Synthesis of biologically active dihydroquinazolinone catalyzed by the micro–meso-composite of zeolite H-BEA

[1]  Zenglai Xu,et al.  5,5’-Indigodisulfonic acid as an efficient catalyst for the synthesis of 2,3-dihydroquinazolinone derivatives , 2022, Synthetic Communications.

[2]  B. Kutepov,et al.  Synthesis of Quinolines by the Skraup Reaction: Hierarchical Zeolites vs Microporous Zeolites , 2022, ChemistrySelect.

[3]  C. F. Imbachí-Gamba,et al.  Hydrolysis of Limonene Epoxide over Hierarchical Zeolites , 2022, Catalysis Letters.

[4]  A. Ghorbani‐Choghamarani,et al.  Mesoporous SBA-15@n-Pr-THAM-ZrO organic–inorganic hybrid: as a highly efficient reusable nanocatalyst for the synthesis of polyhydroquinolines and 2,3-dihydroquinazolin-4 (1h)-ones , 2021, Journal of Porous Materials.

[5]  F. Mumtaz,et al.  Synthesis methods and recent advances in hierarchical zeolites: a brief review , 2021, Journal of the Iranian Chemical Society.

[6]  K. Maheria,et al.  Solid Acid-Catalyzed Esterification of Levulinic Acid for Production of Value-Added Chemicals , 2021 .

[7]  R. Ghorbani‐Vaghei,et al.  Preparation and Application of Highly Efficient and Reusable Nanomagnetic Catalyst Supported with Sulfonated-Hexamethylenetetramine for Synthesis of 2,3-Dihydroquinazolin-4(1H)-Ones , 2020, Polycyclic Aromatic Compounds.

[8]  A. Dalai,et al.  TTAB mediated synthesis of Meso-H-BEA and its application in the production of n-butyl levulinate , 2020 .

[9]  M. G. D’Oca,et al.  Heterogeneous gold nanocatalyst applied in the synthesis of 2-aryl-2,3-dihydroquinazolin-4(1H)-ones , 2020 .

[10]  P. Ghosh,et al.  Ascorbic Acid as an Efficient Organocatalyst for the Synthesis of 2‐Substituted‐2,3‐dihydroquinazolin‐4(1 H )‐one and 2‐Substituted Quinazolin‐4(3 H )‐one in Water , 2020, ChemistrySelect.

[11]  B. F. Mirjalili,et al.  Synthesis of 2,3‐dihydroquinazolin‐4(1 H )‐ones in the presence of Fe 3 O 4 @nano‐cellulose–OPO 3 H as a bio‐based magnetic nanocatalyst , 2020 .

[12]  A. Dalai,et al.  Synthesis of n-Butyl Levulinate Using Mesoporous Zeolite H-BEA Catalysts with Different Catalytic Characteristics , 2019, Catalysis Letters.

[13]  Guo‐Li Huang,et al.  Phosphomolybdic Acid (PMA)-catalyzed One-pot Synthesis of 2,3- Dihydroquinazolines , 2019, Letters in Organic Chemistry.

[14]  F. Mondragón,et al.  Generation of hierarchical porosity in beta zeolite by post-synthesis treatment with the cetyltrimethylammonium cationic surfactant under alkaline conditions , 2019, Microporous and Mesoporous Materials.

[15]  Li Xiaochuan,et al.  Alkylamino-Directed One-Pot Reaction of N -Alkyl Anilines with CO, Amines and Aldehydes Leading to 2,3-Dihydroquinazolin-4(1H )-ones , 2019, Advanced Synthesis & Catalysis.

[16]  M. Kazemi,et al.  Sulfamic acid immobilized on amino‐functionalized magnetic nanoparticles: A new and active magnetically recoverable catalyst for the synthesis of N‐heterocyclic compounds , 2018 .

[17]  B. Satpati,et al.  Natural Template Mediated Sustainable Synthesis of Nanocrystalline Zeolite with Significantly Improved Catalytic Activity , 2017 .

[18]  K. Góra-Marek,et al.  Alkaline-acid treated zeolite L as catalyst in ethanol dehydration process , 2017 .

[19]  M. Klein,et al.  Discovery and optimization of 1,7-disubstituted-2,2-dimethyl-2,3-dihydroquinazolin-4(1H)-ones as potent and selective PKCθ inhibitors. , 2016, Bioorganic & medicinal chemistry.

[20]  M. Maghsoodlou,et al.  Green protocol for synthesis of 2,3-dihydroquinazolin-4(1H)-ones: lactic acid as catalyst under solvent-free condition , 2016, Research on Chemical Intermediates.

[21]  A. Ghorbani‐Choghamarani,et al.  Green synthesis of tri/tetrasubstituted 1H-imidazoles and 2,3-dihydroquinazolin-4(1H)-ones using nano aluminium nitride as solid source of ammonia , 2015, Journal of Chemical Sciences.

[22]  V. Bokade,et al.  Esterification of Renewable Levulinic Acid to n‐Butyl Levulinate over Modified H‐ZSM‐5 , 2015 .

[23]  F. Štěpánek,et al.  Yeast cells as macropore bio-templates enhancing transport properties and conversions in coated catalyst layers for exhaust gas oxidation , 2014 .

[24]  Yangmin Ma,et al.  CuO nanoparticles catalyzed simple and efficient synthesis of 2,3-dihydroquinazolin-4(1H)-ones and quinazolin-4(3H)-ones under ultrasound irradiation in aqueous ethanol under ultrasound irradiation in aqueous ethanol , 2014 .

[25]  M. Ghashang,et al.  Synthesis of 2,3-dihydroquinazolin-4(1H)-ones catalyzed by succinimide-N-sulfonic acid as a mild and efficient catalyst , 2015, Research on Chemical Intermediates.

[26]  A. Dalai,et al.  Esterification of Levulinic Acid to n-Butyl Levulinate Over Various Acidic Zeolites , 2013, Catalysis Letters.

[27]  Yuan Ma,et al.  Synthesis of macro-mesoporous alumina with yeast cell as bio-template , 2013 .

[28]  L. Mafra,et al.  Structural Characterization of Zeolites by Advanced Solid State NMR Spectroscopic Methods , 2012 .

[29]  C. Christensen,et al.  Catalysis with hierarchical zeolites , 2011 .

[30]  Yan Zhao,et al.  Highly efficient synthesis of 2,3-dihydroquinazolin-4(1H)-ones catalyzed by heteropoly acids in water , 2010 .

[31]  A. Fakhari,et al.  Highly efficient solvent-free synthesis of quinazolin-4(3H)-ones and 2,3-dihydroquinazolin-4(1H)-ones using tetrabutylammonium bromide as novel ionic liquid catalyst , 2010 .

[32]  Y. Yue,et al.  Ordered hierarchical mesoporous anatase TiO2 from yeast biotemplates. , 2009, Colloids and surfaces. B, Biointerfaces.

[33]  B. Bai,et al.  A novel yeast bio-template route to synthesize Cr2O3 hollow microspheres , 2009 .

[34]  S. Dakshanamurthy,et al.  Asymmetric synthesis of 2,3-dihydro-2-arylquinazolin-4-ones: methodology and application to a potent fluorescent tubulin inhibitor with anticancer activity. , 2008, Journal of medicinal chemistry.

[35]  I. Sreedhar,et al.  Behavior of a Deactivating HZSM-5 with Varying Al3+ Content in Vapor Phase Aminocyclization , 2008 .

[36]  I. Sreedhar,et al.  Interrelationship of process parameters in vapor phase pyridine synthesis , 2008 .

[37]  Zifeng Yan,et al.  Synthesis and characterization of MCM-41-type composite materials prepared from ZSM-5 zeolite , 2008 .

[38]  V. Solomon,et al.  Synthesis and pharmacological investigation of novel 4-benzyl-1-substituted-4H-[1,2,4]triazolo[4,3-a]quinazolin-5-ones as new class of H1-antihistaminic agents. , 2007, Bioorganic & medicinal chemistry.

[39]  S. D. Samant,et al.  Expeditious One‐Pot and Solvent‐Free Synthesis of Dihydroquinazolin‐4(1H)‐ones in the Presence of Microwaves , 2007 .

[40]  W. Su,et al.  A facile synthesis of 2,3-dihydro-2-aryl-4(1H)-quinazolinones catalyzed by scandium(III) triflate , 2007 .

[41]  P. Borges,et al.  Correlating NH3-TPD and 1H MAS NMR measurements of zeolite acidity: proposal of an acidity scale , 2005 .

[42]  Takashi Atoguchi,et al.  Phenol oxidation over alkaline earth metal ion exchange beta zeolite in the presence of ketone , 2004 .

[43]  G. Kukreja,et al.  Nickel boride mediated reductive desulfurization of 2‐thioxo‐4(3H)‐quinazolinones: A new synthesis of quinazolin‐4(3H)‐ones and 2,3‐dihydro‐4(1H)‐quinazolinones , 2003 .

[44]  M. Ogura,et al.  Formation of uniform mesopores in ZSM-5 zeolite through treatment in alkaline solution , 2000 .

[45]  P. Grobet,et al.  Reversible Tetrahedral−Octahedral Framework Aluminum Transformation in Zeolite Y , 1998 .

[46]  T. Tatsumi,et al.  Vapour phase Beckmann rearrangement of cyclohexanone oxime catalysed by H? zeolite , 1996 .

[47]  G. Bellussi,et al.  Liquid-Phase Alkylation of Benzene with Light Olefins Catalyzed by β-Zeolites , 1995 .

[48]  H. V. Bekkum,et al.  The use of zeolites in organic reactions , 1990 .

[49]  G. J. Sutherland,et al.  Reactions of anthranilamide and o-aminoacetophenone with benzil and benzoin , 1969 .

[50]  Roberts,et al.  High Resolution Solid-State NMR of Silicates and Zeolites , 2022 .