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Journal of Experimental Nanoscience Volume 15, 2020 - Issue 1
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Article

BNPs@Cur-Pd as a versatile and recyclable green nanocatalyst for Suzuki, Heck and Stille coupling reactions

Muhammed Ali Janib Nanoscience and Nanotechnology Research Center (NNRC), Razi University, Kermanshah, IranView further author information
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Kiumars Bahramia Department of Organic Chemistry, Faculty of Chemistry, Razi University, Kermanshah, Iran;b Nanoscience and Nanotechnology Research Center (NNRC), Razi University, Kermanshah, IranCorrespondence[email protected] [email protected]
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Pages 182-201 | Received 15 Nov 2019, Accepted 18 Apr 2020, Published online: 19 May 2020

References

  • Tobisu M, Xu T, Shimasaki T, et al. Nickel-catalyzed Suzuki–Miyaura reaction of aryl fluorides. J Am Chem Soc. 2011;133(48):19505–19511..
  • Bahrami K, Nakhjiri Kamrani S. Synthesis, characterization and application of graphene palladium porphyrin as a nanocatalyst for the coupling reactions such as: Suzuki‐Miyaura and Mizoroki‐Heck. Appl Organometal Chem. 2018;32(2):e4102..
  • Bahrami K, Targhan H. A new strategy to design a graphene oxide supported palladium complex as a new heterogeneous nanocatalyst and application in carbon–carbon and carbon‐heteroatom cross‐coupling reactions. Appl Organometal Chem. 2019;33(4):e4842..
  • Li JH, Liang Y, Xie YY. An efficient Stille cross-coupling reaction catalyzed by Pd (OAc) 2/DAB-Cy catalytic system. Tetrahedron. 2005;61(30):7289–7293..
  • Targhan H, Hassanpour A, Bahrami K. Highly efficient polymer‐stabilized palladium heterogeneous catalyst: Synthesis, characterization and application for Suzuki–Miyaura and Mizoroki–Heck coupling reactions. Appl Organometal Chem. 2019;33(10):e5121..
  • Kantam ML, Srinivas P, Yadav J, et al. Trifunctional N, N, O-terdentate amido/pyridyl carboxylate ligated Pd (II) complexes for Heck and Suzuki reactions. J Org Chem. 2009;74(13):4882–4885..
  • Bahrami K, Khodaei MM, Meibodi FS. Suzuki and Heck cross‐coupling reactions using ferromagnetic nanoparticle‐supported palladium complex as an efficient and recyclable heterogeneous nanocatalyst in sodium dodecylsulfate micelles. Appl Organometal Chem. 2017;31(6):e3627..
  • Ghorbani-Choghamarani A, Tahmasbi B, Moradi P. Palladium–S‐propyl‐2‐aminobenzothioate immobilized on Fe3O4 magnetic nanoparticles as catalyst for Suzuki and Heck reactions in water or poly (ethylene glycol). Appl Organometal Chem. 2016;30(6):422–430..
  • Karimi B, Fadavi Akhavan PA. novel water-soluble NHC-Pd polymer: an efficient and recyclable catalyst for the Suzuki coupling of aryl chlorides in water at room temperature. Chem Commun. 2011;47(27):7686–7688..
  • Rostamnia S, Xin H. Pd (OAc) 2@ SBA‐15/PrEn nanoreactor: a high active, reusable and selective phosphine‐free catalyst for Suzuki–Miyaura cross-coupling reaction in aqueous media. Appl Organometal Chem. 2013;27(6):348–352..
  • Zhang R, Ding W, Tu B, et al. Mesoporous silica: an efficient nanoreactor for liquid − liquid biphase reaction. Chem Mater. 2007;19(18):4379–4381..
  • Mandal S, Roy D, Chaudhari RV, et al. Pt and Pd nanoparticles immobilized on amine-functionalized zeolite: excellent catalysts for hydrogenation and heck reaction. Chem Mater. 2004;16(19):3714–3724..
  • Wu CD, Hu A, Zhang L, et al. A homochiral porous metal − organic framework for highly enantioselective heterogeneous asymmetric catalysis. J Am Chem Soc. 2005;127(25):8940–8941..
  • Pan X, Fan Z, Chen W, et al. Enhanced ethanol production inside carbon-nanotube reactors containing catalytic particles. Nat Mater. 2007;6(7):507–511..
  • Castillejos E, Debouttiere PJ, Roiban L, et al. An efficient strategy to drive nanoparticles into carbon nanotubes and the remarkable effect of confinement on their catalytic performance. Angew Chem Int Ed. 2009;48(14):2529–2533..
  • Bai L, Wang JX. Reusable, polymer‐supported, palladium‐catalyzed, atom-efficient coupling reaction of aryl halides with sodium tetraphenylborate in water by focused microwave irradiation. Adv Synth Catal. 2008;350(2):315–320..
  • Rajabi L, Derakhshan AA. Room temperature synthesis of boehmite and crystallization of nanoparticles: effect of concentration and ultrasound. Sci Adv Mat. 2010;2(2):163–172..
  • Liu J, Liao X, Shi B. Pd nanoparticles immobilized on boehmite by using tannic acid as structure-directing agent and stabilizer: a high performance catalyst for hydrogenation of olefins. Res Chem Intermed. 2014;40(1):249–258. https://doi.org/10.1007/s11164-012-0959-1.
  • Ghorbani-Choghamarani A, Tahmasbi B, Arghand F, et al. Nickel Schiff-base complexes immobilized on boehmite nanoparticles and their application in the oxidation of sulfides and oxidative coupling of thiols as novel and reusable nano organometal catalysts. RSC Adv. 2015;5(112):92174–92183..
  • Bahrami K, Khodamorady M. Reusable BNPs‐SiO2@(CH2) 3NHSO3H‐catalysed selective oxidation of sulfides to sulfone. Appl Organometal Chem. 2018;32(12):e4553.
  • Mirzaee M, Bahramian B, Amoli A. Schiff base‐functionalized boehmite nanoparticle‐supported molybdenum and vanadium complexes: efficient catalysts for the epoxidation of alkenes. Appl Organometal Chem. 2015;29(9):593–600..
  • Khodamorady M, Bahrami K. Design of BNPs-TAPC palladium complex as a reusable heterogeneous nanocatalyst for the O-arylation of phenols and N-arylation of amines. Catal Lett. 2019;149(3):688–698..
  • Bahrami K, Khodaei MM, Roostaei M. The preparation and characterization of boehmite nanoparticles-TAPC: a tailored and reusable nanocatalyst for the synthesis of 12-aryl-8, 9, 10, 12-tetrahydrobenzo [a] xanthen-11-ones. New J Chem. 2014;38(11):5515–5520..
  • Khodamorady M, Bahrami K. Fe3O4@ BNPs‐CPTMS‐Chitosan‐Pd (0) as an efficient and stable heterogeneous magnetic nanocatalyst for the chemoselective oxidation of alcohols and homoselective synthesis of 5‐subestituted 1H‐tetrazoles. Chemistryselect. 2019;4(28):8183–8194..
  • Ghorbani-Choghamarani A, Tahmasbi B, Moradi P. Synthesis of a new Pd (0)-complex supported on boehmite nanoparticles and study of its catalytic activity for Suzuki and Heck reactions in H2O or PEG. RSC Adv. 2016;6(49):43205–43216..
  • Ghorbani-Choghamarani A, Derakhshan AA, Hajjami M, et al. Palladium-alumoxane framework as a novel and reusable nanocatalyst for Suzuki–Miyaura, Stille and Heck cross coupling reactions. Catal Lett. 2017;147(1):110–127..
  • Ghorbani-Choghamarani A, Derakhshan AA, Hajjami M, et al. Copper–Schiff base alumoxane: a new and reusable mesoporous nano catalyst for Suzuki–Miyaura and Stille C–C cross-coupling reactions. RSC Adv. 2016;6(97):94314–94324..
  • Ahamefula I, Onwuka GI, Chibuzo N. Nutritional composition of Tumeric (Curcuma longa) and its antimicrobial properties. Int J Sci Eng Res. 2014;5:1085–1089.
  • Manolova Y, Deneva V, Antonov L, et al. The effect of the water on the curcumin tautomerism: A quantitative approach. Spectrochim Acta Part A: Mol Biomol Spectrosc. 2014;132:815–820..
  • Yadav RP, Tarun G. Versatility of turmeric: A review the golden spice of life. J Pharmacogn Phytochem. 2017;6:41–46.
  • Shrishail D, Handral HK, Ravichandra Tulsianand HG, et al. Turmeric: Nature’s precious medicine. Asian J Pharm Clin Res. 2013;6:10–16.
  • Takada Y, Bhardwaj A, Potdar P, et al. Nonsteroidal anti-inflammatory agents differ in their ability to suppress NF-κB activation, inhibition of expression of cyclooxygenase-2 and cyclin D1, and abrogation of tumor cell proliferation. Oncogene. 2004;23(57):9247–9258.,.
  • Bhange DS, Rasal NK, Sonawane RB, et al. Application of Curcumin as ligand in [Pd (Curc‐H) 2] catalyst for Carbon‐Carbon bond formation in Heck and Suzuki coupling reactions. Chemistryselect. 2018;3(40):11230–11235..
  • Cui HJ, Shi JW, Yuan B, et al. Synthesis of porous magnetic ferrite nanowires containing Mn and their application in water treatment. J Mater Chem A. 2013;1(19):5902–5907..
  • Peng YY, Liu J, Lei X, et al. Room-temperature highly efficient Suzuki–Miyaura reactions in water in the presence of Stilbazo. Green Chem. 2010;12(6):1072–1075..
  • Ghorbani‐Choghamarani A, Tahmasbi B, Moradi Z. Benzylisothiourea complex of palladium on magnetic nanoparticles: A highly efficient and reusable nanocatalyst for synthesis of polyhydroquinolines and Suzuki reaction. Appl Organometal Chem. 2017;31(8):e3665..
  • Ghorbani-Choghamarani A, Moradi P, Tahmasbi B. Modification of boehmite nanoparticles with Adenine for the immobilization of Cu (II) as organic–inorganic hybrid nanocatalyst in organic reactions. Polyhedron. 2019;163:98–107..
  • Ghorbani-Choghamarani A, Norouzi M. Palladium supported on modified magnetic nanoparticles: a phosphine‐free and heterogeneous catalyst for Suzuki and Stille reaction. Appl Organometal Chem. 2016;30(3):140–147..
  • Ghorbani‐Choghamarani A, Tahmasbi B, Noori N, et al. Pd–S-methylisothiourea supported on magnetic nanoparticles as an efficient and reusable nanocatalyst for Heck and Suzuki reactions. C R Chimie. 2017;20(2):132–139..
  • Nikoorazm M, Ghorbani-Choghamarani A, Panahi A, et al. Pd (0)-Schiff-base@ MCM-41 as high-efficient and reusable catalyst for C–C coupling reactions. J Iran Chem Soc. 2018;15(1):181–189..
  • Chen T, Gao J, Shi M. A novel tridentate NHC–Pd (II) complex and its application in the Suzuki and Heck-type cross-coupling reaction. Tetrahedron. 2006;62(26):6289–6294..
  • Mohammadinezhad A, Akhlaghinia B. Fe3O4@ Boehmite-NH 2-Co II NPs: an inexpensive and highly efficient heterogeneous magnetic nanocatalyst for the Suzuki–Miyaura and Heck–Mizoroki cross-coupling reaction. Green Chem. 2017;19(23):5625–5641..
  • Ghorbani‐Choghamarani A, Tahmasbi B, Noori N, et al. A new palladium complex supported on magnetic nanoparticles and applied as an catalyst in amination of aryl halides, Heck and Suzuki reactions. J Iran Chem Soc. 2017;14(3):681–693..
  • Islam SM, Roy AS, Mondal P, Salam N. Selective hydrogenation and Suzuki cross‐coupling reactions of various organic substrates using a reusable polymer‐anchored palladium (II) Schiff base complex. Appl Organometal Chem. 2012;26(11):625–634..
  • Ghorbani-Choghamarani A, Rabiei H. Synthesis, characterization, and application of palladium-dithizone immobilized on magnetic nanoparticles as an efficient and recoverable catalyst for Suzuki type coupling reactions. Tetrahedron Lett. 2016;57(1):159–162..
  • Rostamnia S, Doustkhah E, Zeynizadeh B. Cationic modification of SBA-15 pore walls for Pd supporting: Pd@ SBA-15/ILDABCO as a catalyst for Suzuki coupling in water medium. Microporous Mesoporous Mater. 2016;222:87–93..
  • Wang HB, Zhang YH, Yang HL, et al. Palladium immobilized in the nanocages of SBA-16: An efficient and recyclable catalyst for Suzuki coupling reaction. Microporous Mesoporous Mater. 2013;168:65–72..
  • Nasrollahzadeh M, Sajadi SM, Maham M. Green synthesis of palladium nanoparticles using Hippophae rhamnoides Linn leaf extract and their catalytic activity for the Suzuki–Miyaura coupling in water. J Mol Catal A Chem. 2015;396:297–303..
  • Faria VW, Oliveira DGM, Kurz MHS, et al. Palladium nanoparticles supported in a polymeric membrane: an efficient phosphine-free “green” catalyst for Suzuki–Miyaura reactions in water. RSC Adv. 2014;4(26):13446–13452..
  • Nasrollahzadeh M, Azarian A, Maham M, et al. Synthesis of Au/Pd bimetallic nanoparticles and their application in the Suzuki coupling reaction. J Ind Eng Chem. 2015;21:746–748..

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