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- Antimicrobial Materials for Biomedical Applications, Chapter 5 Synthetic Cationic Water-soluble Antimicrobial Polymers: An Alternative to Conventional Small-molecule Antibiotics. Steven Mankoci, Chao Peng, Abraham Joy
, 2019
, Pages 137-170
- Nuclear Magnetic Resonance: Volume 40, Synthetic macromolecules. Hiromichi Kurosu, Takeshi Yamanobe
, 2011
, Volume 40
, Pages 391-431
- Nuclear Magnetic Resonance: Volume 33, Synthetic macromolecules. G. A. Webb, Hiromichi Kurosu, Takeshi Yamanobe
, 2004
, Volume 33
, Pages 386-438
- Polymeric Materials with Antimicrobial Activity: From Synthesis to Applications, CHAPTER 5 Polymer-Based Synthetic Mimics of Antimicrobial Peptides (SMAMPs) – A New Class of Nature-Inspired Antimicrobial Agents with Low Bacterial Resistance Formation Potential. Franziska Dorner, Karen Lienkamp
, 2014
, Pages 97-138
- Redox Polymers for Energy and Nanomedicine, Chapter 2 Synthetic Strategies and Methods for Redox Polymers. Yanlin Shi, Michael J. Monteiro, Zhongfan Jia
, 2021
, Pages 27-92
- Miktoarm Star Polymers: From Basics of Branched Architecture to Synthesis, Self-assembly and Applications, CHAPTER 3 Facile Synthesis of Multicomponent Star Copolymers via Controlled Polymerization and Click Chemistry. Youliang Zhao
, 2017
, Pages 56-89
- Bio-Synthetic Hybrid Materials and Bionanoparticles: A Biological Chemical Approach Towards Material Science, CHAPTER 3 Channel Protein FhuA as a Promising Biomolecular Scaffold for Bioconjugates. Leilei Zhu, Marcus Arlt, Haifeng Liu, Marco Bocola, Daniel F. Sauer, Steve Gotzen, Jun Okuda, Ulrich Schwaneberg
, 2015
, Pages 57-72
- Miktoarm Star Polymers: From Basics of Branched Architecture to Synthesis, Self-assembly and Applications, CHAPTER 6 Synthetic Articulation of Miktoarm Polymers for Applications in Biology. Anjali Sharma, Rishi Sharma, Ahmed Abouelmagd, Ashok Kakkar
, 2017
, Pages 150-180
- Organophosphorus Chemistry: Volume 38, Phosphines and related P–C-bonded compounds. D. W. Allen
, 2009
, Volume 38
, Pages 13-63
- Zeolites in Catalysis: Properties and Applications, Chapter 11 Zeolites for Fine Chemistry. Maksym Opanasenko
, 2017
, Pages 409-440