# | Title | Journal | Year | Citations |
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1 | Lignocellulosic biomass: a sustainable platform for the production of bio-based chemicals and polymers | Polymer Chemistry | 2015 | 1,917 |
2 | Thiol-ene “click” reactions and recent applications in polymer and materials synthesis | Polymer Chemistry | 2010 | 1,331 |
3 | Stimuli-responsive polymers and their applications | Polymer Chemistry | 2017 | 916 |
4 | pH-Responsive polymers | Polymer Chemistry | 2017 | 801 |
5 | Thiol–ene “click” reactions and recent applications in polymer and materials synthesis: a first update | Polymer Chemistry | 2014 | 648 |
6 | Oxidant-induced dopamine polymerization for multifunctional coatings | Polymer Chemistry | 2010 | 644 |
7 | FDA-approved poly(ethylene glycol)–protein conjugate drugs | Polymer Chemistry | 2011 | 553 |
8 | Biobased polyesters and other polymers from 2,5-furandicarboxylic acid: a tribute to furan excellency | Polymer Chemistry | 2015 | 531 |
9 | Self-healing polymers based on thermally reversible Diels–Alder chemistry | Polymer Chemistry | 2013 | 530 |
10 | End group removal and modification of RAFT polymers | Polymer Chemistry | 2010 | 514 |
11 | Photo-responsive systems and biomaterials: photochromic polymers, light-triggered self-assembly, surface modification, fluorescence modulation and beyond | Polymer Chemistry | 2010 | 492 |
12 | Diels–Alder “click” reactions: recent applications in polymer and material science | Polymer Chemistry | 2011 | 488 |
13 | Redox-responsive polymers for drug delivery: from molecular design to applications | Polymer Chemistry | 2014 | 483 |
14 | Polymeric vesicles in biomedical applications | Polymer Chemistry | 2011 | 470 |
15 | Multi-stimuli responsive polymers – the all-in-one talents | Polymer Chemistry | 2014 | 453 |
16 | The quest for sustainable polyesters – insights into the future | Polymer Chemistry | 2014 | 438 |
17 | Electrospun nanofiber reinforced composites: a review | Polymer Chemistry | 2018 | 431 |
18 | Antibiofouling polymer interfaces: poly(ethylene glycol) and other promising candidates | Polymer Chemistry | 2015 | 419 |
19 | Polymer-based nanocomposites for heavy metal ions removal from aqueous solution: a review | Polymer Chemistry | 2018 | 418 |
20 | Dynamic covalent chemistry in polymer networks: a mechanistic perspective | Polymer Chemistry | 2019 | 399 |
21 | Sequence-controlled polymerizations: the next Holy Grail in polymer science? | Polymer Chemistry | 2010 | 389 |
22 | Synthesis of biodegradable polymers from renewable resources | Polymer Chemistry | 2012 | 389 |
23 | High-performance polystyrene/graphene-based nanocomposites with excellent anti-corrosion properties | Polymer Chemistry | 2014 | 384 |
24 | Self-healing systems based on disulfide–thiol exchange reactions | Polymer Chemistry | 2013 | 383 |
25 | Functionalization of cardanol: towards biobased polymers and additives | Polymer Chemistry | 2014 | 372 |
26 | Pluronic® block-copolymers in medicine: from chemical and biological versatility to rationalisation and clinical advances | Polymer Chemistry | 2014 | 369 |
27 | Organo-photocatalysts for photoinduced electron transfer-reversible addition–fragmentation chain transfer (PET-RAFT) polymerization | Polymer Chemistry | 2015 | 368 |
28 | Self-healing and self-mendable polymers | Polymer Chemistry | 2010 | 367 |
29 | Overcoming the PEG-addiction: well-defined alternatives to PEG, from structure–property relationships to better defined therapeutics | Polymer Chemistry | 2011 | 356 |
30 | Single site catalysts for stereoselective ring-opening polymerization of lactides | Polymer Chemistry | 2011 | 355 |
31 | Metal catalysts for ε-caprolactone polymerisation | Polymer Chemistry | 2010 | 350 |
32 | A two-dimensional conjugated polymer framework with fully sp2-bonded carbon skeleton | Polymer Chemistry | 2016 | 350 |
33 | Photopolymerization upon LEDs: new photoinitiating systems and strategies | Polymer Chemistry | 2015 | 346 |
34 | Synthesis of glycopolymers and their multivalent recognitions with lectins | Polymer Chemistry | 2010 | 338 |
35 | Hydrogel scaffolds for tissue engineering: the importance of polymer choice | Polymer Chemistry | 2020 | 331 |
36 | Recent advances in RAFT dispersion polymerization for preparation of block copolymer aggregates | Polymer Chemistry | 2013 | 310 |
37 | Highly permeable polymers for gas separation membranes | Polymer Chemistry | 2010 | 308 |
38 | Toughening of photo-curable polymer networks: a review | Polymer Chemistry | 2016 | 308 |
39 | Schiff's base as a stimuli-responsive linker in polymer chemistry | Polymer Chemistry | 2012 | 302 |
40 | Miktoarm star polymers: advances in synthesis, self-assembly, and applications | Polymer Chemistry | 2010 | 300 |
41 | The power of light in polymer science: photochemical processes to manipulate polymer formation, structure, and properties | Polymer Chemistry | 2014 | 295 |
42 | Entry of nanoparticles into cells: the importance of nanoparticle properties | Polymer Chemistry | 2018 | 294 |
43 | Conjugated polymers for high-efficiency organic photovoltaics | Polymer Chemistry | 2010 | 292 |
44 | A superamplification effect in the detection of explosives by a fluorescent hyperbranched poly(silylenephenylene) with aggregation-enhanced emission characteristics | Polymer Chemistry | 2010 | 288 |
45 | Polymerization-Induced Self-Assembly (PISA) – control over the morphology of nanoparticles for drug delivery applications | Polymer Chemistry | 2014 | 287 |
46 | Layer-by-layer preparation of polyelectrolyte multilayer membranes for separation | Polymer Chemistry | 2014 | 286 |
47 | RAFT polymerization to form stimuli-responsive polymers | Polymer Chemistry | 2017 | 278 |
48 | Photo-responsive polymers: synthesis and applications | Polymer Chemistry | 2017 | 273 |
49 | Benzo[1,2-b:4,5-b′]dithiophene-based conjugated polymers: band gap and energy level control and their application in polymer solar cells | Polymer Chemistry | 2011 | 272 |
50 | New micellar morphologies from amphiphilic block copolymers: disks, toroids and bicontinuous micelles | Polymer Chemistry | 2011 | 269 |