Publikationer av Michael Malkoch

Refereegranskade

Artiklar

[1]

C. Fang et al., "An Autoclavable and Transparent Thermal Cutter for Reliably Sealing Wet Nanofibrous Membranes," Nano Letters, vol. 24, no. 28, s. 8709-8716, 2024.

[2]

P. Schwarzenberg et al., "Determination of the internal loads experienced by proximal phalanx fracture fixations during rehabilitation exercises," Frontiers in Bioengineering and Biotechnology, vol. 12, 2024.

[3]

T. Chang et al., "Effect of blue light illumination on atmospheric corrosion and bacterial adhesion on copper," Corrosion Science, vol. 230, 2024.

[4]

G. Biscari et al., "Gellan gum-dopamine mediated in situ synthesis of silver nanoparticles and development of nano/micro-composite injectable hydrogel with antimicrobial activity," International Journal of Biological Macromolecules, vol. 258, 2024.

[5]

L. Ahrenstedt et al., "Sustained zero-order release of dexamethasone after incorporation into crosslinked PEG-dendrons using click reactions," Journal of Drug Delivery Science and Technology, vol. 95, 2024.

[6]

A. Singh et al., "Synthesis, evaluation and modification of heterofunctional polyester dendrimers with internally queued bromide groups," Soft Matter, vol. 20, no. 38, s. 7573-7577, 2024.

[7]

G. Patt-Lafitte et al., "Toughening and strengthening of visible light-cured hydroxyapatite thiol-ene resin composite intended as bone fixation using 2D textile," Journal of Materials Research and Technology, vol. 29, s. 982-990, 2024.

[8]

H. Liu et al., "Advance in oral delivery of living material," Biomedical Technology, vol. 3, s. 26-39, 2023.

[9]

T. Colding-Rasmussen et al., "Biomechanical Variability and Usability of a Novel Customizable Fracture Fixation Technique," Bioengineering, vol. 10, no. 10, 2023.

[10]

P. Schwarzenberg et al., "Biomechanical performance of a novel light-curable bone fixation technique," Scientific Reports, vol. 13, no. 1, 2023.

[11]

Y. Zhang et al., "Dendritic Nanogels Directed Dual-Encapsulation Topical Delivery System of Antimicrobial Peptides Targeting Skin Infections," Macromolecular Bioscience, vol. 23, no. 4, 2023.

[12]

F. Namata et al., "High Water Content Physically Cross-linked Hybrid Hydrogels Based on Polyester Dendrimers and Cellulose Nanofibrils : A Comprehensive Study," Chemistry of Materials, vol. 35, no. 20, s. 8561-8573, 2023.

[13]

J. Lin et al., "Impact of Polyester Dendrimers as Branched Multifunctional Cross-Linking Additives in Triazine-Trione-Based Composites Developed via High-Energy Visible Light Thiol-ene Chemistry," ACS APPLIED POLYMER MATERIALS, vol. 5, no. 12, s. 10395-10403, 2023.

[14]

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.

[15]

G. He et al., "Promoting multiexciton interactions in singlet fission and triplet fusion upconversion dendrimers," Nature Communications, vol. 14, no. 1, 2023.

[16]

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.

[17]

F. Namata et al., "Synthesis and Characterization of Amino-Functional Polyester Dendrimers Based On Bis-MPA with Enhanced Hydrolytic Stability and Inherent Antibacterial Properties," Biomacromolecules, vol. 24, no. 2, s. 858-867, 2023.

[18]

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.

[19]

D. A. Ossipov et al., "Combination of Coordination and Releasable Covalent Binding for the Delivery of Antisense Therapeutics by BisphosphonateHyaluronan-Oligonucleotide Conjugates," ACS APPLIED POLYMER MATERIALS, vol. 3, no. 4, s. 2197-2210, 2021.

[20]

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.

[21]

D. A. Ossipov, M. Lüchow och M. Malkoch, "Differentiating Co-Delivery of Bisphosphonate and Simvastatin by Self-Healing Hyaluronan Hydrogel Formed by Orthogonal "Clicks" : An In-Vitro Assessment," Polymers, vol. 13, no. 13, s. 2106, 2021.

[22]

D. Hutchinson et al., "Highly Customizable Bone Fracture Fixation through the Marriage of Composites and Screws," Advanced Functional Materials, 2021.

[23]

Y. Fan et al., "Nanogel encapsulated hydrogels as advanced wound dressings for the controlled delivery of antibiotics," Advanced Functional Materials, vol. 31, 2021.

[24]

Y. Zhang, "Novel Therapeutic Platform of Micelles and Nanogels from Dopa-Functionalized Triblock Copolymers," Small, vol. 17, no. 17, s. 2007305, 2021.

[25]

J. Romson et al., "SpheriCal(R)-ESI : A dendrimer-based nine-point calibration solution ranging from m/z 273 to 1716 for electrospray ionization mass spectrometry peptide analysis," Rapid Communications in Mass Spectrometry, vol. 35, no. 5, 2021.

[26]

P. Stenström et al., "UV-Cured Antibacterial Hydrogels Based on PEG and Monodisperse Heterofunctional Bis-MPA Dendrimers," Molecules, vol. 26, no. 8, s. 2364, 2021.

[27]

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.

[28]

Y. Zhang et al., "Degradable High Molecular Weight Monodisperse Dendritic Poly(ethylene glycols)," Biomacromolecules, vol. 21, no. 10, s. 4294-4301, 2020.

[29]

T. Ingverud et al., "Dendritic Polyampholyte-Assisted Formation of Functional Cellulose Nanofibril Materials," Biomacromolecules, vol. 21, no. 7, s. 2856-2863, 2020.

[30]

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.

[31]

J. Engström et al., "In situ encapsulation of Nile red or Doxorubicin during RAFT-mediated emulsion polymerization via polymerization-induced self-assembly for biomedical applications," Macromolecular Chemistry and Physics, 2020.

[32]

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.

[33]

Y. Fan et al., "Self-Assembled Polyester Dendrimer/Cellulose Nanofibril Hydrogels with Extraordinary Antibacterial Activity," Pharmaceutics, vol. 12, no. 12, 2020.

[34]

S. Garcia-Gallego et al., "Synthesis of Heterofunctional Polyester Dendrimers with Internal and External Functionalities as Versatile Multipurpose Platforms," Biomacromolecules, vol. 21, no. 10, s. 4273-4279, 2020.

[35]

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.

[36]

R. Nordstrom et al., "Degradable dendritic nanogels as carriers for antimicrobial peptides," Journal of Colloid and Interface Science, vol. 554, s. 592-602, 2019.

[37]

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.

[38]

Y. Zhang et al., "Off-Stoichiometric Thiol-Ene Chemistry to Dendritic Nanogel Therapeutics," Advanced Functional Materials, vol. 29, no. 18, 2019.

[39]

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.

[40]

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.

[41]

D. Hult et al., "Degradable High Tg Sugar Derived Polycarbonates from Isosorbide and Dihydroxyacetone," Polymer Chemistry, vol. 9, no. 17, s. 2238-2246, 2018.

[42]

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.

[43]

P. Stenström et al., "Evaluation of amino-functional polyester dendrimers based on Bis-MPA as nonviral vectors for siRNA delivery," Molecules, vol. 23, no. 8, 2018.

[44]

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.

[45]

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.

[46]

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.

[47]

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.

[48]

M. Arseneault et al., "The Dawn of Thiol-Yne Triazine Triones Thermosets as a New Material Platform Suited for Hard Tissue Repair," Advanced Materials, vol. 30, no. 52, 2018.

[49]

O. Andrén och M. Malkoch, "Facile thiolation of hydroxyl functional polymers," Polymer Chemistry, vol. 8, no. 34, s. 4996-5001, 2017.

[50]

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.

[51]

O. C. J. Andrén, A. P. Fernandes och M. Malkoch, "Heterogeneous Rupturing Dendrimers," Journal of the American Chemical Society, 2017.

[52]

F. Y. Hern et al., "Model studies of the sequential and simultaneous statistical modification of dendritic functional groups and their implications within complex polymer architecture synthesis," Polymer Chemistry, vol. 8, no. 10, s. 1644-1653, 2017.

[53]

P. Stenström et al., "Synthesis and in Vitro Evaluation of Monodisperse Amino-Functional Polyester Dendrimers with Rapid Degradability and Antibacterial Properties," Biomacromolecules, vol. 18, no. 12, s. 4323-4330, 2017.

[54]

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.

[55]

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.

[56]

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.

[57]

P. Stenström, O. C. J. Andrén och M. Malkoch, "Fluoride-promoted esterification (FPE) chemistry : A robust route to Bis-MPA dendrons and their postfunctionalization," Molecules, vol. 21, no. 3, 2016.

[58]

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.

[59]

S. Mongkhontreerat et al., "Beyond state of the art honeycomb membranes : High performance ordered arrays from multi-programmable linear-dendritic block copolymers," Advanced Functional Materials, vol. 25, no. 30, 2015.

[60]

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.

[61]

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.

[62]

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.

[63]

S. Mongkhontreerat et al., "Functional porous membranes from amorphous linear dendritic polyester hybrids," Polymer Chemistry, vol. 6, no. 13, s. 2390-2395, 2015.

[64]

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.

[65]

S. E. R. Auty et al., "One-pot' sequential deprotection/functionalisation of linear-dendritic hybrid polymers using a xanthate mediated thiol/Michael addition," Polymer Chemistry, vol. 6, no. 4, s. 573-582, 2015.

[66]

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.

[67]

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.

[68]

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.

[69]

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.

[70]

S. E. R. Auty et al., "The first peripherally masked thiol dendrimers : a facile and highly efficient functionalization strategy of polyester dendrimers via one-pot xanthate deprotection/thiol-acrylate Michael addition reactions," Chemical Communications, vol. 50, no. 50, s. 6574-6577, 2014.

[71]

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.

[72]

M. V. Walter et al., "A one component methodology for the fabrication of honeycomb films from biocompatible amphiphilic block copolymer hybrids : a linear-dendritic-linear twist," Polymer Chemistry, vol. 4, no. 9, s. 2680-2690, 2013.

[73]

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.

[74]

K. Öberg et al., "Dual-purpose PEG scaffolds for the preparation of soft and biofunctional hydrogels : the convergence between CuAAC and thiol-ene reactions," Chemical Communications, vol. 49, no. 62, s. 6938-6940, 2013.

[75]

O. C. J. Andrén et al., "Multifunctional Poly(ethylene glycol) : Synthesis, Characterization, and Potential Applications of Dendritic-Linear-Dendritic Block Copolymer Hybrids," Macromolecules, vol. 46, no. 10, s. 3726-3736, 2013.

[76]

Y. Hed et al., "Multipurpose heterofunctional dendritic scaffolds as crosslinkers towards functional soft hydrogels and implant adhesives in bone fracture applications," Journal of Materials Chemistry B, vol. 1, no. 44, s. 6015-6019, 2013.

[77]

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.

[78]

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.

[79]

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.

[80]

K. Öberg et al., "Templating Gold Surfaces with Function : A Self-Assembled Dendritic Monolayer Methodology Based on Monodisperse Polyester Scaffolds," Langmuir, vol. 29, no. 1, s. 456-465, 2013.

[81]

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.

[82]

S. Mongkhontreerat et al., "UV initiated thiol-ene chemistry : a facile and modular synthetic methodology for the construction of functional 3D networks with tunable properties," Journal of Materials Chemistry A, vol. 1, no. 44, s. 13732-13737, 2013.

[83]

P. Lundberg et al., "pH-triggered self-assembly of biocompatible histamine-functionalized triblock copolymers," Soft Matter, vol. 9, no. 1, s. 82-89, 2013.

[84]

M. V. Walter et al., "Hybrid One-Dimensional Nanostructures : One-Pot Preparation of Nanoparticle Chains via Directed Self-Assembly of in Situ Synthesized Discrete Au Nanoparticles," Langmuir, vol. 28, no. 14, s. 5947-5955, 2012.

[85]

B. Mahltig et al., "Hydroxyl functional polyester dendrimers as stabilizing agent for preparation of colloidal silver particles-a study in respect to antimicrobial properties and toxicity against human cells," Colloid and Polymer Science, vol. 290, no. 14, s. 1413-1421, 2012.

[86]

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.

[87]

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.

[88]

M. V. Walter och M. Malkoch, "Simplifying the synthesis of dendrimers : accelerated approaches," Chemical Society Reviews, vol. 41, no. 13, s. 4593-4609, 2012.

[89]

N. Feliu et al., "Stability and biocompatibility of a library of polyester dendrimers in comparison to polyamidoamine dendrimers," Biomaterials, vol. 33, no. 7, s. 1970-1981, 2012.

[90]

C. F. Carlborg et al., "Beyond PDMS: off-stoichiometry thiol–ene (OSTE) based soft lithography for rapid prototyping of microfluidic devices," Lab on a Chip, vol. 11, no. 18, s. 3136-3147, 2011.

[91]

M. I. Montañez et al., "Bifunctional Dendronized Cellulose Surfaces as Biosensors," Biomacromolecules, vol. 12, no. 6, s. 2114-2125, 2011.

[92]

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.

[93]

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.

[94]

A.-M. Zorn et al., "High temperature synthesis of vinyl terminated polymers based on dendronized acrylates : a detailed product analysis study," POLYMER CHEMISTRY, vol. 2, no. 5, s. 1163-1173, 2011.

[95]

M. Berglin et al., "Hybrid nanoparticle arrays for measuring the interaction between cell adhesion ligands and macromolecules using SPR," European Cells & Materials, vol. 21, no. SUPPL.1, s. 44, 2011.

[96]

P. Lundberg et al., "Linear dendritic polymeric amphiphiles with intrinsic biocompatibility: synthesis and characterization to fabrication of micelles and honeycomb membranes," Polymer Chemistry, vol. 2, s. 394-402, 2011.

[97]

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.

[98]

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.

[99]

M. I. Montanez et al., "Accelerated Growth of Dendrimers via Thiol-Ene and Esterification Reactions," Macromolecules, vol. 43, no. 14, s. 6004-6013, 2010.

[100]

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.

[101]

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.

[102]

P. Lundberg et al., "Poly(ethylene glycol)-Based Thiol-ene Hydrogel Coatings-Curing Chemistry, Aqueous Stability, and Potential Marine Antifouling Applications," ACS Applied Materials and Interfaces, vol. 2, no. 3, s. 903-912, 2010.

[103]

P. Antoni et al., "Pushing the Limits for Thiol-Ene and CuAAC Reactions : Synthesis of a 6th Generation Dendrimer in a Single Day," Macromolecules, vol. 43, no. 16, s. 6625-6631, 2010.

[104]

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.

[105]

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.

[106]

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.

[107]

A. Carlmark et al., "New methodologies in the construction of dendritic materials," Chemical Society Reviews, vol. 38, no. 2, s. 352-362, 2009.

[108]

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.

[109]

P. Antoni et al., "Europium confined cyclen dendrimers with photophysically active triazoles," Journal of Materials Chemistry, vol. 18, no. 22, s. 2545-2554, 2008.

[110]

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.

[111]

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.

[112]

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.

[113]

P. Antoni et al., "A chemoselective approach for the accelerated synthesis of well-defined dendritic architectures," Chemical Communications, no. 22, s. 2249-2251, 2007.

[114]

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.

[115]

D. A. Long et al., "Localized "Click" chemistry through dip-pen nanolithography," Advanced Materials, vol. 19, no. 24, s. 4471-+, 2007.

[116]

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.

[117]

A. Nyström et al., "Characterization of Poly(norbornene) Dendronized Polymers Prepared by Ring-Opening Metathesis Polymerization of Dendron Bearing Monomers," Macromolecules, vol. 39, no. 21, s. 7241-7249, 2006.

[118]

M. Malkoch et al., "Synthesis of well-defined hydrogel networks using Click chemistry," Chemical Communications, no. 26, s. 2774-2776, 2006.

[119]

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.

[120]

E. Östmark et al., "Dendritic Structures Based on Bis(hydroxymethyl)propionic Acid as Platforms for Surface Reactions," Langmuir, vol. 21, no. 10, s. 4512-4519, 2005.

[121]

P. Wu et al., "Multivalent, bifunctional dendrimers prepared by click chemistry," Chemical Communications, no. 46, s. 5775-5777, 2005.

[122]

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.

[123]

M. Malkoch et al., "Structurally diverse dendritic libraries : A highly efficient functionalization approach using Click chemistry," Macromolecules, vol. 38, no. 9, s. 3663-3678, 2005.

[124]

M. Malkoch et al., "Dendronized aliphatic polymers by a combination of ATRP and divergent growth," Macromolecules, vol. 37, no. 2, s. 322-329, 2004.

[125]

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.

[126]

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.

[127]

G. Coullerez et al., "Insights into ToF-SIMS analysis of dendritic macromolecules : cationization and PCA to probe their molecular weight on surfaces," Applied Surface Science, vol. 203, s. 620-624, 2003.

[128]

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.

[129]

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.

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