Publikationer av Peter Dinér
Refereegranskade
Artiklar
[1]
J. Huang et al., "Correlation between Polymerization Rate, Mechanism, and Conformer Thermodynamic Stability in Urea/Methoxide-Catalyzed Polymerization of Macrocyclic Carbonates," Macromolecules, vol. 56, no. 18, s. 7496-7504, 2023.
[2]
C. Zhou et al., "Highly congested spiro-compounds via photoredox-mediated dearomative annulation cascade," Communications Chemistry, vol. 5, no. 1, 2022.
[3]
G. Proietti et al., "Nickel Boride Catalyzed Reductions of Nitro Compounds and Azides : Nanocellulose-supported Catalysts in Tandem Reactions," Synthesis (Stuttgart), vol. 54, no. 01, s. 133-146, 2022.
[4]
G. Proietti et al., "Accessing Perfluoroaryl Sulfonimidamides and Sulfoximines via Photogenerated Perfluoroaryl Nitrenes : Synthesis and Application as a Chiral Auxiliary," Journal of Organic Chemistry, vol. 86, no. 23, s. 17119-17128, 2021.
[5]
[6]
J. C. Zirignon et al., "Experimental review of PEI electrodeposition onto copper substrates for insulation of complex geometries," RSC Advances, vol. 11, no. 55, s. 34599-34604, 2021.
[7]
A. Shatskiy et al., "Stereoselective synthesis of unnatural α-amino acid derivatives through photoredox catalysis," Chemical Science, vol. 12, no. 15, s. 5430-5437, 2021.
[8]
J. Izquierdo et al., "Asymmetric Synthesis of Adjacent Tri- and Tetrasubstituted Carbon Stereocenters : Organocatalytic Aldol Reaction of an Hydantoin Surrogate with Azaarene 2-Carbaldehydes," Chemistry - A European Journal, 2019.
[9]
B. Blomkvist och P. Dinér, "Mild and Rapid Aniline/HBF4 center dot DEE-Catalysed Formation of Sulfinyl Imines," ChemistrySelect, vol. 4, no. 25, s. 7431-7436, 2019.
[10]
P. Josephson et al., "Student-Driven Development of Greener Chemistry in Undergraduate Teaching: Synthesis of Lidocaine Revisited," Journal of Chemical Education, 2019.
[11]
B. Blomkvist och P. Dinér, "HBF4 center dot DEE-catalyzed formation of sulfinyl imines : Synthesis and mechanistic studies," Tetrahedron Letters, vol. 59, no. 13, s. 1249-1253, 2018.
[12]
B. Timmer et al., "Simple and Effective Integration of Green Chemistry and Sustainability Education into an Existing Organic Chemistry Course," Journal of Chemical Education, vol. 95, no. 8, s. 1301-1306, 2018.
[13]
K. J. Prathap et al., "Catalytic Reductions and Tandem Reactions of Nitro Compounds Using in Situ Prepared Nickel Boride Catalyst in Nanocellulose Solution," Organic Letters, vol. 19, no. 18, s. 4746-4749, 2017.
[14]
L. Wang et al., "A Nickel (II) PY5 Complex as an Electrocatalyst for Water Oxidation," Journal of Catalysis, vol. 335, s. 72-78, 2016.
[15]
R. Hertzberg, P. Dinér och C. Moberg, "Palladium-Catalyzed C(sp3)–C(sp2) Cross-Couplings of O-(α-Bromoacyl) Cyanohydrins with Boronic Acids : An Entry to Enantioenriched N-Acylated β-Amino Alcohols," Synthesis (Stuttgart), vol. 48, no. 19, 2016.
[16]
[17]
L. Mesas-Sánchez och P. Dinér, "A Mechanistic Investigation of the Kinetic Resolution of Secondary Aromatic Alcohols Using a Ferrocene-Based Planar Chiral 4-(Dimethylamino)pyridine Catalyst," Chemistry - A European Journal, vol. 21, no. 14, s. 5623-5631, 2015.
[18]
C. Hamngren Blomqvist et al., "A Single-Cell Study of a Highly Effective Hog1 Inhibitor for in Situ Yeast Cell Manipulation," Micromachines, vol. 5, no. 1, s. 81-96, 2014.
[19]
A. E. Diaz-Alvarez, L. Mesas-Sanchez och P. Dinér, "Access to Optically Pure beta-Hydroxy Esters via Non-Enzymatic Kinetic Resolution by a Planar-Chiral DMAP Catalyst," Molecules, vol. 19, no. 9, s. 14273-14291, 2014.
[20]
P. Dinér, A. Sadhukhan och B. Blomkvist, "Chiral Sulfinamides as Highly Enantioselective Organocatalysts," ChemCatChem, vol. 6, no. 11, s. 3063-3066, 2014.
[21]
L. Mesas-Sanchez et al., "Kinetic resolution of 2-hydroxy-2-aryl-ethylphosphonates by a non-enzymatic acylation catalyst," Tetrahedron, vol. 70, no. 24, s. 3807-3811, 2014.
[22]
J. P. Alao et al., "Selective inhibition of RET mediated cell proliferation in vitro by the kinase inhibitor SPP86," BMC Cancer, vol. 14, no. 853, 2014.
[23]
J.-F. Poon et al., "Azastilbenes : a cut-off to p38 MAPK inhibitors," Organic and biomolecular chemistry, vol. 11, no. 27, 2013.
[24]
J. J. Verendel och P. Dinér, "Efficient, Low Temperature Production of Hydrogen from Methanol," ChemCatChem, vol. 5, no. 10, s. 2795-2797, 2013.
[25]
R. Amorati et al., "Multi-faceted reactivity of alkyltellurophenols towards peroxyl radicals : Catalytic antioxidant versus thiol-depletion effect," Chemistry - A European Journal, vol. 19, no. 23, s. 7510-7522, 2013.
[26]
A. E. Díaz-Álvarez, L. Mesas-Sánchez och P. Dinér, "Nichtenzymatische dynamische kinetische Racematspaltung sekundärer Arylalkohole : planar-chirale Ferrocen- und Rutheniumkatalysatoren im Zusammenspiel," Angewandte Chemie International Edition, vol. 125, no. 2, s. 522-524, 2013.
[27]
A. E. Díaz-Álvarez, L. Mesas Sanchez och P. Dinér, "Non-Enzymatic Dynamic Kinetic Resolution of Secondary Aryl Alcohols : Planar Chiral Ferrocene and Ruthenium Catalysts in Cooperation," Angewandte Chemie International Edition, vol. 52502-504, no. 2, s. 502-504, 2013.
[28]
L. Mesas-Sánchez, A. E. Díaz-Álvarez och P. Dinér, "Non-enzymatic kinetic resolution of 1,2-azidoalcohols using a planar-chiral DMAP derivative catalyst," Tetrahedron, vol. 69, no. 2, s. 753-757, 2013.
[29]
P. Dinér et al., "Preparation of 3-Substituted-1-Isopropyl-1H-pyrazolo 3,4-d pyrimidin-4-amines as RET Kinase Inhibitors," Journal of Medicinal Chemistry, vol. 55 4872-4876, no. 10, s. 4872-4876, 2012.
[30]
P. Dinér, "Superacid-Promoted Ionization of Alkanes Without Carbonium Ion Formation : A Density Functional Theory Study," Journal of Physical Chemistry A, vol. 116, no. 40, s. 9979-9984, 2012.
[31]
A. Dierckx et al., "Characterization of photophysical and base-mimicking properties of a novel fluorescent adenine analogue in DNA," Nucleic Acids Research, vol. 34, no. 10, s. 4513-4524, 2011.
[32]
C. Dyrager et al., "Design, synthesis, and biological evaluation of chromone-based p38 MAP kinase inhibitors," Journal of Medicinal Chemistry, vol. 54, 2011.
[33]
P. Dinér et al., "Design, synthesis, and characterization of a highly effective Hog1 inhibitor : a powerful tool for analyzing MAP kinase signaling in yeast," PLOS ONE, vol. 6, no. 5, 2011.
[34]
P. Dinér, "Catalytic asymmetric chiral lithium amide-promoted epoxide rearrangement : a NMR spectroscopic and kinetic investigation," Tetrahedron : asymmetry, vol. 21, no. 21-22, s. 2733-2739, 2010.
[35]
P. Dinér et al., "Short cut to 1,2,3-triazole-based p38 MAP kinase inhibitors via [3+2]-cycloaddition chemistry," New Journal of Chemistry, vol. 331010-1016, no. 5, s. 1010-1016, 2009.
[36]
C. Dyrager et al., "Synthesis and Photophysical Characterisation of Fluorescent 8-(1H-1,2,3-Triazol-4-yl)adenosine Derivatives," European Journal of Organic Chemistry, no. 10, s. 1515-1521, 2009.
[37]
M. Klein et al., "Synthesis of 3-(1,2,3-triazol-1-yl)- and 3-(1,2,3-triazol-4-yl)-substituted pyrazolo[3,4-d]pyrimidin-4-amines via click chemistry : potential inhibitors of the Plasmodium falciparum PfPK7 protein kinase," Organic and biomolecular chemistry, vol. 7, no. 17, s. 3421-3429, 2009.
[38]
M. Klein et al., "Synthesis of chiral 1,4-disubstituted-1,2,3-triazole derivatives from amino acids," Molecules, vol. 14, no. 12, s. 5124, 2009.
[39]
P. Dinér et al., "On the origin of the stereoselectivity in organocatalysed reactions with trimethylsilyl-protected Diarylprolinol," Chemistry - A European Journal, vol. 14, no. 1, s. 122-127, 2008.
[40]
S. Bertelsen et al., "Asymmetric organocatalytic beta-hydroxylation of alpha, beta-unsaturated aldehydes," Journal of the American Chemical Society, vol. 129 1536-1537, no. 6, s. 1536-1537, 2007.
[41]
P. Dinér et al., "Enantioselective hydroxylation of nitroalkenes : an organocatalytic approach," Chemical Communications, no. 35, s. 3646-3648, 2007.
[42]
P. Dinér et al., "Enantioselective organocatalytic conjugate addition of N heterocycles to alpha,beta-unsaturated aldehydes," Angewandte Chemie International Edition, vol. 46, no. 12, s. 1983-1987, 2007.
[43]
P. Dinér och M. Amedjkouh, "Aminophosphonates as organocatalysts in the direct asymmetric aldol reaction towards syn selectivity in the presence of Lewis bases," Organic and biomolecular chemistry, vol. 4, no. 11, s. 2091-2096, 2006.
[44]
S. Bertelsen et al., "Dienamine catalysis : organocatalytic asymmetric gamma-amination of alpha,beta-unsaturated aldehydes," Journal of the American Chemical Society, vol. 128, no. 39, s. 12973-12980, 2006.
[45]
P. Dinér et al., "Investigation of site selectivity of the stereoselective deprotonation of cyclohexene oxide using kinetic resolution of isotopic enantiomers in natural abundance," Tetrahedron : asymmetry, vol. 162665-2671, no. 15, s. 2665-2671, 2005.
[46]
D. Pettersen et al., "Composition and structure of activated complexes in stereoselective deprotonation of cyclohexene oxide by a mixed dimer of chiral lithium amide and lithiated imidazole," Tetrahedron : asymmetry, vol. 15, no. 10, s. 1607-1613, 2004.
[47]
S. O. Nillsson Lill et al., "Development of chiral catalysts for stereoselective synthesis by deprotonations : Experimentation in Interplay with Computational Chemistry," Advances in Quantum Chemistry, vol. 47, s. 1-22, 2004.
[48]
R. Sott et al., "Solution structures of chiral lithium amides with internal sulfide coordination : sulfide versus ether coordination in chiral lithium amides," Tetrahedron : asymmetry, vol. 15267-274, no. 2, s. 267-274, 2004.
[49]
A. Goeppert et al., "Methane activation and oxidation in sulfuric acid," Chemistry - A European Journal, vol. 8, no. 14, s. 3277-3283, 2002.
[50]
P. Ahlberg et al., "Solvated CH5+ in liquid superacid," Chemistry - A European Journal, vol. 7, no. 12, s. 2501-2510, 2001.
Konferensbidrag
[51]
C. Hamngren Blomqvist et al., "Design and evaluation of a microfluidic system for inhibition studies of yeast cell signaling," i Proceedings of SPIE : Optical Trapping and Optical Micromanipulation IX, 2012, s. 84582K.
[52]
P. Dinér et al., "Highly selective, cell-permeable and fast-acting wild-type Hog1 inhibitors as tools for studying cellular function of kinases," i Functional Genomics Symposium: Chemical Biology – Molecules to Probe Life, Gothenburg, Sweden, 2009.
Kapitel i böcker
[53]
P. Wu, P. Dinér och L. Bunch, "CHAPTER 3 : The Screening and Design of Allosteric Kinase Inhibitors," i Kinase drug discovery : Modern approaches, : Royal Society of Chemistry, 2019, s. 34-60.
Icke refereegranskade
Konferensbidrag
[54]
P. Dinér et al., "Design, synthesis and characterization of a highly effective Hog1 inhibitor : a powerful tool for analyzing MAP kinase signaling in yeast," i Special Issue: Abstracts of the 35th FEBS Congress, Gothenburg, Sweden, 26 June - 1 July 2010, 2010.
[55]
M. Nielsen et al., "ORGN 12-Asymmetric organocatalytic heteroatomic alpha- and beta-functionalizations of alpha,beta-unsaturated electrophiles," i Abstracts of Papers of the American Chemical Society, 2008.
[56]
M. Nielsen et al., "ORGN 703-Two diverse approaches for asymmetric organocatalytic beta-hydroxylation of alpha,beta-unsaturated electrophiles," i Abstracts of Papers of the American Chemical Society, 2008.
Avhandlingar
[57]
P. Dinér, "Alkane activation by superacids and enantioselective reactions with chiral lithium amides : computational and experimental mechanistic studies," Doktorsavhandling : Göteborgs universitet, 2005.
Övriga
[58]
G. Proietti et al., "Accessing of Perfluoroaryl Sulfonimidamides and Sulfoximinesvia Photogenerated Perfluoroaryl Nitrenes: Synthesis and Applications," (Manuskript).
[59]
H. Nordström et al., "Identification of Fragments for Design of HIV-1 Protease Inhibitors with Allosteric Mechanisms and New Resistance Profiles," (Manuskript).
[60]
[61]
[62]
G. Proietti et al., "Supramolecular polymerization of a chiral, perfluoroaryl-basedsulfonimidamide low molecular weight gelator," (Manuskript).
[63]
G. Proietti et al., "Ultralight aerogels via supramolecular polymerization of a new chiral perfluoropyridin-based sulfonimidamide organogelator," (Manuskript).
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2024-04-14 00:15:02