1. Surface plasmon resonance properties of DC magnetron sputtered Ag nanoislands on ITO-glass and In2O3-PET substratesKyeong K. Lee, Helen Koo, Kim Dong-Joo, Michael Hamilton, Virginia Davis, Yoonsung Chung, J Goswami, Fei Tong, Minseo Park, 2014, short scientific article Found in: osebi
Keywords: Ag nanoislands, Surface plasmon resonance properties, DC magnetron sputtere, ITO-glass and In2O3-PET substrates
Published: 16.01.2017; Views: 2920; Downloads: 0
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2. Flexible organic/inorganic hybrid solar cells based on conjugated polymer and ZnO nanorod arrayKyeong K Lee, Minseo ParK, Eunhee Lim, Dong-Joo Kim, Sungkoo Lee, John Williams, Daniel Martinez, Resham Thapa, Ayayi Ahyi, Kyusang Kim, Fei Tong, 2012, original scientific article Found in: osebi
Keywords: organic/inorganic hybrid solar cells, conjugated polymer, ZnO nanorod array
Published: 16.01.2017; Views: 3162; Downloads: 0
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3. Growth of nanostructured ZnO on wearable fabrics for functional garmentMinseo ParK, Fei Tong, Achintya Sujan, Yoonsung Chung, Minseo Park, Bruce Tatarchuk, Helen Koo, Hosang Ahn, Young Soo Yoon, Dong-Joo Kim, 2014, original scientific article Found in: osebi
Keywords: ZnO, Fabrics, Dip-pad-cure method, Nanorods, Diffuse reflectance, IV measurement
Published: 16.01.2017; Views: 2974; Downloads: 0
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4. Growth of ZnO Nanorod Arrays on Flexible Substrates: Effect of Precursor Solution ConcentrationEunhee Lim, Sungkoo Lee, Dong-Joo Kim, Hyejin Park, Hosang Ahn, Tamara Issacs-Smith, John Williams, Ayayi Ahyi, Yogesh Sharma, Aaron Modic, Resham Thapa, Kyusang Kim, Yaqi Wang, Fei Tong, Kyeong K. Lee, Minseo Park, 2012, original scientific article Found in: osebi
Keywords: ZnO Nanorod Arrays, ITO-PET, solution growth
Published: 16.01.2017; Views: 3131; Downloads: 0
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6. Morphological diversity in nanoporous covalent organic materials derived from viologen and pyreneAli Trabolsi, Ramesh Jagannathan, John-Carl Olsen, Jesus Raya, Dong Suk Han, Carlos Platas-Iglesias, Thirumurugan Prakasam, Sudhir Kumar Sharma, Tina Škorjanc, Gobinda Das, original scientific article Found in: osebi
Keywords: covalent organic polymers, hollow tube, polymers, porous materials, iodine capture
Published: 02.09.2020; Views: 1228; Downloads: 0
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7. Immobilization of Redox-Responsive Switches Into Calixarene-Based Covalent Organic Polymers for Environmental ApplicationsAli Trabolsi, Ramesh Jagannathan, Dong Suk Han, Jesus Raya, Sudhir Kumar Sharma, Dinesh Shetty, Tina Skorjanc, 2017, unpublished conference contribution Found in: osebi
Keywords: calixarene, redox switches, dye adsorption
Published: 03.09.2020; Views: 1136; Downloads: 0
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8. Chitosan and their derivatives: Antibiofilm drugs against pathogenic bacteriaFazlurrahman Khan, Dong Pham, Sandra Oloketuyi, Panchanathan Manivasagan, Junghwan Oh, Young-Mog Kim, 2020, review article Abstract: Biofilm formed by several pathogenic bacteria results in the development of resistance against antimicrobial compounds. The polymeric materials present in the biofilm architecture hinder the entry of antimicrobial compounds through the surface of bacterial cells which are embedded as well as enclosed beneath the biofilm matrix. Recent and past studies explored the alternative approaches to inhibit the formation of biofilm by different agents isolated from plants, animals, and microbes. Among these agents, chitosan and its derivatives have got more attention due to their properties such as biodegradability, biocompatibility, non-allergenic and non-toxicity. Recent researches have focused on employing chitosan and its derivatives as effective agents to inhibit biofilm formation and attenuate virulence properties by various pathogenic bacteria. Such antibiofilm activity of chitosan and its derivatives can be further enhanced by conjugation with a wide range of bioactive compounds. The present review describes the antibiofilm properties of chitosan and its derivatives against the pathogenic bacteria. This review also summarizes the mechanisms of biofilm inhibition exhibited by these molecules. The knowledge of the antibiofilm activities of chitosan and its derivatives as well as their underlying mechanisms provides essential insights for widening their applications in the future.
Found in: osebi
Keywords: Antibiofilm, Biofilm inhibition, Chitosan, Chitosan derivatives, Pathogenic bacteria
Published: 14.01.2021; Views: 1124; Downloads: 0
Fulltext (3,95 MB) |
