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Publikationer av Michael Malkoch

Refereegranskade

Artiklar

[3]
H. Liu et al., "Advance in oral delivery of living material," Biomedical Technology, vol. 3, s. 26-39, 2023.
[4]
T. Colding-Rasmussen et al., "Biomechanical Variability and Usability of a Novel Customizable Fracture Fixation Technique," Bioengineering, vol. 10, no. 10, 2023.
[5]
P. Schwarzenberg et al., "Biomechanical performance of a novel light-curable bone fixation technique," Scientific Reports, vol. 13, no. 1, 2023.
[8]
Y. Fan et al., "Placenta Powder-Infused Thiol-Ene PEG Hydrogels as Potential Tissue Engineering Scaffolds," Biomacromolecules, vol. 24, no. 4, s. 1617-1626, 2023.
[10]
J. Lin et al., "Soft Hydroxyapatite Composites Based on Triazine-Trione Systems as Potential Biomedical Engineering Frameworks," ACS Applied Materials and Interfaces, vol. 15, no. 5, s. 7329-7339, 2023.
[12]
A. Badria et al., "Acrylate-free tough 3D printable thiol-ene thermosets and composites for biomedical applications," Journal of Applied Polymer Science, vol. 139, no. 43, 2022.
[14]
Y. Fan et al., "Dendritic Hydrogels Induce Immune Modulation in Human Keratinocytes and Effectively Eradicate Bacterial Pathogens," Journal of the American Chemical Society, vol. 143, no. 41, s. 17180-17190, 2021.
[16]
[21]
S. Garcia Gallego, O. C. J. Andrén och M. Malkoch, "Accelerated Chemoselective Reactions to Sequence-Controlled Heterolayered Dendrimers," Journal of the American Chemical Society, 2020.
[22]
Y. Zhang et al., "Degradable High Molecular Weight Monodisperse Dendritic Poly(ethylene glycols)," Biomacromolecules, vol. 21, no. 10, s. 4294-4301, 2020.
[23]
T. Ingverud et al., "Dendritic Polyampholyte-Assisted Formation of Functional Cellulose Nanofibril Materials," Biomacromolecules, vol. 21, no. 7, s. 2856-2863, 2020.
[24]
J. V. Kieseritzky et al., "DendroPrime as an adhesion barrier on fracture fixation plates : an experimental study in rabbits," Journal of Hand Surgery, European Volume, vol. 45, no. 7, s. 742-747, 2020.
[26]
M. Lüchow, L. Fortuin och M. Malkoch, "Modular, synthetic, thiol-ene mediated hydrogel networks as potential scaffolds for 3D cell cultures and tissue regeneration," Journal of Polymer Science, vol. 58, no. 22, s. 3153-3164, 2020.
[29]
O. C. J. Andrén et al., "Antibiotic-Free Cationic Dendritic Hydrogels as Surgical-Site-Infection-Inhibiting Coatings," Advanced Healthcare Materials, vol. 8, no. 5, 2019.
[30]
R. Nordstrom et al., "Degradable dendritic nanogels as carriers for antimicrobial peptides," Journal of Colloid and Interface Science, vol. 554, s. 592-602, 2019.
[31]
T. Ingverud och M. Malkoch, "Helux : A Heterofunctional Hyperbranched Poly(amido amine) Carboxylate," ACS APPLIED POLYMER MATERIALS, vol. 1, no. 7, s. 1845-1853, 2019.
[32]
Y. Zhang et al., "Off-Stoichiometric Thiol-Ene Chemistry to Dendritic Nanogel Therapeutics," Advanced Functional Materials, vol. 29, no. 18, 2019.
[33]
R. T. Rozenbaum et al., "Penetration and Accumulation of Dendrons with Different Peripheral Composition in Pseudomonas aeruginosa Biofilms," Nano letters (Print), vol. 19, no. 7, s. 4327-4333, 2019.
[34]
A. Latorre-Sanchez et al., "Active quinine-based films able to release antimicrobial compounds via melt quaternization at low temperature," Journal of materials chemistry. B, vol. 6, no. 1, s. 98-104, 2018.
[35]
D. Hult et al., "Degradable High Tg Sugar Derived Polycarbonates from Isosorbide and Dihydroxyacetone," Polymer Chemistry, vol. 9, no. 17, s. 2238-2246, 2018.
[36]
A. Martin-Serrano Ortiz et al., "Design of multivalent fluorescent dendritic probes for site-specific labeling of biomolecules," Journal of Polymer Science Part A : Polymer Chemistry, vol. 56, no. 15, s. 1609-1616, 2018.
[38]
V. Granskog et al., "High-Performance Thiol–Ene Composites Unveil a New Era of Adhesives Suited for Bone Repair," Advanced Functional Materials, vol. 28, no. 26, 2018.
[39]
R. Nordström et al., "Membrane interactions of microgels as carriers of antimicrobial peptides," Journal of Colloid and Interface Science, vol. 513, s. 141-150, 2018.
[40]
S. Kikionis et al., "Nanofibrous nonwovens based on dendritic-linear-dendritic poly(ethylene glycol) hybrids," Journal of Applied Polymer Science, vol. 135, no. 10, 2018.
[41]
J. Erlandsson et al., "On the mechanism behind freezing-induced chemical crosslinking in ice-templated cellulose nanofibril aerogels," Journal of Materials Chemistry A, vol. 6, no. 40, s. 19371-19380, 2018.
[43]
O. Andrén och M. Malkoch, "Facile thiolation of hydroxyl functional polymers," Polymer Chemistry, vol. 8, no. 34, s. 4996-5001, 2017.
[44]
J. V. Olsson et al., "Fluoride-promoted carbonylation polymerization : A facile step-growth technique to polycarbonates," Chemical Science, vol. 8, no. 7, s. 4853-4857, 2017.
[45]
O. C. J. Andrén, A. P. Fernandes och M. Malkoch, "Heterogeneous Rupturing Dendrimers," Journal of the American Chemical Society, 2017.
[48]
O. C. J. Andrén et al., "Therapeutic Nanocarriers via Cholesterol Directed Self-Assembly of Well-Defined Linear-Dendritic Polymeric Amphiphiles," Chemistry of Materials, vol. 29, no. 9, s. 3891-3898, 2017.
[49]
K. Olofsson et al., "Activated dopamine derivatives as primers for adhesive-patch fixation of bone fractures," RSC Advances, vol. 6, no. 31, s. 26398-26405, 2016.
[50]
K. Olofsson, M. Malkoch och A. Hult, "Facile Synthesis of Dopa-Functional Polycarbonates viaThiol-Ene-Coupling Chemistry towards Self-Healing Gels," Journal of Polymer Science Part A : Polymer Chemistry, vol. 54, no. 15, s. 2370-2378, 2016.
[51]
[52]
T. Ingverud et al., "High water-content thermoresponsive hydrogels via electrostatic macrocrosslinking of cellulose nanofibrils," Journal of Polymer Science Part A : Polymer Chemistry, vol. 54, no. 21, s. 3415-3424, 2016.
[54]
S. Garcia Gallego, A. M. Nyström och M. Malkoch, "Chemistry of multifunctional polymers based on bis-MPA and their cutting-edge applications," Progress in polymer science, vol. 48, s. 85-110, 2015.
[55]
S. Mongkhontreerat et al., "Dendritic hydrogels : From exploring various crosslinking chemistries to introducing functions and naturally abundant resources," Journal of Polymer Science Part A : Polymer Chemistry, vol. 53, no. 21, s. 2431-2439, 2015.
[56]
S. Garcia Gallego et al., "Fluoride-Promoted Esterification with Imidazolide-Activated Compounds : A Modular and Sustainable Approach to Dendrimers," Angewandte Chemie International Edition, vol. 54, no. 8, s. 2416-2419, 2015.
[57]
S. Mongkhontreerat et al., "Functional porous membranes from amorphous linear dendritic polyester hybrids," Polymer Chemistry, vol. 6, no. 13, s. 2390-2395, 2015.
[58]
Y. Zhang et al., "Histamine-functionalized copolymer micelles as a drug delivery system in 2D and 3D models of breast cancer," Journal of materials chemistry. B, vol. 3, no. 12, s. 2472-2486, 2015.
[60]
S. M. Grayson et al., "Advantages of Monodisperse and Chemically Robust "SpheriCal" Polyester Dendrimers as a "Universal" MS Calibrant," Journal of the American Society for Mass Spectrometry, vol. 25, no. 3, s. 303-309, 2014.
[61]
J. V. Olsson et al., "Reactive imidazole intermediates : simplified synthetic approach to functional aliphatic cyclic carbonates," Polymer Chemistry, vol. 5, no. 23, s. 6651-6655, 2014.
[62]
K. Olofsson, O. C. J. Andrén och M. Malkoch, "Recent Advances on Crosslinked Dendritic Networks," Journal of Applied Polymer Science, vol. 131, no. 3, s. 39876, 2014.
[63]
K. Olofsson, M. Malkoch och A. Hult, "Soft hydrogels from tetra-functional PEGs using UV-induced thiol-ene coupling chemistry : a structure-to-property study," RSC Advances, vol. 4, no. 57, s. 30118-30128, 2014.
[65]
M. Ghirardello et al., "Thiol-Ene and Thiol-Yne-Based Synthesis of Glycodendrimers as Nanomolar Inhibitors of Wheat Germ Agglutinin," Journal of Polymer Science Part A : Polymer Chemistry, vol. 52, no. 17, s. 2422-2433, 2014.
[67]
A. Carlmark, E. Malmström och M. Malkoch, "Dendritic architectures based on bis-MPA : functional polymeric scaffolds for application-driven research," Chemical Society Reviews, vol. 42, no. 13, s. 5858-5879, 2013.
[71]
S. Atlas et al., "Radical copolymerization of acrylonitrile with 2,2,2-trifluoroethyl acrylate for dielectric materials : Structure and characterization," Journal of Polymer Science Part A : Polymer Chemistry, vol. 51, no. 18, s. 3856-3866, 2013.
[72]
T. Yang, M. Malkoch och A. Hult, "Sequential interpenetrating poly(ethylene glycol) hydrogels prepared by UV-initiated thiol–ene coupling chemistry," Journal of Polymer Science Part A : Polymer Chemistry, vol. 51, no. 2, s. 363-371, 2013.
[73]
Y. Hed et al., "Side-by-side comparison of dendritic-linear hybrids and their hyperbranched analogs as micellar carriers of chemotherapeutics," Journal of Polymer Science Part A : Polymer Chemistry, vol. 51, no. 19, s. 3992-3996, 2013.
[75]
T. Yang, M. Malkoch och A. Hult, "The influence of diffusion time on the properties of sequential interpenetrating PEG hydrogels," Journal of Polymer Science Part A : Polymer Chemistry, vol. 51, no. 6, s. 1378-1386, 2013.
[76]
[77]
P. Lundberg et al., "pH-triggered self-assembly of biocompatible histamine-functionalized triblock copolymers," Soft Matter, vol. 9, no. 1, s. 82-89, 2013.
[80]
X. Zeng et al., "Hyperbranched Copolymer Micelles as Delivery Vehicles of Doxorubicin in Breast Cancer Cells," Journal of Polymer Science Part A : Polymer Chemistry, vol. 50, no. 2, s. 280-288, 2012.
[81]
Z. Wu et al., "Linear-Dendritic Polymeric Amphiphiles as Carriers of Doxorubicin-In Vitro Evaluation of Biocompatibility and Drug Delivery," Journal of Polymer Science Part A : Polymer Chemistry, vol. 50, no. 2, s. 217-226, 2012.
[82]
M. V. Walter och M. Malkoch, "Simplifying the synthesis of dendrimers : accelerated approaches," Chemical Society Reviews, vol. 41, no. 13, s. 4593-4609, 2012.
[85]
M. I. Montañez et al., "Bifunctional Dendronized Cellulose Surfaces as Biosensors," Biomacromolecules, vol. 12, no. 6, s. 2114-2125, 2011.
[86]
T. Yang et al., "Characterization of Well-Defined Poly(ethylene glycol) Hydrogels Prepared by Thiol-ene Chemistry," Journal of Polymer Science Part A : Polymer Chemistry, vol. 49, no. 18, s. 4044-4054, 2011.
[87]
M. Lo Conte et al., "Exhaustive Glycosylation, PEGylation, and Glutathionylation of a [G4]-ene(48) Dendrimer via Photoinduced Thiol-ene Coupling," Journal of Polymer Science Part A : Polymer Chemistry, vol. 49, no. 20, s. 4468-4475, 2011.
[89]
M. Berglin et al., "Hybrid nanoparticle arrays for measuring the interaction between cell adhesion ligands and macromolecules using SPR," European Cells and Materials, vol. 21, no. SUPPL.1, s. 44, 2011.
[91]
M. V. Walter et al., "Novel Macrothiols for the Synthesis of a Structurally Comprehensive Dendritic Library using Thiol-Ene Click Chemistry," Journal of Polymer Science Part A : Polymer Chemistry, vol. 49, no. 13, s. 2990-2995, 2011.
[92]
A. Lundgren et al., "Self-Assembled Arrays of Dendrimer-Gold-Nanoparticle Hybrids for Functional Cell Studies," Angewandte Chemie International Edition, vol. 50, no. 15, s. 3450-3453, 2011.
[93]
M. I. Montanez et al., "Accelerated Growth of Dendrimers via Thiol-Ene and Esterification Reactions," Macromolecules, vol. 43, no. 14, s. 6004-6013, 2010.
[94]
T. Kang et al., "Facile access to internally functionalized dendrimers through efficient and orthogonal click reactions," Chemical Communications, vol. 46, no. 9, s. 1556-1558, 2010.
[95]
A. Nordberg et al., "Highly Adhesive Phenolic Compounds as Interfacial Primers for Bone Fracture Fixations," ACS APPLIED MATERIALS & INTERFACES, vol. 2, no. 3, s. 654-657, 2010.
[98]
R. Vestberg et al., "A General Strategy for Highly Efficient Nanoparticle Dispersing Agents Based on Hybrid Dendritic Linear Block Copolymers," Journal of Polymer Science Part A : Polymer Chemistry, vol. 47, no. 5, s. 1237-1258, 2009.
[99]
P. Antoni et al., "Bifunctional Dendrimers : From Robust Synthesis and Accelerated One-Pot Postfunctionalization Strategy to Potential Applications," Angewandte Chemie International Edition, vol. 48, no. 12, s. 2126-2130, 2009.
[100]
P.-A. Bouit et al., "Dendron-decorated cyanine dyes for optical limiting applications in the range of telecommunication wavelengths," New Journal of Chemistry, vol. 33, no. 5, s. 964-968, 2009.
[101]
A. Carlmark et al., "New methodologies in the construction of dendritic materials," Chemical Society Reviews, vol. 38, no. 2, s. 352-362, 2009.
[102]
P. Lundberg et al., "Click assisted one-pot multi-step reactions in polymer science : Accelerated synthetic Protocols," Macromolecular rapid communications, vol. 29, no. 12-13, s. 998-1015, 2008.
[103]
P. Antoni et al., "Europium confined cyclen dendrimers with photophysically active triazoles," Journal of Materials Chemistry, vol. 18, no. 22, s. 2545-2554, 2008.
[104]
C. Nilsson et al., "Synthesis and Thiol-Ene Photopolymerization of Allyl Ether Functionalized Dendrimers," Journal of Polymer Science Part A : Polymer Chemistry, vol. 46, no. 4, s. 1339-1348, 2008.
[105]
A. Khan et al., "Synthesis and characterization of hyperbranched polymers with increased chemical versatility for imprint lithographic resists," Journal of Polymer Science Part A : Polymer Chemistry, vol. 46, no. 18, s. 6238-6254, 2008.
[106]
J. Ropponen et al., "Synthesis of in vitro non-toxic 2,2-bis(methylol)propionic acid (Bis-MPA) dendrimers," European Journal of Pharmaceutical Sciences, vol. 34, no. 1, s. S36-S36, 2008.
[107]
P. Antoni et al., "A chemoselective approach for the accelerated synthesis of well-defined dendritic architectures," Chemical Communications, no. 22, s. 2249-2251, 2007.
[108]
E. C. Hagberg et al., "Effects of modulus and surface chemistry of thiol-ene photopolymers in nanoimprinting," Nano letters (Print), vol. 7, no. 2, s. 233-237, 2007.
[109]
D. A. Long et al., "Localized "Click" chemistry through dip-pen nanolithography," Advanced Materials, vol. 19, no. 24, s. 4471-+, 2007.
[110]
R. Vestberg et al., "Role of architecture and molecular weight in the formation of tailor-made ultrathin multilayers using dendritic macromolecules and click chemistry," Journal of Polymer Science Part A : Polymer Chemistry, vol. 45, no. 14, s. 2835-2846, 2007.
[112]
M. Malkoch et al., "Synthesis of well-defined hydrogel networks using Click chemistry," Chemical Communications, no. 26, s. 2774-2776, 2006.
[113]
T. E. Dukette et al., "Conformation of intramolecularly cross-linked polymer nanoparticles on solid substrates," Nano letters (Print), vol. 5, no. 9, s. 1704-1709, 2005.
[114]
[115]
P. Wu et al., "Multivalent, bifunctional dendrimers prepared by click chemistry," Chemical Communications, no. 46, s. 5775-5777, 2005.
[116]
M. Malkoch et al., "Orthogonal approaches to the simultaneous and cascade functionalization of macromolecules using click chemistry," Journal of the American Chemical Society, vol. 127, no. 42, s. 14942-14949, 2005.
[118]
M. Malkoch et al., "Dendronized aliphatic polymers by a combination of ATRP and divergent growth," Macromolecules, vol. 37, no. 2, s. 322-329, 2004.
[119]
M. Malkoch et al., "Synthesis and characterization of 2,2-bis(methylol)propionic acid dendrimers with different cores and terminal groups," Journal of Polymer Science Part A : Polymer Chemistry, vol. 42, no. 7, s. 1758-1767, 2004.
[120]
G. Coullerez et al., "Cationization of dendritic macromolecule adsorbates on metals studied by time-of-flight secondary ion mass spectrometry," Surface and Interface Analysis, vol. 35, no. 8, s. 682-692, 2003.
[122]
M. Malkoch et al., "Dendritic oxazoline ligands in enantioselective palladium-catalyzed allylic alkylations," Journal of Organic Chemistry, vol. 67, no. 23, s. 8197-8202, 2002.
[123]
C. Jönsson et al., "Immobilized oxazoline-containing ligands in asymmetric catalysis - A review," Bioorganic & Medicinal Chemistry Letters, vol. 12, no. 14, s. 1857-1861, 2002.
[124]
M. Malkoch, E. Malmström och A. Hult, "Rapid and efficient synthesis of aliphatic ester dendrons and dendrimers," Macromolecules, vol. 35, no. 22, s. 8307-8314, 2002.

Konferensbidrag

[125]
M. Malkoch och S. Garcia-Gallego, "CHAPTER 1 : Introduction to dendrimers and other dendritic polymers," i Monographs in Supramolecular Chemistry, 2020, s. 1-20.
[126]
M. Malkoch, "CHAPTER 10 : Future outlook for the field of dendrimers and other dendritic polymers," i Monographs in Supramolecular Chemistry, 2020, s. 287-288.
[127]
V. P. Nirwan, A. Fahmi och M. Malkoch, "Electrospinning of Hybrid Nanofibres Elaborated with PEG Core Dendrimers and SPIONs Synthesized in-situ : as Multifunctional Material for Biomedical Applications," i Proceedings of the 2017 IEEE 7th International Conference on Nanomaterials: Applications and Properties, NAP 2017, 2017.

Kapitel i böcker

[128]
M. Malkoch och S. Garcia-Gallego, "Chapter 2 : Bis-MPA dendrimers and other dendritic polyesters," i Dendrimer Chemistry : Synthetic Approaches Towards Complex Architectures, 2020. uppl. : Royal Society of Chemistry, 2020, s. 21-57.
[129]
M. Malkoch, E. Malmström Jonsson och A. M. Nyström, "Dendrimers : Properties and Applications," i Polymer Science : A Comprehensive Reference, 10 Volume Set, : Elsevier, 2012, s. 113-176.

Icke refereegranskade

Artiklar

[130]
M. Malkoch, "Heterogeneous rupturing dendrimers," Abstracts of Papers of the American Chemical Society, vol. 256, 2018.
[131]
V. Granskog et al., "High-performance and biocompatible thiol-ene based adhesive for bone fracture fixation," Abstracts of Papers of the American Chemical Society, vol. 256, 2018.
[132]
R. Nordström et al., "Poly(acrylic acid) microgels as carriers for antimicrobial peptides," Abstracts of Papers of the American Chemical Society, vol. 255, 2018.
[133]
I. Heckler et al., "Triazine trione based adhesive as potential materials for bone fracture fixation," Abstracts of Papers of the American Chemical Society, vol. 256, 2018.
[134]
D. Hult et al., "Versatile chemistries to highly functional polyesters and polycarbonates," Abstracts of Papers of the American Chemical Society, vol. 256, 2018.
[135]
V. Granskog et al., "Adhesion-enhancing primer for high-performance bone adhesive," Abstracts of Papers of the American Chemical Society, vol. 253, 2017.
[136]
Y. Zhang et al., "Histamine-functionalized copolymer micelles as a drug delivery system in 2D and 3D models of breast cancer," Abstracts of Papers of the American Chemical Society, vol. 250, 2015.
[137]
Y. Hed et al., "Bifunctional dendritic structures based on AB(2)C monomers," Abstracts of Papers of the American Chemical Society, vol. 238, 2009.
[138]
M. I. Montanez et al., "Click chemistry : A highly robust methodology for the fabrication of bioactivate dendritic-cellulose surfaces," Abstracts of Papers of the American Chemical Society, vol. 238, 2009.
[139]
P. Antoni et al., "POLY 558-Synthesis of click/ester and click/ether dendrimers based on AB2-and CD2-monomers," Abstracts of Papers of the American Chemical Society, vol. 234, 2007.
[140]
D. Nystrom et al., "POLY 598-Superhydrophobic biofiber surfaces obtained via ATRP and postfunctionalization reactions," Abstracts of Papers of the American Chemical Society, vol. 234, 2007.
[141]
P. Lundberg et al., "POLY 660-Controlled design of amphiphilic block-copolymers using ring-opening polymerization and click chemistry," Abstracts of Papers of the American Chemical Society, vol. 234, 2007.
[142]
C. Nilsson et al., "POLY 664-Polymer networks based on dendrimer monomers," Abstracts of Papers of the American Chemical Society, vol. 234, 2007.

Övriga

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2024-03-27 00:09:24