SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Anika M. Jonker, Annika Borrmann, Ernst R. H. van Eck, Floris L. van Delft, Dennis W. P. M. Löwik, Jan C. M. van Hest, A Fast and Activatable Cross-Linking Strategy for Hydrogel Formation, Advanced Materials, 2014, 26, 48
  2. 2
    Christian Pitzler, Georgette Wirtz, Ljubica Vojcic, Stephanie Hiltl, Alexander Böker, Ronny Martinez, Ulrich Schwaneberg, A Fluorescent Hydrogel-Based Flow Cytometry High-Throughput Screening Platform for Hydrolytic Enzymes, Chemistry & Biology, 2014, 21, 12, 1733

    CrossRef

  3. 3
    Apoorva S. Salimath, Andrés J. García, Biofunctional hydrogels for skeletal muscle constructs, Journal of Tissue Engineering and Regenerative Medicine, 2014, 8, 12
  4. 4
    Daniel D. McKinnon, Dylan W. Domaille, Jennifer N. Cha, Kristi S. Anseth, Biophysically Defined and Cytocompatible Covalently Adaptable Networks as Viscoelastic 3D Cell Culture Systems, Advanced Materials, 2014, 26, 6
  5. 5
    Asha Shekaran, José R. García, Amy Y. Clark, Taylor E. Kavanaugh, Angela S. Lin, Robert E. Guldberg, Andrés J. García, Bone regeneration using an alpha 2 beta 1 integrin-specific hydrogel as a BMP-2 delivery vehicle, Biomaterials, 2014, 35, 21, 5453

    CrossRef

  6. 6
    Yanjiao Jiang, Jing Chen, Chao Deng, Erik J. Suuronen, Zhiyuan Zhong, Click hydrogels, microgels and nanogels: Emerging platforms for drug delivery and tissue engineering, Biomaterials, 2014, 35, 18, 4969

    CrossRef

  7. 7
    Yiting Hao, Chien-Chi Lin, Degradable thiol-acrylate hydrogels as tunable matrices for three-dimensional hepatic culture, Journal of Biomedical Materials Research Part A, 2014, 102, 11
  8. 8
    Jonathan Lam, William E. Lowry, S. Thomas Carmichael, Tatiana Segura, Delivery of iPS-NPCs to the Stroke Cavity within a Hyaluronic Acid Matrix Promotes the Differentiation of Transplanted Cells, Advanced Functional Materials, 2014, 24, 44
  9. 9
    Mathew Patenaude, Niels M. B. Smeets, Todd Hoare, Designing Injectable, Covalently Cross-Linked Hydrogels for Biomedical Applications, Macromolecular Rapid Communications, 2014, 35, 6
  10. 10
    Yoji Tabata, Ikki Horiguchi, Matthias P. Lutolf, Yasuyuki Sakai, Development of bioactive hydrogel capsules for the 3D expansion of pluripotent stem cells in bioreactors, Biomaterials Science, 2014, 2, 2, 176

    CrossRef

  11. 11
    Prathamesh M. Kharkar, April M. Kloxin, Kristi L. Kiick, Dually degradable click hydrogels for controlled degradation and protein release, Journal of Materials Chemistry B, 2014, 2, 34, 5511

    CrossRef

  12. 12
    Keila B. Fonseca, Pedro L. Granja, Cristina C. Barrias, Engineering proteolytically-degradable artificial extracellular matrices, Progress in Polymer Science, 2014, 39, 12, 2010

    CrossRef

  13. 13
    Haiyan Jia, Zhao Li, Xinling Wang, Zhen Zheng, Facile functionalization of a tetrahedron-like PEG macromonomer-based fluorescent hydrogel with high strength and its heavy metal ion detection, J. Mater. Chem. A, 2014, 3, 3, 1158

    CrossRef

  14. 14
    Ankur Singh, Nicholas A. Peppas, Hydrogels and Scaffolds for Immunomodulation, Advanced Materials, 2014, 26, 38
  15. 15
    Carmen Mabel González Henríquez, Guadalupe del Carmen Pizarro Guerra, Mauricio Alejandro Sarabia Vallejos, Susana Dennis Rojas de la Fuente, María Teresa Ulloa Flores, Lina María Rivas Jimenez, In situ silver nanoparticle formation embedded into a photopolymerized hydrogel with biocide properties, Journal of Nanostructure in Chemistry, 2014, 4, 4, 119

    CrossRef

  16. 16
    Niels M. B. Smeets, Mathew Patenaude, Dennis Kinio, Francis M. Yavitt, Emilia Bakaic, Fei-Chi Yang, Maikel Rheinstädter, Todd Hoare, Injectable hydrogels with in situ-forming hydrophobic domains: oligo(d,l-lactide) modified poly(oligoethylene glycol methacrylate) hydrogels, Polym. Chem., 2014, 5, 23, 6811

    CrossRef

  17. 17
    Ted T. Lee, José R. García, Julieta I. Paez, Ankur Singh, Edward A. Phelps, Simone Weis, Zahid Shafiq, Asha Shekaran, Aránzazu del Campo, Andrés J. García, Light-triggered in vivo activation of adhesive peptides regulates cell adhesion, inflammation and vascularization of biomaterials, Nature Materials, 2014,

    CrossRef

  18. 18
    Devon M. Headen, Guillaume Aubry, Hang Lu, Andrés J. García, Microfluidic-Based Generation of Size-Controlled, Biofunctionalized Synthetic Polymer Microgels for Cell Encapsulation, Advanced Materials, 2014, 26, 19
  19. 19
    Lei Cai, Cong B. Dinh, Sarah C. Heilshorn, One-pot synthesis of elastin-like polypeptide hydrogels with grafted VEGF-mimetic peptides, Biomaterials Science, 2014, 2, 5, 757

    CrossRef

  20. 20
    Andrés J. García, PEG–Maleimide Hydrogels for Protein and Cell Delivery in Regenerative Medicine, Annals of Biomedical Engineering, 2014, 42, 2, 312

    CrossRef

  21. 21
    Li-Hsin Han, Xinming Tong, Fan Yang, Photo-crosslinkable PEG-Based Microribbons for Forming 3D Macroporous Scaffolds with Decoupled Niche Properties, Advanced Materials, 2014, 26, 11
  22. 22
    Yunlong Wang, Buchang Zhang, Lin Zhu, Yanjie Li, Fangzhi Huang, Shikuo Li, Yuhua Shen, Anjian Xie, Preparation and Multiple Antitumor Properties of AuNRs/Spinach Extract/PEGDA Composite Hydrogel, ACS Applied Materials & Interfaces, 2014, 140826081159005

    CrossRef

  23. 23
    Charles W. Peak, Saumya Nagar, Ryan D. Watts, Gudrun Schmidt, Robust and Degradable Hydrogels from Poly(ethylene glycol) and Semi-Interpenetrating Collagen, Macromolecules, 2014, 47, 18, 6408

    CrossRef

  24. 24
    Zhenzhen Liu, Qiuning Lin, Yun Sun, Tao Liu, Chunyan Bao, Fuyou Li, Linyong Zhu, Spatiotemporally Controllable and Cytocompatible Approach Builds 3D Cell Culture Matrix by Photo-Uncaged-Thiol Michael Addition Reaction, Advanced Materials, 2014, 26, 23
  25. 25
    Andrew E. Rodda, Laurence Meagher, David R. Nisbet, John S. Forsythe, Specific control of cell–material interactions: Targeting cell receptors using ligand-functionalized polymer substrates, Progress in Polymer Science, 2014, 39, 7, 1312

    CrossRef

  26. 26
    Martin Hetzer, Bernhard V. K. J. Schmidt, Christopher Barner-Kowollik, Helmut Ritter, Supramolecular polymer networks of building blocks prepared via RAFT polymerization, Polymer Chemistry, 2014, 5, 6, 2142

    CrossRef

  27. 27
    A. Nolan Wilson, Anthony Guiseppi-Elie, Targeting homeostasis in drug delivery using bioresponsive hydrogel microforms, International Journal of Pharmaceutics, 2014, 461, 1-2, 214

    CrossRef

  28. 28
    Devatha P. Nair, Maciej Podgórski, Shunsuke Chatani, Tao Gong, Weixian Xi, Christopher R. Fenoli, Christopher N. Bowman, The Thiol-Michael Addition Click Reaction: A Powerful and Widely Used Tool in Materials Chemistry, Chemistry of Materials, 2014, 26, 1, 724

    CrossRef

  29. 29
    Yiting Hao, Han Shih, Zachary Muňoz, Arika Kemp, Chien-Chi Lin, Visible light cured thiol-vinyl hydrogels with tunable degradation for 3D cell culture, Acta Biomaterialia, 2014, 10, 1, 104

    CrossRef

  30. 30
    Han Shih, Raghavendra G. Mirmira, Chien-Chi Lin, Visible light-initiated interfacial thiol-norbornene photopolymerization for forming an islet surface conformal coating, J. Mater. Chem. B, 2014, 3, 2, 170

    CrossRef

  31. 31
    Maniraj Bhagawati, Sanjay Kumar, Micro- and Nanoengineering of the Cell Surface, 2014,

    CrossRef

  32. 32
    Kenneth C. Koehler, Daniel L. Alge, Kristi S. Anseth, Christopher N. Bowman, A Diels–Alder modulated approach to control and sustain the release of dexamethasone and induce osteogenic differentiation of human mesenchymal stem cells, Biomaterials, 2013, 34, 16, 4150

    CrossRef

  33. 33
    Malar A. Azagarsamy, Kristi S. Anseth, Bioorthogonal Click Chemistry: An Indispensable Tool to Create Multifaceted Cell Culture Scaffolds, ACS Macro Letters, 2013, 2, 1, 5

    CrossRef

  34. 34
    Woon Teck Yap, David M. Salvay, Michael A. Silliman, Xiaomin Zhang, Zachary G. Bannon, Dixon B. Kaufman, William L. Lowe, Lonnie D. Shea, Collagen IV-Modified Scaffolds Improve Islet Survival and Function and Reduce Time to Euglycemia, Tissue Engineering Part A, 2013, 19, 21-22, 2361

    CrossRef

  35. 35
    Mikhail V. Tsurkan, Karolina Chwalek, Silvana Prokoph, Andrea Zieris, Kandice R. Levental, Uwe Freudenberg, Carsten Werner, Defined Polymer–Peptide Conjugates to Form Cell-Instructive starPEG–Heparin Matrices In Situ, Advanced Materials, 2013, 25, 18
  36. 36
    Prathamesh M. Kharkar, Kristi L. Kiick, April M. Kloxin, Designing degradable hydrogels for orthogonal control of cell microenvironments, Chem. Soc. Rev., 2013, 42, 17, 7335

    CrossRef

  37. 37
    Kenneth Christopher Koehler, Kristi S. Anseth, Christopher N. Bowman, Diels–Alder Mediated Controlled Release from a Poly(ethylene glycol) Based Hydrogel, Biomacromolecules, 2013, 14, 2, 538

    CrossRef

  38. 38
    Edward A. Phelps, Kellie L. Templeman, Peter M. Thulé, Andrés J. García, Engineered VEGF-releasing PEG–MAL hydrogel for pancreatic islet vascularization, Drug Delivery and Translational Research, 2013,

    CrossRef

  39. 39
    Amy Y Cheng, Andrés J García, Engineering the matrix microenvironment for cell delivery and engraftment for tissue repair, Current Opinion in Biotechnology, 2013, 24, 5, 864

    CrossRef

  40. 40
    Yunlong Wang, Bing Han, Ronghua Shi, Le Pan, Hui Zhang, Yuhua Shen, Chuanhao Li, Fangzhi Huang, Anjian Xie, Preparation and characterization of a novel hybrid hydrogel shell for localized photodynamic therapy, Journal of Materials Chemistry B, 2013, 1, 46, 6411

    CrossRef

  41. 41
    Yalin Zhou, Wei Nie, Jin Zhao, Xiaoyan Yuan, Rapidly in situ forming adhesive hydrogel based on a PEG-maleimide modified polypeptide through Michael addition, Journal of Materials Science: Materials in Medicine, 2013, 24, 10, 2277

    CrossRef

  42. 42
    Wei Nie, Xiaoyan Yuan, Jin Zhao, Yalin Zhou, Huijing Bao, Rapidly in situ forming chitosan/ε-polylysine hydrogels for adhesive sealants and hemostatic materials, Carbohydrate Polymers, 2013, 96, 1, 342

    CrossRef

  43. 43
    Ting Yang, Michael Malkoch, Anders Hult, Sequential interpenetrating poly(ethylene glycol) hydrogels prepared by UV-initiated thiol–ene coupling chemistry, Journal of Polymer Science Part A: Polymer Chemistry, 2013, 51, 2
  44. 44
    Frederic Delbecq, Katsura Tsujimoto, Yuki Ogue, Takeshi Kawai, Synthesis of green organogelators with a sulfide linkage via solvent-free Michael addition: soft templates for the preparation of size-controlled gold nanoparticles, Tetrahedron Letters, 2013, 54, 7, 651

    CrossRef

  45. 45
    Daniel L. Alge, Malar A. Azagarsamy, Dillon F. Donohue, Kristi S. Anseth, Synthetically Tractable Click Hydrogels for Three-Dimensional Cell Culture Formed Using Tetrazine–Norbornene Chemistry, Biomacromolecules, 2013, 14, 4, 949

    CrossRef

  46. 46
    Asad Raza, Chang Seok Ki, Chien-Chi Lin, The influence of matrix properties on growth and morphogenesis of human pancreatic ductal epithelial cells in 3D, Biomaterials, 2013, 34, 21, 5117

    CrossRef

  47. 47
    Edward A. Phelps, Devon M. Headen, W. Robert Taylor, Peter M. Thulé, Andrés J. García, Vasculogenic bio-synthetic hydrogel for enhancement of pancreatic islet engraftment and function in type 1 diabetes, Biomaterials, 2013, 34, 19, 4602

    CrossRef

  48. 48
    J. Zhu, J. Hu, R.E. Marchant, Biomimetic Biomaterials, 2013,

    CrossRef

  49. 49
    Sachin Kadam, David Gracias, Bioengineered Nanomaterials, 2013,

    CrossRef

  50. 50
    Burke K. Chan, Caitlin C. Wippich, Chia-Jung Wu, Preeti M. Sivasankar, Gudrun Schmidt, Robust and Semi-Interpenetrating Hydrogels from Poly(ethylene glycol) and Collagen for Elastomeric Tissue Scaffolds, Macromolecular Bioscience, 2012, 12, 11
  51. 51
    Hakim Mehenni, Vincent Pourcelle, Jean-François Gohy, Jacqueline Marchand-Brynaert, Synthesis and Application of New Photocrosslinkers for Poly(ethylene glycol), Australian Journal of Chemistry, 2012, 65, 2, 193

    CrossRef