Publications
2025
PEG-PLA micelles for targeted codelivery of chemotherapy agents for ovarian cancer
Journal of Macromolecular Science Part A-Pure and Applied Chemistry , 62 (12) , 1154-1166 , 2025 , Impact Factor: 2.4 , Q3
Dual-Functionalizable Hydrogel Coatings: Enabling Redox-Responsive Targeted Therapeutic Delivery to Cells at Interfaces
ACS Applied Polymer Materials , 7 (24) , 16926-16938 , 2025 , Impact Factor: 4.8 , Q1
Engineering polymeric micelles for targeted drug delivery: “click” chemistry enabled bioconjugation strategies and emerging applications
Journal of Materials Chemistry B , 14 (1) , 12-44 , 2025 , Impact Factor: 5.8 , Q2
Polymer Brush-Coated Magnetic Nanoparticles: Diels-Alder/Retro-Diels-Alder Chemistry-Mediated Dual Functionalization for Targeted Drug Delivery
ACS Applied Polymer Materials , 7 (18) , 12500-12509 , 2025 , Impact Factor: 4.8 , Q1
Polymer brush coated magnetic nanoparticles: dual-functionalization using reversible and non-reversible conjugations for targeted drug delivery
European Polymer Journal , 238 , 114207 , 2025 , Impact Factor: 6.3 , Q1
Orthogonally Functionalizable Redox-Responsive Polymer Brushes: Catch and Release Platform for Proteins and Cells
Journal of the American Chemical Society , 147 (28) , 24672-24683 , 2025 , Impact Factor: 15.7 , Q1
Treatment of lung diseases via nanoparticles and nanorobots: Are these viable alternatives to overcome current treatments?
Materials Today Bio , 31 , 101616 , 2025 , Impact Factor: 10.2 , Q1
Combination of Dendrimers and Exosomes: Implications for Biomedical Applications
Macromolecular Bioscience , 25 (6) , 2500014 , 2025 , Impact Factor: 4.1 , Q2
Redox-responsive micellar nanoparticles using benzothiazole-disulfide terminated polymers: employing host-guest complexation for targeted delivery of curcumin
Polymer Chemistry , 16 (11) , 1272-1284 , 2025 , Impact Factor: 3.9 , Q2
Redox-Responsive Cleavable Polymeric Brush Coated Magnetic Nanoparticles: Fabrication and Post-Polymerization Modification for Cellular Targeting
Biomacromolecules , 26 (3) , 1555-1570 , 2025 , Impact Factor: 5.4 , Q1
Stimuli-responsive polymers at the interface with biology
Biomacromolecules , 26 (3) , 1387-1390 , 2025 , Impact Factor: 5.4 , Q1
2024
Dual-functionalizable thiolactone-containing polymer brush-coated magnetic nanoparticles: ‘Clickable’ and redox-responsive platforms
European Polymer Journal , 220 , 113441 , 2024 , Impact Factor: 5.8 , Q1
‘Clickable’ polymer brush coated magnetic nanoparticles: Employing Diels-Alder and azide-alkyne cycloaddition for modular targeted drug delivery platforms
European Polymer Journal , 220 , 113490 , 2024 , Impact Factor: 5.8 , Q1
Tetrazine-based inverse-electron-demand Diels–Alder reaction: a powerful tool for fabrication and functionalization of polymeric materials
Polymer Chemistry , 15 (41) , 4173-4195 , 2024 , Impact Factor: 4.1 , Q2
Furan-containing polymer-coated magnetic nanoparticles using the ‘graft-to’ approach
Journal of Macromolecular Science Part A: Pure & Applied Chemistry , 61 (10) , 752-759 , 2024 , Impact Factor: 2.1 , Q3
Molecularly imprinted polymers for the detection of volatile biomarkers
TrAC Trends in Analytical Chemistry , 177 , 117783 , 2024 , Impact Factor: 11.8 , Q1
Stimuli-Responsive Polymers at the Interface with Biology
Biomacromolecules , 25 (9) , 5417-5436 , 2024 , Impact Factor: 5.5 , Q1
Theranostic nanogels: multifunctional agents for simultaneous therapeutic delivery and diagnostic imaging
Nanoscale , 16 (29) , 14033-14056 , 2024 , Impact Factor: 5.8 , Q1
Electrospun photothermally active graphene-based nanofibers with a Retro-Diels-Alder reaction to initiate drug release
European Polymer Journal , 210 , 112946 , 2024 , Impact Factor: 6 , Q1
Redox-Responsive "Catch and Release" Cryogels: A Versatile Platform for Capture and Release of Proteins and Cells
ACS Biomaterials Science & Engineering , 10 (5) , 3017-3028 , 2024 , Impact Factor: 5.7 , Q2
Metal-Free Click-Chemistry: A Powerful Tool for Fabricating Hydrogels for Biomedical Applications
Bioconjugate Chemistry , 35 (4) , 433-452 , 2024 , Impact Factor: 4.7 , Q1
2023
Redox-responsive biodegradable dendronized polymers: A side-chain modulation based fabrication of drug delivery vehicles
European Polymer Journal , 201 (11) , 112548 , 2023 , Impact Factor: 6.0 , Q1
Porous Microgels for Delivery of Curcumin: Microfluidics-Based Fabrication and Cytotoxicity Evaluation
Micromachines , 14 (10) , 1969 , 2023 , Impact Factor: 3.4 , Q2
Redox-responsive nanogels for drug-delivery: thiol-maleimide and thiol-disulfide exchange chemistry as orthogonal tools for fabrication and degradation
Polymer Chemistry , 14 (34) , 3897-3905 , 2023 , Impact Factor: 4.6 , Q1
Plug-and-Play Biointerfaces: Harnessing Host-Guest Interactions for Fabrication of Functional Polymeric Coatings
Biomacromolecules , 24 (8) , 3568-3579 , 2023 , Impact Factor: 6.2 , Q1
Molecularly Imprinted Polymeric Particles Created Using Droplet-Based Microfluidics: Preparation and Applications
Micromachines , 14 (4) , 763 , 2023 , Impact Factor: 3.4 , Q2
Hyaluronic-acid based redox-responsive hydrogels using the Diels-Alder reaction for on-demand release of biomacromolecules
Journal of Macromolecular Science Part A: Pure & Applied Chemistry , 60 (4) , 246-254 , 2023 , Impact Factor: 2.5 , Q3
Biodegradable Antibacterial Bioorthogonal Polymeric Nanocatalysts Prepared by Flash Nanoprecipitation
ACS Applied Materials & Interfaces , 15 (12) , 15260-15268 , 2023 , Impact Factor: 9.5 , Q1
Self-Assembly of Cyclodextrin-Coated Nanoparticles: Fabrication of Functional Nanostructures for Sensing and Delivery
Molecules , 28 (3) , 1076 , 2023 , Impact Factor: 4.6 , Q2
pH-Responsive Nanofiber Buttresses as Local Drug Delivery Devices
Biomaterials Science , 11 (3) , 813-821 , 2023 , Impact Factor: 6.6 , Q2
2022
Cyclodextrin-containing redox-responsive nanogels: Fabrication of a modular targeted drug delivery system
European Polymer Journal , 181 , 111645 , 2022 , Impact Factor: 5.546 , Q1
Molecularly Imprinted Polymer-Coated Inorganic Nanoparticles: Fabrication and Biomedical Applications
Micromachines , 13 (9) , 1464 , 2022 , Impact Factor: 3.523 , Q2
Fast-Forming Dissolvable Redox-Responsive Hydrogels: Exploiting the Orthogonality of Thiol-Maleimide and Thiol-Disulfide Exchange Chemistry
Biomacromolecules , 23 (9) , 3525-3534 , 2022 , Impact Factor: 6.978 , Q1
Catch and release strategy of matrix metalloprotease aptamers via thiol–disulfide exchange reaction on a graphene based electrochemical sensor
Sensors and Diagnostics , 1 , 739-749 , 2022 , Impact Factor: TBA
Redox-Responsive Hydrogels for Tunable and “On-Demand” Release of Biomacromolecules
Bioconjugate Chemistry , 33 (5) , 839-847 , 2022 , Impact Factor: 6.069 , Q1
Functional polymeric coatings: thiol-maleimide ‘click’ chemistry as a powerful surface functionalization tool
Journal of Macromolecular Science Part A: Pure & Applied Chemistry , 59 (7) , 443-455 , 2022 , Impact Factor: 2.216 , Q2
Benzothiazole-disulfide based redox-responsive polymers: facile access to reversibly functionalizable polymeric coatings
Polymer Chemistry , 13 (18) , 2595-2607 , 2022 , Impact Factor: 5.364 , Q1
Photothermal Activatable Mucoadhesive Fiber Mats for On-Demand Delivery of Insulin via Buccal and Corneal Mucosa
ACS Applied Bio Materials , 5 (2) , 771–778 , 2022 , Impact Factor: 4.7 , Q2
Hydrophilic Cross-Linked Polymeric Nanofibers Using Electrospinning: Imparting Aqueous Stability to Enable Biomedical Applications
ACS Applied Polymer Materials , 4 (1) , 1-17 , 2022 , Impact Factor: 4.855 , Q1
2021
Tailoring Aqueous Dispersibility and Biofunctionalization of Carbon Nanotubes Using Maleimide-Containing Clickable Polymers
ACS Applied Polymer Materials , 3 (11) , 5707-5716 , 2021 , Impact Factor: 4.09 , Q1
Biodegradable Poly(lactic acid) Stabilized Nanoemulsions for the Treatment of Multidrug-Resistant Bacterial Biofilms
ACS Applied Materials and Interfaces , 13 , 40325-40331 , 2021 , Impact Factor: 9.23 , Q1
Succinimidyl Carbonate-Based Amine-Reactive Polymer Brushes: Facile Fabrication of Functional Interfaces
ACS Applied Polymer Materials , 3 (5) , 2507-2517 , 2021 , Impact Factor: 4.09 , Q1
2020
Multifunctional and Transformable ‘Clickable’Hydrogel Coatings on Titanium Surfaces: From Protein Immobilization to Cellular Attachment
olymers (MDPI) , 12 (6) , 1211 , 2020 , Impact Factor: 3.426 , Q1
Thiol-reactive thiosulfonate group containing copolymers: facile entry to disulfide-mediated polymer conjugation and redox-responsive functionalizable networks
Polymer Chemistry (RSC) , 11 (10) , 1763-1773 , 2020 , Impact Factor: 5.342 , Q1
Cyclodextrin embedded covalently crosslinked networks: synthesis and applications of hydrogels with nano-containers
Polymer Chemistry (RSC) , 11 (3) , 615-629 , 2020 , Impact Factor: 5.342 , Q1
Micropatterned Reactive Nanofibers: Facile Fabrication of a Versatile Biofunctionalizable Interface
ACS Applied Polymer Materials , 2 (9) , 4026-4036 , 2020
Expanding the versatility of poly (dimethylsiloxane) through polymeric modification: an effective approach for improving triboelectric energy harvesting performance
Smart Materials and Structures (IOP) , 29 (3) , 035024 , 2020 , Impact Factor: 3.613 , Q1
Thiol-Reactive Clickable Cryogels: Importance of Macroporosity and Linkers on Biomolecular Immobilization
Bioconjugate Chemistry , 31 , 2116-2124 , 2020 , Impact Factor: 4.031 , Q1
Fabrication of Patterned Hydrogel Interfaces: Exploiting the Maleimide Group as a Dual Purpose Handle for Cross-Linking and Bioconjugation
Bioconjugate Chemistry , 31 (5) , 1382-1391 , 2020 , Impact Factor: 4.031 , Q1
Trastuzumab targeted micellar delivery of docetaxel using dendron-polymer conjugates
Biomaterials Science (RSC) , 8 (9) , 2600-2610 , 2020 , Impact Factor: 6.183 , Q1
2019
Orthogonally “Clickable” Biodegradable Nanofibers: Tailoring Biomaterials for Specific Protein Immobilization
ACS Omega , 4 (1) , 121-129 , 2019 , Impact Factor: 4.1 , Q2
Dendron–Polymer Conjugate Based Cross-Linked Micelles: A Robust and Versatile Nanosystem for Targeted Delivery
Bioconjugate Chemistry , 30 (4) , 1087-1097 , 2019 , Impact Factor: 4.485 , Q1
Magnetic glyconanoparticles for selective lectin separation and purification
Polymer Chemistry , 10 , 3351-3362 , 2019 , Impact Factor: 5.342 , Q1
Thiol-Reactive Polymers for Titanium Interfaces: Fabrication of Antimicrobial Coatings
ACS Applied Polymer Materials , 16 , 1308-1316 , 2019
2018
Biodegradable Nanocomposite Antimicrobials for the Eradication of Multidrug-Resistant Bacterial Biofilms without Accumulated Resistance
Journal of the American Chemical Society , 140 , 6176-6182 , 2018 , Impact Factor: 14.357 , Q1
Reduced Graphene-Oxide-Embedded Polymeric Nanofiber Mats: An "On-Demand" Photothermally Triggered Antibiotic Release Platform
Applied Materials&Interfaces , 10 , 41098-41106 , 2018 , Impact Factor: 8.097 , Q1
Humidity induced inhibition and enhancement of spontaneous emission of dye molecules in a single PEG nanofiber
Optical Materials Express , 8 (3) , 568-580 , 2018 , Impact Factor: 2.566 , Q2
Surfactant-Free Direct Access to Porphyrin-Cross-Linked Nanogels for Photodynamic and Photothermal Therapy
Bioconjugate Chemistry , 29 , 4149-4159 , 2018 , Impact Factor: 4.71 , Q1
Drug Delivery Systems from Self-Assembly of Dendron-Polymer Conjugates
Molecules , 23 (7) , 1570 , 2018 , Impact Factor: 3.098 , Q2
The Taming of the Maleimide: Fabrication of Maleimide‐Containing ‘Clickable’ Polymeric Materials
The Chemical Record , 18 , 570-586 , 2018 , Impact Factor: 4.891 , Q1
Multi-Functional Nanogels as Theranostic Platforms: Exploiting Reversible and Nonreversible Linkages for Targeting, Imaging, and Drug Delivery
Bioconjugate Chemistry , 29 , 1885-1896, , 2018 , Impact Factor: 4.485 , Q1
Facile Fabrication of a Modular “Catch and Release” Hydrogel Interface: Harnessing Thiol–Disulfide Exchange for Reversible Protein Capture and Cell Attachment
Applied Materials&Interfaces , 10 , 14399-14409 , 2018 , Impact Factor: 8.097 , Q1
Biodegradable Nanocomposite Antimicrobials for the Eradication of Multidrug-Resistant Bacterial Biofilms without Accumulated Resistance
Journal of the American Chemical Society , 140 , 6176-6182 , 2018 , Impact Factor: 14.357 , Q1
2017
Functionalization of Reduced Graphene Oxide via Thiol–Maleimide “Click” Chemistry: Facile Fabrication of Targeted Drug Delivery Vehicles
ACS Applied Materials & Interfaces , 9 (39) , 34194-34203 , 2017 , Impact Factor: 7.823 , Q1
Magnetic Reduced Graphene Oxide Loaded Hydrogels: Highly Versatile and Efficient Adsorbents for Dyes and Selective Cr(VI) Ions Removal
Journal of Colloid and Interface Science , 507 , 360-369 , 2017 , Impact Factor: 4.233 , Q1
Surface-Anchored Thiol-Reactive Soft Interfaces: Engineering Effective Platforms for Biomolecular Immobilization and Sensing
ACS Applied Material & Interfaces , 9 (33) , 27946-27954 , 2017 , Impact Factor: 7.504 , Q1
Diels–Alder “Clickable” Biodegradable Nanofibers: Benign Tailoring of Scaffolds for Biomolecular Immobilization and Cell Growth
Bioconjugate Chemistry , 28 (9) , 2420-2428 , 2017 , Impact Factor: 4.574 , Q1
Dendrons and Multiarm Polymers with Thiol-Exchangeable Cores: A Reversible Conjugation Platform for Delivery
Biomacromolecules , 18 (8) , 2463–2477 , 2017 , Impact Factor: 5.246 , Q1
Orthogonal Thiol–ene ‘Click’ Reactions: A Powerful Combination for Fabrication and Functionalization of Patterned Hydrogels
Chemical Communications , 53 , 8894-8897 , 2017 , Impact Factor: 6.319 , Q1
Hooked on Cryogels: A Carbamate Linker Based Depot for Slow Drug Release
Bioconjugate Chemistry , 28 (5) , 1443–1451 , 2017 , Impact Factor: 4.574 , Q1
Diels-Alder "Clickable" Polymer Brushes: A Versatile Catalyst-Free Conjugation Platform
ACS Macro Letters , 6 (4) , 415–420 , 2017 , Impact Factor: 6.073 , Q1
Reversible Light-Switching of Enzymatic Activity on Orthogonally Functionalized Polymer Brushes
ACS Applied Materials & Interfaces , 9 (11) , 9245–9249 , 2017 , Impact Factor: 7.823 , Q1
Multiarm Star Polymers with a Thermally Cleavable Core: A “Grafting-from” Approach Paves the Way
ournal of Polymer Science Part A-Polymer Chemistry , 55 (5) , 885–893 , 2017 , Impact Factor: 2.598 , Q1
Interplay between Molecular Packing, Drug Loading, and Core Cross-Linking in Bottlebrush Copolymer Micelles
Macromolecules , 50 (4) , 1342–1352 , 2017 , Impact Factor: 5.728 , Q1
"Clickable" Nanogels via Thermally Driven Self-Assembly of Polymers: Facile Access to Targeted Imaging Platforms using Thiol-Maleimide Conjugation
Biomacromolecules , 18 (2) , 490–497 , 2017 , Impact Factor: 6.001 , Q1
Photothermally Triggered on-demand Insulin Release from Reduced Graphene Oxide Modified Hydrogels
Journal of Controlled Release , 246 , 164-173 , 2017 , Impact Factor: 8.450 , Q1
2016
Synthesis and Functionalization of Dendron-Polymer Conjugate Based Hydrogels via Sequential Thiol-ene “Click” Reactions
Journal Of Polymer Science Part A: Polymer Chemistry , 54 , 926–934 , 2016 , Impact Factor: 3.113 , Q1
Best of Both Worlds: Diels-Alder Chemistry Towards Fabrication of Redox-Responsive Degradable Hydrogels for Protein Release
RSC Advances , 6 , 74757-74764 , 2016 , Impact Factor: 3.289 , Q1
Modular Fabrication of Polymer Brush Coated Magnetic Nanoparticles: Engineering the Interface for Targeted Cellular Imaging
Applied Materials and Intefaces , 8 (30) , 19813–19826 , 2016 , Impact Factor: 7.145 , Q1
Multireactive Poly(2-oxazoline) Nanofibers through Electrospinning with Crosslinking on the Fly
Macro Letters , 5 (6) , 676–681 , 2016 , Impact Factor: 5.766 , Q1
2015
Design and Synthesis of Water-Soluble Multifunctionalizable Thiol-Reactive Polymeric Supports for Cellular Targeting
Bioconjugate Chemistry , 26 (8) , 1550–1560 , 2015 , Impact Factor: 4.513 , Q1
Fabrication of Thiol-Ene "Clickable" Copolymer-Brush Nanostructures on Polymeric Substrates via Extreme Ultraviolet Interference Lithography
ACS Applied Materials and Interfaces , 7 (21) , 11337-11345 , 2015 , Impact Factor: 6.723 , Q1
Humidity Sensing Mechanism Based on the Distance Dependent Interactions between BODIPY Dye Molecules and Gold Thin Films
Sensors and Actuators A: Physical , 227 , 21-30 , 2015 , Impact Factor: 1.903 , Q1
Reactive and ‘Clickable’ Electrospun Polymeric Nanofibers
Polymer Chemistry , 6 , 3372-3381 , 2015 , Impact Factor: 5.520 , Q1
“Clickable” Polymeric Nanofibers through Hydrophilic–Hydrophobic Balance: Fabrication of Robust Biomolecular Immobilization Platforms
Biomacromolecules , 16 (5) , 1590–1597 , 2015 , Impact Factor: 5.750 , Q1
Fabrication of Poly(ethylene glycol)-Based Cyclodextrin Containing Hydrogels via Thiol-ene Click Reaction
European Polymer Journal , 62 , 426–434 , 2015 , Impact Factor: 3.005 , Q1
Cyclodextrin-Containing Hydrogel Networks
Encyclopedia of Biomedical Polymers and Polymeric Biomaterials Taylor & Francis , Vol. 1 , pp 2243-2258 , 2015
2014
Tunable Elastic Modulus of Nanoparticle Monolayer Films by Host–Guest Chemistry
26 (29) , 5056–5061 , 2014 , Impact Factor: 15.409 , Q1
Clickable Poly(ethylene glycol)-Based Copolymers Using Azide–Alkyne Click Cycloaddition-Mediated Step-Growth Polymerization
Macromolecular Chemistry and Physics , 215 (22) , 2237–2247 , 2014 , Impact Factor: 2.451 , Q1
Bioinspired Anchorable Thiol-Reactive Polymers: Synthesis and Applications Toward Surface Functionalization of Magnetic Nanoparticles
Macromolecules , 47 (15) , 5124–5134 , 2014 , Impact Factor: 5.927 , Q1
Fabrication of a planar water gated organic field effect transistor using a hydrophilic polythiophene for improved digital inverter performance
Organic Electronics , 15 (3) , 646–653 , 2014 , Impact Factor: 3.836 , Q1
Clickable’ hydrogels for all: facile fabrication and functionalization
Biomaterials Science , 2 , 67–75 , 2014
Cyclodextrin Mediated Polymer Coupling via Thiol–Maleimide Conjugation: Facile Access to Functionalizable Hydrogels
RSC Advance , 4 (101) , 57834-57841 , 2014 , Impact Factor: 3.708 , Q1
Indispensable Platforms for Bioimmobilization: Maleimide-Based Thiol Reactive Hydrogels
Bioconjugate Chemistry , 25 (11) , 2004–2011 , 2014 , Impact Factor: 4.821 , Q1
Maleimide-Functionalized Thiol Reactive Copolymer Brushes: Fabrication and Post-Polymerization Modification
Macromolecules , 7842–7851 , 2014 , Impact Factor: 5.927 , Q1
2013
Dendronized polystyrene via orthogonal double-click reactions
Journal Of Polymer Science Part A: Polymer Chemistry , 51 (23) , 5029–5037 , 2013 , Impact Factor: 3.543 , Q1
Sequence-controlled polymerization using dendritic macromonomers: precise chain-positioning of bulky functional clusters
Chemical Communications , 49 , 7280-7282 , 2013 , Impact Factor: 6.378 , Q1
Dendron–polymer conjugates via the diels–alder “click” reaction of novel anthracene-based dendrons
Journal Of Polymer Science Part A: Polymer Chemistry , 51 (15) , 3191–3201 , 2013 , Impact Factor: 3.543 , Q1
pH degradable dendron-functionalized poly(2-ethyl-2-oxazoline) prepared by a cascade “double-click” reaction
Polymer Chemistry , 4 (11) , 3236-3244 , 2013 , Impact Factor: 5.231 , Q1
Fabrication of Stable Nanoparticle-Based Colloidal Microcapsules
Current Organic Chemistry , 17 (1) , 49-57 , 2013 , Impact Factor: 3.039 , Q1
2012
Wavelength and coherence effects on the growth mechanism of silicon nanopillars and their use in the modification of spontaneous lifetime emission of BODIPY dye molecules
Applied Physics A , 108 (4) , 801-807 , 2012 , Impact Factor: 1.545 , Q1
Design and Synthesis of Novel “Orthogonally” Functionalizable Maleimide-Based Styrenic Copolymers
Macromolecular Rapid Communications , 33 (9) , 856-862 , 2012 , Impact Factor: 4.929 , Q1
The Effect of the Strength and Direction of Magnetic Field on the Assembly of Magnetic Nanoparticles Into Higher Structures
Journal of Nanoscience and Nanotechnology , 12 (3) , 2761-2766 , 2012 , Impact Factor: 1.149 , Q2
Functionalization of Reactive Polymeric Coatings via Diels–Alder Reaction Using Microcontact Printing
Macromolecular Chemistry and Physics , 213 (2) , 166–172 , 2012 , Impact Factor: 2.386 , Q1
Double click reaction strategies for polymer conjugation and post-functionalization of polymers
Polymer Chemistry , 3 , 825-835 , 2012 , Impact Factor: 5.231 , Q1
Synthesis and Functionalization of Thiol-Reactive Biodegradable Polymers
Macromolecules , 45 (3) , 1715–1722 , 2012 , Impact Factor: 5.521 , Q1
2011
Metal-Free Functionalization of Linear Polyurethanes by Thiol-Maleimide Coupling Reactions
Macromolecules , 44 (20) , 7874-7878 , 2011 , Impact Factor: 5.521 , Q1
Fabrication and Functionalization of Hydrogels through “Click” Chemistry
Chemistry - An Asian Journal , 6 (10) , 2648-2659 , 2011 , Impact Factor: 4.572 , Q1
Origins of the diastereoselectivity in hydrogen bonding directed Diels–Alder reactions of chiral dienes with achiral dienophiles: a computational study
Organic & Biomolecular Chemistry , 9 (23) , 8079-8088 , 2011 , Impact Factor: 3.568 , Q1
Discrete macromolecular constructs via the Diels–Alder “Click” reaction
Journal Of Polymer Science Part A: Polymer Chemistry , 49 (19) , 4103-4129 , 2011 , Impact Factor: 3.543 , Q1
Direct Fabrication of Functional and Biofunctional Nanostructures Through Reactive Imprinting
Advanced Materials , 23 (28) , 3165–3169 , 2011 , Impact Factor: 14.829 , Q1
Orthogonally “Clickable” Biodegradable Dendrons
Macromolecules , 44 (8) , 2707-2714 , 2011 , Impact Factor: 5.521 , Q1
2010
Colloidal Microcapsules: Self-Assembly of Nanoparticles at the Liquid-Liquid Interface
Chemistry - An Asian Journal , 5 (12) , 2442-2453 , 2010 , Impact Factor: 4.572 , Q1
Multiarm star polymers with peripheral dendritic PMMA arms through Diels–Alder click reaction
Journal Of Polymer Science Part A: Polymer Chemistry , 48 (21) , 4842–4846 , 2010 , Impact Factor: 3.543 , Q1
FRET between BODIPY Azide Dye Clusters within PEG-Based Hydrogel: A Handle to Measure Stimuli Responsiveness
The Journal of Physical Chemistry B , 114 (34) , 10954-10960 , 2010 , Impact Factor: 3.607 , Q1
Diels-Alder Cycloaddition-Cycloreversion: A Powerful Combo in Materials Design
Macromolecular Chemistry and Physics , 211 (13) , 1417-1425 , 2010 , Impact Factor: 2.386 , Q1
Maleimide-based thiol reactive multiarm star polymers via Diels-Alder/retro Diels-Alder strategy
Journal Of Polymer Science Part A: Polymer Chemistry , 48 (12) , 2546-2556 , 2010 , Impact Factor: 3.543 , Q1
Molecular Recognition Induced Self-Assembly of Diblock Copolymers: Microspheres to Vesicles
Macromolecular Bioscience , 10 (5) , 481–487 , 2010 , Impact Factor: 3.742 , Q1
Fabrication of Maleimide Containing Thiol Reactive Hydrogels via Diels−Alder/Retro-Diels−Alder Strategy
Macromolecules , 43 (9) , 4140–4148 , 2010 , Impact Factor: 5.521 , Q1
Assembly of magnetic nanoparticles into higher structures on patterned magnetic beads under the influence of magnetic field
Nanotechnology , 21 (12) , 125603 , 2010 , Impact Factor: 3.842 , Q1
Recognition mediated encapsulation and isolation of flavin–polymer conjugates using dendritic guest moieties
Chemical Communications , 46 (12) , 2067-2069 , 2010 , Impact Factor: 6.378 , Q1
Dendronized polymers via Diels–Alder “click” reaction
Journal Of Polymer Science Part A: Polymer Chemistry , 48 (2) , 410–416 , 2010 , Impact Factor: 3.543 , Q1
Dendron-anchored organocatalysts: the asymmetric reduction of imines with trichlorosilane, catalysed by an amino acid-derived formamide appended to a dendron
Organic & Biomolecular Chemistry , 8 (1) , 137-141 , 2010 , Impact Factor: 3.568 , Q1
