7):9604-9614. |
| 19 | CHEN Bingda, QIN Feifei, SU Meng,et al.One droplet reaction for synthesis of multi-sized nanoparticles[J].Nano Research,2023,16(4):5850-5856. |
| 20 | LARREA A, EGUIZABAL A, SEBASTIÁN V.Gas-directed production of noble metal-magnetic heteronanostructures in continuous fashion:Application in catalysis[J].ACS Applied Materials & Interfaces,2019,11(46):43520-43532. |
| 21 | FAN Wenting, ZHAO Fang, CHEN Ming,et al.An efficient microreactor with continuous serially connected micromixers for the synthesis of superparamagnetic magnetite nanoparticles[J].Chinese Journal of Chemical Engineering,2023. Doi:10.1016/j.cjche.2022.12.008. |
| 22 | SAIKIA A, NEWAR R,DAS S,et al.Scopes and challenges of microfluidic technology for nanoparticle synthesis,photocatalysis and sensor applications:A comprehensive review[J].Chemical Engineering Research and Design,2023,193:516-539. |
| 23 | JU Ting, ZHANG Zhiliang, LI Yang,et al.Continuous production of lignin nanoparticles using a microchannel reactor and its application in UV-shielding films[J].RSC Advances,2019,9(43):24915-24921. |
| 24 | CHAUDHURI A, TEMELLI E B, HOP C J W,et al.Transesterification of triglycerides in a rotor-stator spinning disc reactor:Scale-up and solid handling[J].Industrial & Engineering Chemistry Research,2022,61(20):6831-6844. |
| 25 | LIN C C, ZHONG Yuhong.Degradation of Orange G in water by nano-Cu0/H2O2 process with nano-Cu0 synthesized in a rotating packed bed with blade packings[J].Materials Chemistry and Physics,2023,295:127097. |
| 26 | SUDA A, KUMATANI N, SATO K,et al.Continuous fabrication of monodisperse ceria-zirconia-yttria composite oxide nanoparticles using a novel high-shear agitation reactor[J].ACS Omega,2018,3(6):6560-6565. |
| 27 | HOSOYA M, MANAKA A, NISHIJIMA S,et al.Development of a liquid-liquid biphasic reaction using a Taylor vortex flow reactor[J].Asian Journal of Organic Chemistry,2021,10(6):1414-1418. |
| 28 | CHEN Bo, SUN Qian, WANG Dan,et al.High-gravity-assisted synthesis of surfactant-free transparent dispersions of monodispersed MgAl-LDH nanoparticles[J].Industrial & Engineering Chemistry Research,2020,59(7):2960-2967. |
| 29 | JAHANSHAHI-ANBOOHI J, MOLAEI DEHKORDI A.Continuous synthesis of barium sulfate nanoparticles in a new high-speed spinning disk reactor[J].Industrial & Engineering Chemistry Research,2019,58(36):16597-16609. |
| 30 | TANG Zengmin, KIM W S, YU T.Studies on morphology changes of copper sulfide nanoparticles in a continuous Couette-Taylor reactor[J].Chemical Engineering Journal,2019,359:1436-1441. |
| 31 | RAN Jianfeng, WANG Xuxu, LIU Yuanhong,et al.Microreactor-based micro/nanomaterials:Fabrication,advances,and outlook[J].Materials Horizons,2023,10(7):2343-2372. |
| 32 | SUI Jinsong, YAN Junyu, LIU Di,et al.Continuous synthesis of nanocrystals via flow chemistry technology[J].Small,2021,17(33):e2104166. |
| 33 | PERIYASAMY M, SAHA A, SAIN S,et al.A comparative structural and photocatalytic study on SnO2 nanoparticles fabricated in batch reactor and microreactor[J].Journal of Environmental Chemical Engineering,2020,8(6):104604. |
| 34 | ARSENJUK L, VON VIETINGHOFF N, GLADIUS A W,et al.Actively homogenizing fluid distribution and slug length of liquid-liquid segmented flow in parallelized microchannels[J].Chemical Engineering and Processing-Process Intensification,2020,156:108061. |
| 35 | DU Le, WANG Yujun, WANG Kai,et al.Growth of aragonite CaCO3 whiskers in a microreactor with calcium dodecyl benzenesulfonate as a control agent[J].Industrial & Engineering Chemistry Research,2015,54(28):7131-7140. |
| 36 | SU Y F, KIM H, KOVENKLIOGLU S,et al.Continuous nanoparticle production by microfluidic-based emulsion,mixing and crystallization[J].Journal of Solid State Chemistry,2007,180(9):2625-2629. |
| 37 | 叶飞飞,张宝丹,靳海波,等.微通道反应器合成纳米BaSO4颗粒及其在干片多功能层上的应用[J].化工学报,2019,70(3):1179-1187. |
| YE Feifei, ZHANG Baodan, JIN Haibo,et al.Preparation of BaSO4 nanoparticles in microchannel reactor and its application in multifunctional layers of medical slices[J].CIESC Journal,2019,70(3):1179-1187. | |
| 38 | SINGH A, BARUAH A, KATOCH V,et al.Continuous flow synthesis of Ag3PO4 nanoparticles with greater photostability and photocatalytic dye degradation efficiency[J].Journal of Photochemistry and Photobiology A:Chemistry,2018,364:382-389. |
| 39 | CAMPBELL Z S, PARKER M, BENNETT J A,et al.Continuous synthesis of monodisperse yolk-shell titania microspheres[J].Chemistry of Materials,2018,30(24):8948-8958. |
| 40 | STRAß A, MAIER R, GÜTTEL R.Continuous synthesis of nanostructured Co3O4@SiO2 core-shell particles in a laminar-flow reactor[J].Chemie Ingenieur Technik,2017,89(7):963-967. |
| 41 | CHITHAIAH P, GHOSH S, IDELEVICH A,et al.Solving the “MoS2 nanotubes” synthetic enigma and elucidating the route for their catalyst-free and scalable production[J].ACS Nano,2020,14(3):3004-3016. |
| 42 | HUANG Yuanlong, COGGON M M, ZHAO Ran,et al.The caltech photooxidation flow tube reactor:Design,fluid dynamics and characterization[J].Atmospheric Measurement Techniques,2017,10(3):839-867. |
| 43 | KUWATA M, MARTIN S T.Particle size distributions following condensational growth in continuous flow aerosol reactors as derived from residence time distributions:Theoretical development and application to secondary organic aerosol[J].Aerosol Science and Technology,2012,46(8):937-949. |
| 44 | WOODARD A, XU Lihua, BARRAGAN A A,et al.On the non-thermal plasma synthesis of nickel nanoparticles[J].Plasma Processes and Polymers,2018,15(1):1700104. |
| 45 | WOODARD M P, DUNCAN M A.Laser synthesis and spectroscopy of molybdenum oxide nanorods[J].The Journal of Physical Chemistry C,2019,123(14):9560-9566. |
| 46 | HOU Ruozhou, MAHMUD T, PRODROMIDIS N,et al.Synthesis of UO2F2 nanoparticles in a tubular aerosol reactor:Reactor design and experimental investigations[J].Industrial & Engineering Chemistry Research,2007,46(7):2020-2033. |
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