# | Title | Journal | Year | Citations |
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|
1 | A review on wound dressings with an emphasis on electrospun nanofibrous polymeric bandages | Polymers for Advanced Technologies | 2010 | 685 |
2 | Stepwise polyelectrolyte assembly on particle surfaces: a novel approach to colloid design | Polymers for Advanced Technologies | 1998 | 620 |
3 | Intrinsically conducting polymers for electromagnetic interference shielding | Polymers for Advanced Technologies | 2005 | 516 |
4 | Nanocomposite materials from latex and cellulose whiskers | Polymers for Advanced Technologies | 1995 | 503 |
5 | Gas separation using polymer membranes: an overview | Polymers for Advanced Technologies | 1994 | 490 |
6 | Formation of crew‐cut aggregates of various morphologies from amphiphilic block copolymers in solution | Polymers for Advanced Technologies | 1998 | 452 |
7 | Coaxial electrospinning and emulsion electrospinning of core–shell fibers | Polymers for Advanced Technologies | 2011 | 382 |
8 | Flame retarded polymer layered silicate nanocomposites: a review of commercial and open literature systems | Polymers for Advanced Technologies | 2006 | 358 |
9 | Synthetic, layered nanoparticles for polymeric nanocomposites (PNCs) | Polymers for Advanced Technologies | 2007 | 358 |
10 | Thermoplastic toughening of epoxy resins: a critical review | Polymers for Advanced Technologies | 1998 | 348 |
11 | Polymers for tissue engineering, medical devices, and regenerative medicine. Concise general review of recent studies | Polymers for Advanced Technologies | 2006 | 346 |
12 | Progress in the development of interpenetrating polymer network hydrogels | Polymers for Advanced Technologies | 2008 | 345 |
13 | The preparation and characterization of silver-loading cellulose acetate hollow fiber membrane for water treatment | Polymers for Advanced Technologies | 2005 | 327 |
14 | Polymeric gels and hydrogels for biomedical and pharmaceutical applications | Polymers for Advanced Technologies | 2010 | 317 |
15 | Non‐isocyanate polyurethanes: synthesis, properties, and applications | Polymers for Advanced Technologies | 2015 | 315 |
16 | Ceramic nanofibers fabricated by electrospinning and their applications in catalysis, environmental science, and energy technology | Polymers for Advanced Technologies | 2011 | 310 |
17 | Flammability properties of intumescent PLA including starch and lignin | Polymers for Advanced Technologies | 2008 | 298 |
18 | Silver nanoparticles immobilized on thin film composite polyamide membrane: characterization, nanofiltration, antifouling properties | Polymers for Advanced Technologies | 2007 | 296 |
19 | Nanofiller‐reinforced polymer nanocomposites | Polymers for Advanced Technologies | 2008 | 281 |
20 | Mechanical and thermal properties of dragline silk from the spider Nephila clavipes | Polymers for Advanced Technologies | 1994 | 273 |
21 | Nanoprocessing of polymers: applications in medicine, sensors, catalysis, photonics | Polymers for Advanced Technologies | 2005 | 271 |
22 | Differential scanning calorimetry studies on poly(ethylene glycol) with different molecular weights for thermal energy storage materials | Polymers for Advanced Technologies | 2002 | 267 |
23 | Flammability and fire resistance of composites reinforced by natural fibers | Polymers for Advanced Technologies | 2008 | 259 |
24 | Biodegradable polymers—an overview | Polymers for Advanced Technologies | 2014 | 251 |
25 | Thermal conductivity epoxy resin composites filled with boron nitride | Polymers for Advanced Technologies | 2012 | 244 |
26 | Polysaccharide biomaterials for drug delivery and regenerative engineering | Polymers for Advanced Technologies | 2014 | 242 |
27 | The Current Status of Interpenetrating Polymer Networks | Polymers for Advanced Technologies | 1996 | 241 |
28 | Improving CO2 permeability in polymerized room‐temperature ionic liquid gas separation membranes through the formation of a solid composite with a room‐temperature ionic liquid | Polymers for Advanced Technologies | 2008 | 230 |
29 | Recent progress in high resolution lithography | Polymers for Advanced Technologies | 2006 | 228 |
30 | Layered silicate polymer nanocomposites: new approach or illusion for fire retardancy? Investigations of the potentials and the tasks using a model system | Polymers for Advanced Technologies | 2004 | 223 |
31 | A review on flame retardant technology in China. Part I: development of flame retardants | Polymers for Advanced Technologies | 2010 | 223 |
32 | Flame‐retardant rigid polyurethane foam with a phosphorus‐nitrogen single intumescent flame retardant | Polymers for Advanced Technologies | 2018 | 217 |
33 | Some comments on the main fire retardancy mechanisms in polymer nanocomposites | Polymers for Advanced Technologies | 2006 | 212 |
34 | Catalysis of intumescent flame retardancy of polypropylene by metallic compounds | Polymers for Advanced Technologies | 2003 | 203 |
35 | Surface modification of inorganic oxide particles with silane coupling agent and organic dyes | Polymers for Advanced Technologies | 2001 | 200 |
36 | Enhanced swelling and adsorption properties of AAm‐AMPSNa/clay hydrogel nanocomposites for heavy metal ion removal | Polymers for Advanced Technologies | 2008 | 199 |
37 | Structural Effects on the Biodegradation of Aliphatic Polyesters | Polymers for Advanced Technologies | 1997 | 198 |
38 | Biomedical applications of nanofibers | Polymers for Advanced Technologies | 2011 | 197 |
39 | The thermal degradation of poly(methyl methacrylate) nanocomposites with montmorillonite, layered double hydroxides and carbon nanotubes | Polymers for Advanced Technologies | 2006 | 193 |
40 | Synergism and catalysis in flame retardancy of polymers | Polymers for Advanced Technologies | 2001 | 192 |
41 | Dye removal by a novel hydrogel‐clay nanocomposite with enhanced swelling properties | Polymers for Advanced Technologies | 2008 | 190 |
42 | Synergistic effect between a char forming agent (CFA) and microencapsulated ammonium polyphosphate on the thermal and flame retardant properties of polypropylene | Polymers for Advanced Technologies | 2008 | 187 |
43 | Recent developments in the use of two-photon polymerization in precise 2D and 3D microfabrications | Polymers for Advanced Technologies | 2006 | 186 |
44 | Polylactides—an overview | Polymers for Advanced Technologies | 2014 | 180 |
45 | Understanding the kinetics and network formation of dimethacrylate dental resins | Polymers for Advanced Technologies | 2001 | 179 |
46 | Colloidal metal nanoparticles dispersed in amphiphilic polymers | Polymers for Advanced Technologies | 2001 | 175 |
47 | Graphene-based polymer nanocomposite membranes: a review | Polymers for Advanced Technologies | 2016 | 175 |
48 | A review on thermal decomposition and combustion of thermoplastic polyesters | Polymers for Advanced Technologies | 2004 | 174 |
49 | Flame retardancy mechanisms of metal phosphinates and metal phosphinates in combination with melamine cyanurate in glass‐fiber reinforced poly(1,4‐butylene terephthalate): the influence of metal cation | Polymers for Advanced Technologies | 2008 | 174 |
50 | Electrospun nanofibers for enhancing structural performance of composite materials | Polymers for Advanced Technologies | 2011 | 173 |