[ { "key": "7W3CAVBK", "version": 6, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/7W3CAVBK", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/7W3CAVBK", "type": "text/html" }, "up": { "href": "https://api.zotero.org/groups/236011/items/TX5JWFWQ", "type": "application/json" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } } }, "data": { "key": "7W3CAVBK", "version": 6, "parentItem": "TX5JWFWQ", "itemType": "attachment", "linkMode": "linked_url", "title": "Snapshot", "accessDate": "2014-02-21T19:32:47Z", "url": "http://www.tandfonline.com/doi/abs/10.1080/15567241003681874#.Uwep2s51BiY", "note": "", "contentType": "text/html", "charset": "", "tags": [], "relations": {}, "dateAdded": "2014-02-21T19:32:47Z", "dateModified": "2014-02-21T19:32:47Z" } }, { "key": "CFAU9VHA", "version": 6, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/CFAU9VHA", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/CFAU9VHA", "type": "text/html" }, "up": { "href": "https://api.zotero.org/groups/236011/items/TX5JWFWQ", "type": "application/json" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } } }, "data": { "key": "CFAU9VHA", "version": 6, "parentItem": "TX5JWFWQ", "itemType": "attachment", "linkMode": "linked_url", "title": "Full Text PDF", "accessDate": "2014-02-21T19:32:47Z", "url": "http://www.tandfonline.com/doi/pdf/10.1080/15567241003681874", "note": "", "contentType": "application/pdf", "charset": "", "tags": [], "relations": {}, "dateAdded": "2014-02-21T19:32:47Z", "dateModified": "2014-02-21T19:32:47Z" } }, { "key": "TX5JWFWQ", "version": 6, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/TX5JWFWQ", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/TX5JWFWQ", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Yüksel and Arman", "parsedDate": "2014", "numChildren": 2 }, "data": { "key": "TX5JWFWQ", "version": 6, "itemType": "journalArticle", "title": "Energy and Environmental Policies in Turkey", "creators": [ { "creatorType": "author", "firstName": "I.", "lastName": "Yüksel" }, { "creatorType": "author", "firstName": "H.", "lastName": "Arman" } ], "abstractNote": "As would be expected, the rapid expansion of energy production and consumption has brought with it a wide range of environmental issues at the local, regional, and global levels. With respect to global environmental issues, Turkey's carbon dioxide emissions have grown along with its energy consumption. States have played a leading role in protecting the environment by reducing emissions of greenhouse gases. In this regard, renewable energy resources appear to be the one of the most efficient and effective solutions for clean and sustainable energy development in Turkey. Turkey's geographical location has several advantages for extensive use of most of these renewable energy sources. This article presents a review of the energy and environmental policies in Turkey. Over the last few decades, a number of Turkish citizens who live in the eastern part of country have migrated to the western part of the country. This caused some problems in the energy utilization and environmental pollution in the western regions in Turkey. For this reason, in the coming decades, global environmental issues could significantly affect patterns of energy use in Turkey.", "publicationTitle": "Energy Sources, Part B: Economics, Planning, and Policy", "publisher": "", "place": "", "date": "2014", "volume": "9", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "57-69", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "10.1080/15567241003681874", "citationKey": "", "url": "http://www.tandfonline.com/doi/abs/10.1080/15567241003681874", "accessDate": "2014-02-21T19:32:47Z", "PMID": "", "PMCID": "", "ISSN": "1556-7249", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Taylor and Francis+NEJM", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "4EH56BIX" ], "relations": {}, "dateAdded": "2014-02-21T19:32:47Z", "dateModified": "2014-02-21T19:32:47Z" } }, { "key": "HMRABD5K", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/HMRABD5K", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/HMRABD5K", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Mai et al.", "parsedDate": "2010-11-10", "numChildren": 0 }, "data": { "key": "HMRABD5K", "version": 3, "itemType": "journalArticle", "title": "Electrospun Ultralong Hierarchical Vanadium Oxide Nanowires with High Performance for Lithium Ion Batteries", "creators": [ { "creatorType": "author", "firstName": "Liqiang", "lastName": "Mai" }, { "creatorType": "author", "firstName": "Lin", "lastName": "Xu" }, { "creatorType": "author", "firstName": "Chunhua", "lastName": "Han" }, { "creatorType": "author", "firstName": "Xu", "lastName": "Xu" }, { "creatorType": "author", "firstName": "Yanzhu", "lastName": "Luo" }, { "creatorType": "author", "firstName": "Shiyong", "lastName": "Zhao" }, { "creatorType": "author", "firstName": "Yunlong", "lastName": "Zhao" } ], "abstractNote": "Ultralong hierarchical vanadium oxide nanowires with diameter of 100?200 nm and length up to several millimeters were synthesized using the low-cost starting materials by electrospinning combined with annealing. The hierarchical nanowires were constructed from attached vanadium oxide nanorods of diameter around 50 nm and length of 100 nm. The initial and 50th discharge capacities of the ultralong hierarchical vanadium oxide nanowire cathodes are up to 390 and 201 mAh/g when the lithium ion battery cycled between 1.75 and 4.0 V. When the battery was cycled between 2.0 and 4.0 V, the initial and 50th discharge capacities of the nanowire cathodes are 275 and 187 mAh/g. Compared with self-aggregated short nanorods synthesized by hydrothermal method, the ultralong hierarchical vanadium oxide nanowires exhibit much higher capacity. This is due to the fact that self-aggregation of the unique nanorod-in-nanowire structures have been greatly reduced because of the attachment of nanorods in the ultralong nanowires, which can keep the effective contact areas of active materials, conductive additives, and electrolyte large and fully realize the advantage of nanomaterial-based cathodes. This demonstrates that ultralong hierarchical vanadium oxide nanowire is one of the most favorable nanostructures as cathodes for improving cycling performance of lithium ion batteries.", "publicationTitle": "Nano Letters", "publisher": "", "place": "", "date": "November 10, 2010", "volume": "10", "issue": "11", "section": "", "partNumber": "", "partTitle": "", "pages": "4750-4755", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Nano Lett.", "DOI": "10.1021/nl103343w", "citationKey": "", "url": "http://dx.doi.org/10.1021/nl103343w", "accessDate": "2013-07-31T11:34:16Z", "PMID": "", "PMCID": "", "ISSN": "1530-6984", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ACS Publications", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "X5R2GQPU" ], "relations": {}, "dateAdded": "2013-12-04T11:24:40Z", "dateModified": "2013-12-04T11:24:40Z" } }, { "key": "MVPTKZR5", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/MVPTKZR5", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/MVPTKZR5", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Flandrois and Simon", "parsedDate": "1999-02", "numChildren": 0 }, "data": { "key": "MVPTKZR5", "version": 3, "itemType": "journalArticle", "title": "Carbon materials for lithium-ion rechargeable batteries", "creators": [ { "creatorType": "author", "firstName": "S.", "lastName": "Flandrois" }, { "creatorType": "author", "firstName": "B.", "lastName": "Simon" } ], "abstractNote": "The recent development of lithium rechargeable batteries results from the use of carbon materials as lithium reservoir at the negative electrode. Reversible intercalation, or insertion, of lithium into the carbon host lattice avoids the problem of lithium dendrite formation and provides large improvement in terms of cycleability and safety. This paper reviews the main achievements on performance and understanding of charge–discharge mechanisms, resulting from the tremendous activity devoted to these systems in the past few years. As a matter of fact, all carbon materials can be lithiated to a certain extent. However, the amount of lithium reversibly incorporated in the carbon lattice (the reversible capacity), the faradaic losses during the first charge–discharge cycle (the irreversible capacity), the profile of the voltage curves during charging and discharging, all depend on the structure, the texture and heteroatom content of the carbon material. In this paper, we successively examine the electrochemical behaviour of the main families of materials, namely, natural and synthetic graphites, graphitizable carbons, low-temperature and non-graphitizing carbons, and doped carbons.", "publicationTitle": "Carbon", "publisher": "", "place": "", "date": "February 1999", "volume": "37", "issue": "2", "section": "", "partNumber": "", "partTitle": "", "pages": "165-180", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbon", "DOI": "10.1016/S0008-6223(98)00290-5", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0008622398002905", "accessDate": "2013-07-23T11:52:09Z", "PMID": "", "PMCID": "", "ISSN": "0008-6223", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "A. Electrodes", "type": 1 }, { "tag": "D. electrochemical properties", "type": 1 }, { "tag": "Intercalation", "type": 1 } ], "collections": [ "X5R2GQPU" ], "relations": {}, "dateAdded": "2013-12-04T11:24:40Z", "dateModified": "2013-12-04T11:24:40Z" } }, { "key": "EA5G5SR6", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/EA5G5SR6", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/EA5G5SR6", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Li et al.", "parsedDate": "2009-12-09", "numChildren": 0 }, "data": { "key": "EA5G5SR6", "version": 3, "itemType": "journalArticle", "title": "Transfer of Large-Area Graphene Films for High-Performance Transparent Conductive Electrodes", "creators": [ { "creatorType": "author", "firstName": "Xuesong", "lastName": "Li" }, { "creatorType": "author", "firstName": "Yanwu", "lastName": "Zhu" }, { "creatorType": "author", "firstName": "Weiwei", "lastName": "Cai" }, { "creatorType": "author", "firstName": "Mark", "lastName": "Borysiak" }, { "creatorType": "author", "firstName": "Boyang", "lastName": "Han" }, { "creatorType": "author", "firstName": "David", "lastName": "Chen" }, { "creatorType": "author", "firstName": "Richard D.", "lastName": "Piner" }, { "creatorType": "author", "firstName": "Luigi", "lastName": "Colombo" }, { "creatorType": "author", "firstName": "Rodney S.", "lastName": "Ruoff" } ], "abstractNote": "Graphene, a two-dimensional monolayer of sp2-bonded carbon atoms, has been attracting great interest due to its unique transport properties. One of the promising applications of graphene is as a transparent conductive electrode owing to its high optical transmittance and conductivity. In this paper, we report on an improved transfer process of large-area graphene grown on Cu foils by chemical vapor deposition. The transferred graphene films have high electrical conductivity and high optical transmittance that make them suitable for transparent conductive electrode applications. The improved transfer processes will also be of great value for the fabrication of electronic devices such as field effect transistor and bilayer pseudospin field effect transistor devices.", "publicationTitle": "Nano Letters", "publisher": "", "place": "", "date": "December 9, 2009", "volume": "9", "issue": "12", "section": "", "partNumber": "", "partTitle": "", "pages": "4359-4363", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Nano Lett.", "DOI": "10.1021/nl902623y", "citationKey": "", "url": "http://dx.doi.org/10.1021/nl902623y", "accessDate": "2013-07-31T11:14:41Z", "PMID": "", "PMCID": "", "ISSN": "1530-6984", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ACS Publications", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "W5E3BSXS" ], "relations": {}, "dateAdded": "2013-12-04T11:24:35Z", "dateModified": "2013-12-04T11:24:35Z" } }, { "key": "E72R4JNB", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/E72R4JNB", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/E72R4JNB", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Yoo et al.", "parsedDate": "2008-08-01", "numChildren": 0 }, "data": { "key": "E72R4JNB", "version": 3, "itemType": "journalArticle", "title": "Large Reversible Li Storage of Graphene Nanosheet Families for Use in Rechargeable Lithium Ion Batteries", "creators": [ { "creatorType": "author", "firstName": "EunJoo", "lastName": "Yoo" }, { "creatorType": "author", "firstName": "Jedeok", "lastName": "Kim" }, { "creatorType": "author", "firstName": "Eiji", "lastName": "Hosono" }, { "creatorType": "author", "firstName": "Hao-shen", "lastName": "Zhou" }, { "creatorType": "author", "firstName": "Tetsuichi", "lastName": "Kudo" }, { "creatorType": "author", "firstName": "Itaru", "lastName": "Honma" } ], "abstractNote": "The lithium storage properties of graphene nanosheet (GNS) materials as high capacity anode materials for rechargeable lithium secondary batteries (LIB) were investigated. Graphite is a practical anode material used for LIB, because of its capability for reversible lithium ion intercalation in the layered crystals, and the structural similarities of GNS to graphite may provide another type of intercalation anode compound. While the accommodation of lithium in these layered compounds is influenced by the layer spacing between the graphene nanosheets, control of the intergraphene sheet distance through interacting molecules such as carbon nanotubes (CNT) or fullerenes (C60) might be crucial for enhancement of the storage capacity. The specific capacity of GNS was found to be 540 mAh/g, which is much larger than that of graphite, and this was increased up to 730 mAh/g and 784 mAh/g, respectively, by the incorporation of macromolecules of CNT and C60 to the GNS.", "publicationTitle": "Nano Letters", "publisher": "", "place": "", "date": "August 1, 2008", "volume": "8", "issue": "8", "section": "", "partNumber": "", "partTitle": "", "pages": "2277-2282", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Nano Lett.", "DOI": "10.1021/nl800957b", "citationKey": "", "url": "http://dx.doi.org/10.1021/nl800957b", "accessDate": "2013-07-31T11:13:58Z", "PMID": "", "PMCID": "", "ISSN": "1530-6984", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ACS Publications", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "W5E3BSXS" ], "relations": {}, "dateAdded": "2013-12-04T11:24:35Z", "dateModified": "2013-12-04T11:24:35Z" } }, { "key": "VNF5ESRD", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/VNF5ESRD", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/VNF5ESRD", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Li et al.", "numChildren": 0 }, "data": { "key": "VNF5ESRD", "version": 3, "itemType": "webpage", "title": "Electrochemical Performance of Carbon Nanofibers Containing an Enhanced Dispersion of Silicon Nanoparticles for Lithium-Ion Batteries by Employing Surfactants", "creators": [ { "creatorType": "author", "firstName": "Ying", "lastName": "Li" }, { "creatorType": "author", "firstName": "Zhan", "lastName": "Lin" }, { "creatorType": "author", "firstName": "Guanjie", "lastName": "Xu" }, { "creatorType": "author", "firstName": "Yingfang", "lastName": "Yao" }, { "creatorType": "author", "firstName": "Shu", "lastName": "Zhang" }, { "creatorType": "author", "firstName": "Ozan", "lastName": "Toprakci" }, { "creatorType": "author", "firstName": "Mataz", "lastName": "Alcoutlabi" }, { "creatorType": "author", "firstName": "Xiangwu", "lastName": "Zhang" } ], "abstractNote": "", "websiteTitle": "", "websiteType": "", "date": "", "publisher": "", "place": "", "DOI": "", "citationKey": "", "url": "http://eel.ecsdl.org", "accessDate": "2013-10-08T13:18:05Z", "shortTitle": "", "language": "en", "rights": "", "extra": "", "tags": [], "collections": [ "W5E3BSXS" ], "relations": {}, "dateAdded": "2013-12-04T11:24:35Z", "dateModified": "2013-12-04T11:24:35Z" } }, { "key": "ZWIWAI5R", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/ZWIWAI5R", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/ZWIWAI5R", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Armand and Tarascon", "parsedDate": "2008-02-07", "numChildren": 0 }, "data": { "key": "ZWIWAI5R", "version": 3, "itemType": "journalArticle", "title": "Building better batteries", "creators": [ { "creatorType": "author", "firstName": "M.", "lastName": "Armand" }, { "creatorType": "author", "firstName": "J.-M.", "lastName": "Tarascon" } ], "abstractNote": "Researchers must find a sustainable way of providing the power our modern lifestyles demand.", "publicationTitle": "Nature", "publisher": "", "place": "", "date": "February 7, 2008", "volume": "451", "issue": "7179", "section": "", "partNumber": "", "partTitle": "", "pages": "652-657", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Nature", "DOI": "10.1038/451652a", "citationKey": "", "url": "http://www.nature.com/nature/journal/v451/n7179/full/451652a.html", "accessDate": "2013-07-31T11:09:19Z", "PMID": "", "PMCID": "", "ISSN": "0028-0836", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "en", "libraryCatalog": "www.nature.com", "callNumber": "", "rights": "© 2008 Nature Publishing Group", "extra": "", "tags": [ { "tag": "DNA", "type": 1 }, { "tag": "Nature", "type": 1 }, { "tag": "RNA", "type": 1 }, { "tag": "astronomy", "type": 1 }, { "tag": "astrophysics", "type": 1 }, { "tag": "biochemistry", "type": 1 }, { "tag": "bioinformatics", "type": 1 }, { "tag": "biology", "type": 1 }, { "tag": "biotechnology", "type": 1 }, { "tag": "cancer", "type": 1 }, { "tag": "cell cycle", "type": 1 }, { "tag": "cell signalling", "type": 1 }, { "tag": "climate change", "type": 1 }, { "tag": "computational biology", "type": 1 }, { "tag": "development", "type": 1 }, { "tag": "developmental biology", "type": 1 }, { "tag": "drug discovery", "type": 1 }, { "tag": "earth science", "type": 1 }, { "tag": "ecology", "type": 1 }, { "tag": "environmental science", "type": 1 }, { "tag": "evolution", "type": 1 }, { "tag": "evolutionary biology", "type": 1 }, { "tag": "functional genomics", "type": 1 }, { "tag": "genetics", "type": 1 }, { "tag": "genomics", "type": 1 }, { "tag": "geophysics", "type": 1 }, { "tag": "immunology", "type": 1 }, { "tag": "interdisciplinary science", "type": 1 }, { "tag": "life", "type": 1 }, { "tag": "marine biology", "type": 1 }, { "tag": "materials science", "type": 1 }, { "tag": "medical research", "type": 1 }, { "tag": "medicine", "type": 1 }, { "tag": "metabolomics", "type": 1 }, { "tag": "molecular biology", "type": 1 }, { "tag": "molecular interactions", "type": 1 }, { "tag": "nanotechnology", "type": 1 }, { "tag": "neurobiology", "type": 1 }, { "tag": "neuroscience", "type": 1 }, { "tag": "palaeobiology", "type": 1 }, { "tag": "pharmacology", "type": 1 }, { "tag": "physics", "type": 1 }, { "tag": "proteomics", "type": 1 }, { "tag": "quantum physics", "type": 1 }, { "tag": "science", "type": 1 }, { "tag": "science news", "type": 1 }, { "tag": "science policy", "type": 1 }, { "tag": "signal transduction", "type": 1 }, { "tag": "structural biology", "type": 1 }, { "tag": "systems biology", "type": 1 }, { "tag": "transcriptomics", "type": 1 } ], "collections": [ "W5E3BSXS" ], "relations": {}, "dateAdded": "2013-12-04T11:24:35Z", "dateModified": "2013-12-04T11:24:35Z" } }, { "key": "I7Q43INK", "version": 3, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/I7Q43INK", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/I7Q43INK", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Ji et al.", "parsedDate": "2011", "numChildren": 0 }, "data": { "key": "I7Q43INK", "version": 3, "itemType": "journalArticle", "title": "Recent developments in nanostructured anode materials for rechargeable lithium-ion batteries", "creators": [ { "creatorType": "author", "firstName": "Liwen", "lastName": "Ji" }, { "creatorType": "author", "firstName": "Zhan", "lastName": "Lin" }, { "creatorType": "author", "firstName": "Mataz", "lastName": "Alcoutlabi" }, { "creatorType": "author", "firstName": "Xiangwu", "lastName": "Zhang" } ], "abstractNote": "", "publicationTitle": "Energy & Environmental Science", "publisher": "", "place": "", "date": "2011", "volume": "4", "issue": "8", "section": "", "partNumber": "", "partTitle": "", "pages": "2682", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "10.1039/c0ee00699h", "citationKey": "", "url": "http://pubs.rsc.org/en/content/articlehtml/2011/ee/c0ee00699h", "accessDate": "2013-10-08T13:35:16Z", "PMID": "", "PMCID": "", "ISSN": "1754-5692, 1754-5706", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "CrossRef", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "W5E3BSXS" ], "relations": {}, "dateAdded": "2013-12-04T11:24:35Z", "dateModified": "2013-12-04T11:24:35Z" } }, { "key": "RCHURZT9", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/RCHURZT9", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/RCHURZT9", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Nasir et al.", "parsedDate": "2007-08-28", "numChildren": 0 }, "data": { "key": "RCHURZT9", "version": 2, "itemType": "journalArticle", "title": "Preparation of Porous PVDF Nanofiber from PVDF/PVP Blend by Electrospray Deposition", "creators": [ { "creatorType": "author", "firstName": "Muhamad", "lastName": "Nasir" }, { "creatorType": "author", "firstName": "Hidetoshi", "lastName": "Matsumoto" }, { "creatorType": "author", "firstName": "Mie", "lastName": "Minagawa" }, { "creatorType": "author", "firstName": "Akihiko", "lastName": "Tanioka" }, { "creatorType": "author", "firstName": "Tetsuya", "lastName": "Danno" }, { "creatorType": "author", "firstName": "Hideo", "lastName": "Horibe" } ], "abstractNote": "Nanofiber with porous structures were prepared by electrospray deposition (ESD) from poly(vinylidene fluoride) (PVDF)/poly(vinylpyrrolidone) (PVP) blend and subsequent selective removal of PVP. In the present work, the effect of blending ratio of PVDF/PVP on formation of the pore and crystal structure of residual PVDF fiber was investigated. The residual PVDF nanofiber showed a higher specific surface area (the highest specific surface area was 28.54 m2/g from PVDF/PVP = 67/33 w/w). The Fourier transform infrared spectroscopy and wide angle X-ray diffraction measurement also showed that selective removal of PVP enhanced the formation of β-phase crystal structure in PVDF nanofiber (β-phase content > 90%).", "publicationTitle": "Polymer Journal", "publisher": "", "place": "", "date": "August 28, 2007", "volume": "39", "issue": "10", "section": "", "partNumber": "", "partTitle": "", "pages": "1060-1064", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Polym. J", "DOI": "10.1295/polymj.PJ2007037", "citationKey": "", "url": "http://www.nature.com/pj/journal/v39/n10/abs/pj2007141a.html", "accessDate": "2013-09-27T15:35:34Z", "PMID": "", "PMCID": "", "ISSN": "0032-3896", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "en", "libraryCatalog": "www.nature.com", "callNumber": "", "rights": "© 2007 Nature Publishing Group", "extra": "", "tags": [ { "tag": "Crystalline Structure", "type": 1 }, { "tag": "Electrospray Deposition", "type": 1 }, { "tag": "Nanofiber", "type": 1 }, { "tag": "Poly(vinylidene fluoride)", "type": 1 }, { "tag": "Poly(vinylpyrrolidone)", "type": 1 }, { "tag": "Porous Structure", "type": 1 }, { "tag": "Selective Extraction", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "99A4CTD5", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/99A4CTD5", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/99A4CTD5", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Eichhorn and Sampson", "parsedDate": "2010-04-06", "numChildren": 1 }, "data": { "key": "99A4CTD5", "version": 2, "itemType": "journalArticle", "title": "Relationships between specific surface area and pore size in electrospun polymer fibre networks", "creators": [ { "creatorType": "author", "firstName": "S. J.", "lastName": "Eichhorn" }, { "creatorType": "author", "firstName": "W. W.", "lastName": "Sampson" } ], "abstractNote": "From consideration of the extent of contact between fibres in electrospun polymer networks, we provide theory relating the specific surface area of the network to the characteristic dimensions of interfibre voids. We show that these properties are strongly influenced by the cross-sectional morphologies of fibres. Whereas porosity has a strong influence on pore dimensions, in the range of porosities typically obtained in real networks, its influence on specific surface area is weak. By considering reference geometries of collapsed ribbons and fibres with circular cross sections, we demonstrate that at a given network porosity, fibre parameters that increase the specific surface area reduce the characteristic dimensions of voids. The implications of the theory, mainly in the context of cell proliferation on electrospun polymer scaffolds, are discussed; the theory has relevance also to future applications of these materials in composites.", "publicationTitle": "Journal of The Royal Society Interface", "publisher": "", "place": "", "date": "04/06/2010", "volume": "7", "issue": "45", "section": "", "partNumber": "", "partTitle": "", "pages": "641-649", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "J. R. Soc. Interface", "DOI": "10.1098/rsif.2009.0374", "citationKey": "", "url": "http://rsif.royalsocietypublishing.org/content/7/45/641", "accessDate": "2013-09-27T08:26:41Z", "PMID": "", "PMCID": "", "ISSN": "1742-5689, 1742-5662", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "en", "libraryCatalog": "rsif.royalsocietypublishing.org", "callNumber": "", "rights": "", "extra": "PMID: 19812071", "tags": [ { "tag": "Electrospinning", "type": 1 }, { "tag": "modelling", "type": 1 }, { "tag": "pore size", "type": 1 }, { "tag": "specific surface", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "TF9BG4NI", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/TF9BG4NI", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/TF9BG4NI", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Shalumon et al.", "parsedDate": "2010-04-12", "numChildren": 0 }, "data": { "key": "TF9BG4NI", "version": 2, "itemType": "journalArticle", "title": "Single step electrospinning of chitosan/poly(caprolactone) nanofibers using formic acid/acetone solvent mixture", "creators": [ { "creatorType": "author", "firstName": "K.T.", "lastName": "Shalumon" }, { "creatorType": "author", "firstName": "K.H.", "lastName": "Anulekha" }, { "creatorType": "author", "firstName": "C.M.", "lastName": "Girish" }, { "creatorType": "author", "firstName": "R.", "lastName": "Prasanth" }, { "creatorType": "author", "firstName": "S.V.", "lastName": "Nair" }, { "creatorType": "author", "firstName": "R.", "lastName": "Jayakumar" } ], "abstractNote": "A fibrous scaffold comprising of chitosan (CS) and poly(ε-caprolactone) (PCL) was electrospun from a novel solvent mixture consisting of formic acid and acetone. CS concentration was varied from 0.5% to 2% by fixing PCL concentration as a constant (6%). Selected CS concentration (1%) was further blended with 4–10% PCL to obtain fine nanofibers. The composition of mixing was selected as 25:75 (1:3), 50:50 (1:1) and 75:25 (3:1) of CS and PCL. Lower concentrations of PCL resulted in beaded fibers where as 8% and 10% of PCL in lower compositions of chitosan resulted in fine nanofibers. Viscosity and conductivity measurements revealed the optimum values for the spinnability of the polymer solutions. Optimized combination of CS and PCL (1% CS and 8% PCL) in 1:3 compositions was further characterized using SEM, FTIR, AFM and TG–DTA. The developed electrospun CS/PCL scaffold would be an excellent matrix for biomedical applications.", "publicationTitle": "Carbohydrate Polymers", "publisher": "", "place": "", "date": "April 12, 2010", "volume": "80", "issue": "2", "section": "", "partNumber": "", "partTitle": "", "pages": "413-419", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbohydrate Polymers", "DOI": "10.1016/j.carbpol.2009.11.039", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0144861709006808", "accessDate": "2013-07-26T13:35:01Z", "PMID": "", "PMCID": "", "ISSN": "0144-8617", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Chitosan", "type": 1 }, { "tag": "Conductivity", "type": 1 }, { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofibrous scaffold", "type": 1 }, { "tag": "Poly(caprolactone)", "type": 1 }, { "tag": "Thermal properties", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "AZATIBAE", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/AZATIBAE", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/AZATIBAE", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Nirmala et al.", "parsedDate": "2011-03-01", "numChildren": 0 }, "data": { "key": "AZATIBAE", "version": 2, "itemType": "journalArticle", "title": "Preparation of polyamide-6/chitosan composite nanofibers by a single solvent system via electrospinning for biomedical applications", "creators": [ { "creatorType": "author", "firstName": "R.", "lastName": "Nirmala" }, { "creatorType": "author", "firstName": "R.", "lastName": "Navamathavan" }, { "creatorType": "author", "firstName": "Hyung-Sub", "lastName": "Kang" }, { "creatorType": "author", "firstName": "Mohamed H.", "lastName": "El-Newehy" }, { "creatorType": "author", "firstName": "Hak Yong", "lastName": "Kim" } ], "abstractNote": "This work was focused on preparation and characterizations of chitosan blended polyamide-6 nanofibers by a new single solvent system via electrospinning process for human osteoblastic (HOB) cell culture applications. The morphological, structural and thermal properties of the polyamide-6/chitosan nanofibers were analyzed by using field-emission scanning electron microscopy (FE-SEM), X-ray diffraction (XRD), Fourier transform-infrared (FT-IR) spectroscopy, Raman spectroscopy, differential scanning calorimetry (DSC) and thermogravimetry (TGA). SEM images revealed that the nanofibers were well-oriented and had good incorporation of chitosan. FT-IR results indicated that the amino groups of chitosan existed in the blended nanofibers. TGA analysis revealed that the onset degradation temperature was decreased with increasing chitosan content in the blended nanofibers. The morphological features of the cells attached on nanofibers were confirmed by SEM. The adhesion, viability and proliferation properties of osteoblast cells on the polyamide-6/chitosan blended nanofibers were analyzed by in vitro cell compatibility test.", "publicationTitle": "Colloids and Surfaces B: Biointerfaces", "publisher": "", "place": "", "date": "March 1, 2011", "volume": "83", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "173-178", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Colloids and Surfaces B: Biointerfaces", "DOI": "10.1016/j.colsurfb.2010.11.026", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0927776510006405", "accessDate": "2013-07-26T13:34:25Z", "PMID": "", "PMCID": "", "ISSN": "0927-7765", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Cell culture", "type": 1 }, { "tag": "Chitosan", "type": 1 }, { "tag": "Cytotoxicity", "type": 1 }, { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofibers", "type": 1 }, { "tag": "Polyamide-6", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "DH2U668F", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/DH2U668F", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/DH2U668F", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Jia et al.", "parsedDate": "2007-02-01", "numChildren": 0 }, "data": { "key": "DH2U668F", "version": 2, "itemType": "journalArticle", "title": "Fabrication and characterization of poly (vinyl alcohol)/chitosan blend nanofibers produced by electrospinning method", "creators": [ { "creatorType": "author", "firstName": "Yong-Tang", "lastName": "Jia" }, { "creatorType": "author", "firstName": "Jian", "lastName": "Gong" }, { "creatorType": "author", "firstName": "Xiao-Hua", "lastName": "Gu" }, { "creatorType": "author", "firstName": "Hark-Yong", "lastName": "Kim" }, { "creatorType": "author", "firstName": "Jiong", "lastName": "Dong" }, { "creatorType": "author", "firstName": "Xin-Yuan", "lastName": "Shen" } ], "abstractNote": "A series of poly (vinyl alcohol) (PVA)/chitosan (CS) blend nanofibrous membranes with different weight ratio of PVA to CS were fabricated by electrospinning method. The morphology, diameter, and structure of electrospun nanofibers were investigated by scanning electron microscopy (SEM), fourier transform infrared (FT-IR), X-ray diffraction (XRD) and differential scanning calorimetry (DSC). SEM images showed that the morphology and diameter of the nanofibers were mainly affected by concentration of the blend solution, weight ratio of the blend, respectively. FT-IR, XRD, and DSC demonstrated that there were strong intermolecular hydrogen bonds between the molecules of CS and PVA. The crystalline microstructure of the electrospun fibers was not well developed.", "publicationTitle": "Carbohydrate Polymers", "publisher": "", "place": "", "date": "February 1, 2007", "volume": "67", "issue": "3", "section": "", "partNumber": "", "partTitle": "", "pages": "403-409", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbohydrate Polymers", "DOI": "10.1016/j.carbpol.2006.06.010", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S014486170600292X", "accessDate": "2013-07-26T13:31:54Z", "PMID": "", "PMCID": "", "ISSN": "0144-8617", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofiber", "type": 1 }, { "tag": "Poly (vinyl alcohol)/chitosan blend", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "QWDP39FZ", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/QWDP39FZ", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/QWDP39FZ", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Islam and Karim", "parsedDate": "2010-08-20", "numChildren": 0 }, "data": { "key": "QWDP39FZ", "version": 2, "itemType": "journalArticle", "title": "Fabrication and characterization of poly(vinyl alcohol)/alginate blend nanofibers by electrospinning method", "creators": [ { "creatorType": "author", "firstName": "Md. Shahidul", "lastName": "Islam" }, { "creatorType": "author", "firstName": "Mohammad Rezaul", "lastName": "Karim" } ], "abstractNote": "Poly(vinyl alcohol) (PVA)/alginate (Alg) nanofibers are prepared using electrospinning method in aqueous solutions with PVA (10 wt.%)/Alg (2 wt.%) blended system in a volume ratios of 100/0, 80/20, and 60/40. Because of biocompatibility and non-toxicity of PVA, it could be used in numerous fields. Alginate is an interesting natural biopolymer for many of its merits and good biological properties. The blended nanofibers are characterized by scanning electron microscopy (SEM), thermal gravimetric analysis (TGA), differential scanning calorimetry (DSC), X-ray diffraction (XRD), Fourier transform infrared (FTIR), and mechanical measurement. XRD, FTIR and DSC data demonstrate that there are good interactions between PVA and Alg caused by possibly hydrogen bonds. The study shows that with a higher percentage of Alg in the PVA/Alg blend nanofibers, superior onset temperature of the degradation and higher thermal stability could be obtained above 350 °C. Moreover, the blend nanofibers exhibit improvement in mechanical properties compared to pure electrospun PVA with the addition of Alg.", "publicationTitle": "Colloids and Surfaces A: Physicochemical and Engineering Aspects", "publisher": "", "place": "", "date": "August 20, 2010", "volume": "366", "issue": "1–3", "section": "", "partNumber": "", "partTitle": "", "pages": "135-140", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Colloids and Surfaces A: Physicochemical and Engineering Aspects", "DOI": "10.1016/j.colsurfa.2010.05.038", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0927775710003353", "accessDate": "2013-07-26T13:30:18Z", "PMID": "", "PMCID": "", "ISSN": "0927-7757", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Alginate", "type": 1 }, { "tag": "Blend", "type": 1 }, { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofibers", "type": 1 }, { "tag": "Poly(vinyl alcohol)", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "KQIRB26Z", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/KQIRB26Z", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/KQIRB26Z", "type": "text/html" }, "up": { "href": "https://api.zotero.org/groups/236011/items/99A4CTD5", "type": "application/json" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } } }, "data": { "key": "KQIRB26Z", "version": 2, "parentItem": "99A4CTD5", "itemType": "attachment", "linkMode": "linked_url", "title": "PubMed entry", "accessDate": "2013-09-27T08:26:41Z", "url": "http://www.ncbi.nlm.nih.gov/pubmed/19812071", "note": "", "contentType": "text/html", "charset": "", "tags": [], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "UIXASZZV", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/UIXASZZV", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/UIXASZZV", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Li and Hsieh", "parsedDate": "2006-02-27", "numChildren": 0 }, "data": { "key": "UIXASZZV", "version": 2, "itemType": "journalArticle", "title": "Chitosan bicomponent nanofibers and nanoporous fibers", "creators": [ { "creatorType": "author", "firstName": "Lei", "lastName": "Li" }, { "creatorType": "author", "firstName": "You-Lo", "lastName": "Hsieh" } ], "abstractNote": "Nanofibers with average diameters between 20 and 100 nm have been prepared by electrospinning of 82.5% deacetylated chitosan (Mv = 1600 kDa) mixed with poly(vinyl alcohol) (PVA, Mw = 124–186 kDa) in 2% (v/v) aqueous acetic acid. The formation of bicomponent fibers was feasible with 3% concentration of solution containing up to an equal mass of chitosan. Finer fibers, fewer beaded structures and more efficient fiber formation were observed with increasing PVA contents. Nanoporous fibers could be generated by removing the PVA component in the 17/83 chitosan/PVA bicomponent fibers with 1 M NaOH (12 h). Fiber formation efficiency and composition uniformity improved significantly when the molecular weight of chitosan was halved by alkaline hydrolysis (50 wt % aqueous NaOH, 95 °C, 48 h). The improved uniform distribution of chitosan and PVA in the bicomponent fibers was attributed to better mixing mostly due to the reduced molecular weight and to the increased deacetylation of the chitosan.", "publicationTitle": "Carbohydrate Research", "publisher": "", "place": "", "date": "February 27, 2006", "volume": "341", "issue": "3", "section": "", "partNumber": "", "partTitle": "", "pages": "374-381", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbohydrate Research", "DOI": "10.1016/j.carres.2005.11.028", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0008621505005379", "accessDate": "2013-09-27T16:45:40Z", "PMID": "", "PMCID": "", "ISSN": "0008-6215", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Chitosan", "type": 1 }, { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofibers", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "F48D9D93", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/F48D9D93", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/F48D9D93", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Bonino et al.", "parsedDate": "2011-04-22", "numChildren": 0 }, "data": { "key": "F48D9D93", "version": 2, "itemType": "journalArticle", "title": "Electrospinning alginate-based nanofibers: From blends to crosslinked low molecular weight alginate-only systems", "creators": [ { "creatorType": "author", "firstName": "Christopher A.", "lastName": "Bonino" }, { "creatorType": "author", "firstName": "Melissa D.", "lastName": "Krebs" }, { "creatorType": "author", "firstName": "Carl D.", "lastName": "Saquing" }, { "creatorType": "author", "firstName": "Sung In", "lastName": "Jeong" }, { "creatorType": "author", "firstName": "Kimberly L.", "lastName": "Shearer" }, { "creatorType": "author", "firstName": "Eben", "lastName": "Alsberg" }, { "creatorType": "author", "firstName": "Saad A.", "lastName": "Khan" } ], "abstractNote": "We report here preparation of nanofibers containing alginate using two different molecular weights (MWs): 37 kDa and 196 kDa. Low MW alginates are attractive for in vivo tissue scaffolds where degradation and clearance from the body are desirable, whereas higher MW alginates are amenable for topical use as wound coverage because of its better mechanical properties. We use polyethylene oxide (PEO) as a carrier material to aid in electrospinning, and relate the solution properties, including entanglement concentration, relaxation time, conductivity, and surface tension, to their ability to be electrospun. In addition, we examine an FDA-approved, nonionic surfactant as a route to enhancing the alginate–PEO ratio (>80:20), and less toxic alternative to Triton X-100 surfactant. Finally, alginate-only nanofibers that are also water-insoluble are obtained by crosslinking the electrospun fibers with calcium and subsequently removing the PEO and surfactants by soaking the nanofibers in water.", "publicationTitle": "Carbohydrate Polymers", "publisher": "", "place": "", "date": "April 22, 2011", "volume": "85", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "111-119", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbohydrate Polymers", "DOI": "10.1016/j.carbpol.2011.02.002", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0144861711001068", "accessDate": "2013-09-27T15:52:51Z", "PMID": "", "PMCID": "", "ISSN": "0144-8617", "archive": "", "archiveLocation": "", "shortTitle": "Electrospinning alginate-based nanofibers", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Alginate", "type": 1 }, { "tag": "Biomaterials", "type": 1 }, { "tag": "Electrospinning", "type": 1 }, { "tag": "Nanofibers", "type": 1 }, { "tag": "Pluronic surfactant", "type": 1 }, { "tag": "nanotechnology", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "CZC4RDQ3", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/CZC4RDQ3", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/CZC4RDQ3", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Devendrappa et al.", "parsedDate": "2006-04-21", "numChildren": 0 }, "data": { "key": "CZC4RDQ3", "version": 2, "itemType": "journalArticle", "title": "Study of dc conductivity and battery application of polyethylene oxide/polyaniline and its composites", "creators": [ { "creatorType": "author", "firstName": "H.", "lastName": "Devendrappa" }, { "creatorType": "author", "firstName": "U.V. Subba", "lastName": "Rao" }, { "creatorType": "author", "firstName": "M.V.N. Ambika", "lastName": "Prasad" } ], "abstractNote": "The polymer electrolyte based on polyethylene oxide (PEO) complexed with conducting polyaniline (PANI) and salts of AgNO3 and NaNO3 has been prepared in different weight percentage ratios. The complexation is confirmed by infra-red and X-ray diffraction studies. Conductivity (dc) measurements are carried out using a two-probe technique in the temperature range 30–80 °C. Electrochemical cell parameters for battery application at room temperature are also been determined. The electric conductivities are 1.5 × 10−5 S cm−1 at 30 °C and 5.5 × l0−2 S cm−1 at 80 °C for a PEO:PANI (50:50) composite. The conductivity increases with increasing weight percentage of polyaniline in polyethylene oxide, which may be due to a strong hopping mechanism between the ether group of polyethylene oxide and conducting polyaniline. Samples are fabricated for battery application in configurations of Na:(PEO + PANI):(I2 + C + sample) and their experimental data are measured using the Wagner polarization technique.", "publicationTitle": "Journal of Power Sources", "publisher": "", "place": "", "date": "April 21, 2006", "volume": "155", "issue": "2", "section": "", "partNumber": "", "partTitle": "", "pages": "368-374", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Journal of Power Sources", "DOI": "10.1016/j.jpowsour.2005.05.014", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0378775305007147", "accessDate": "2013-07-26T13:36:11Z", "PMID": "", "PMCID": "", "ISSN": "0378-7753", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [ { "tag": "Battery", "type": 1 }, { "tag": "Electrochemical cell", "type": 1 }, { "tag": "Polyaniline, dc conductivity", "type": 1 }, { "tag": "Polyelectrolyte", "type": 1 }, { "tag": "Polyethylene oxide", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "G4CXJTKV", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/G4CXJTKV", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/G4CXJTKV", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Chen et al.", "parsedDate": "2010-03", "numChildren": 0 }, "data": { "key": "G4CXJTKV", "version": 2, "itemType": "journalArticle", "title": "Fabrication and characterization of magnetic cobalt ferrite/polyacrylonitrile and cobalt ferrite/carbon nanofibers by electrospinning", "creators": [ { "creatorType": "author", "firstName": "I-Han", "lastName": "Chen" }, { "creatorType": "author", "firstName": "Cheng-Chien", "lastName": "Wang" }, { "creatorType": "author", "firstName": "Chuh-Yung", "lastName": "Chen" } ], "abstractNote": "An electrospinning process was used to fabricate cobalt ferrite (CoFe2O4)-embedded polyacrylonitrile (PAN) nanofibers. Oleic acid-modified CoFe2O4 nanoparticles were dispersed in the PAN before spinning. The surface morphologies and structures of the nanofibers were characterized by Fourier transform infrared spectroscopy, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). SEM and TEM observation showed that the average diameter of the CoFe2O4/PAN nanofibers was 110 nm, and the magnetic CoFe2O4 nanoparticles were embedded in the PAN nanofibers. X-ray photoelectron spectroscopy was used to characterize the CoFe2O4/PAN and CoFe2O4/carbon nanofibers. Fiber magnetic properties were measured by vibrating sample magnetometry, showing that the saturation magnetization of the CoFe2O4/PAN nanofibers was 45 emu/g and that the fibers demonstrated superparamagnetic behavior.", "publicationTitle": "Carbon", "publisher": "", "place": "", "date": "March 2010", "volume": "48", "issue": "3", "section": "", "partNumber": "", "partTitle": "", "pages": "604-611", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Carbon", "DOI": "10.1016/j.carbon.2009.09.062", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/pii/S0008622309006459", "accessDate": "2013-07-26T13:29:07Z", "PMID": "", "PMCID": "", "ISSN": "0008-6223", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "E9NQXSMC", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/E9NQXSMC", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/E9NQXSMC", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Aluigi et al.", "parsedDate": "2007", "numChildren": 0 }, "data": { "key": "E9NQXSMC", "version": 2, "itemType": "journalArticle", "title": "Electrospinning of keratin/poly(ethylene oxide)blend nanofibers", "creators": [ { "creatorType": "author", "firstName": "A.", "lastName": "Aluigi" }, { "creatorType": "author", "firstName": "A.", "lastName": "Varesano" }, { "creatorType": "author", "firstName": "A.", "lastName": "Montarsolo" }, { "creatorType": "author", "firstName": "C.", "lastName": "Vineis" }, { "creatorType": "author", "firstName": "F.", "lastName": "Ferrero" }, { "creatorType": "author", "firstName": "G.", "lastName": "Mazzuchetti" }, { "creatorType": "author", "firstName": "C.", "lastName": "Tonin" } ], "abstractNote": "Research on the electrospinning of nanofibers has increased in recent years because of the number of potential applications in different areas, ranging from technical textiles (e.g., filters, composite reinforcements, and protective fabrics) to biomedical commodities and devices such as bandages, membranes, bioactive surfaces, and porous substrates for tissue engineering, for which biocompatible polymers play an essential role. In this work, wool keratin/poly(ethylene oxide) nanofibers were electrospun from aqueous solutions of polymer blends under different operating conditions. The filaments were characterized with scanning electron microscopy, Fourier transform infrared, and differential scanning calorimetry analyses and compared with films of the same materials produced via casting with the aim of investigating structural changes due to the electrospinning process. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci 104: 863–870, 2007", "publicationTitle": "Journal of Applied Polymer Science", "publisher": "", "place": "", "date": "2007", "volume": "104", "issue": "2", "section": "", "partNumber": "", "partTitle": "", "pages": "863–870", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "10.1002/app.25623", "citationKey": "", "url": "http://onlinelibrary.wiley.com/doi/10.1002/app.25623/abstract", "accessDate": "2013-07-26T13:28:23Z", "PMID": "", "PMCID": "", "ISSN": "1097-4628", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "en", "libraryCatalog": "Wiley Online Library", "callNumber": "", "rights": "Copyright © 2007 Wiley Periodicals, Inc.", "extra": "", "tags": [ { "tag": "biopolymers", "type": 1 }, { "tag": "blends", "type": 1 }, { "tag": "water-soluble polymers", "type": 1 } ], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } }, { "key": "QQKWCQZU", "version": 2, "library": { "type": "group", "id": 236011, "name": "enerji1", "links": { "alternate": { "href": "https://www.zotero.org/groups/enerji1", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/236011/items/QQKWCQZU", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/enerji1/items/QQKWCQZU", "type": "text/html" } }, "meta": { "createdByUser": { "id": 1520032, "username": "esrapampal", "name": "", "links": { "alternate": { "href": "https://www.zotero.org/esrapampal", "type": "text/html" } } }, "creatorSummary": "Park et al.", "parsedDate": "2006-02-01", "numChildren": 0 }, "data": { "key": "QQKWCQZU", "version": 2, "itemType": "journalArticle", "title": "Biomimetic Nanofibrous Scaffolds:  Preparation and Characterization of PGA/Chitin Blend Nanofibers", "creators": [ { "creatorType": "author", "firstName": "Ko Eun", "lastName": "Park" }, { "creatorType": "author", "firstName": "Hyun Ki", "lastName": "Kang" }, { "creatorType": "author", "firstName": "Seung Jin", "lastName": "Lee" }, { "creatorType": "author", "firstName": "Byung-Moo", "lastName": "Min" }, { "creatorType": "author", "firstName": "Won Ho", "lastName": "Park" } ], "abstractNote": "Electrospinning of poly(glycolic acid) (PGA)/chitin blend solutions in 1,1,1,3,3,3-hexafluoro-2-propanol was investigated to fabricate biodegradable and biomimetic nanostructured scaffolds for tissue engineering. The morphology of the electrospun PGA/chitin blend nanofibers was investigated with a field emission scanning electron microscope. The PGA/chitin blend fibers have average diameters of around 140 nm, and their diameters have a distribution in the range 50?350 nm. The miscibility of PGA/chitin blend fibers was examined by differential scanning calorimetry. The PGA and chitin were immiscible in the as-spun nanofibrous structure. An in vitro degradation study of PGA/chitin blend nanofibers was conducted in phosphate-buffered saline, pH 7.2. It was found that the hydrolytic cleavage of PGA in the blend nanofibers was accelerated by the coexistence of hydrophilic chitin. To assay the cytocompatibility and cell behavior on the PGA/chitin blend nanofibrous scaffolds, cell attachment and spreading of normal human epidermal fibroblasts seeded on the scaffolds were studied. Our results indicate that the PGA/chitin blend nanofibrous matrix, particularly the one that contained 25% PGA and 75% chitin with bovine serum albumin coating, could be a good candidate for tissue engineering scaffolds, because it has an excellent cell attachment and spreading for normal human fibroblasts.", "publicationTitle": "Biomacromolecules", "publisher": "", "place": "", "date": "February 1, 2006", "volume": "7", "issue": "2", "section": "", "partNumber": "", "partTitle": "", "pages": "635-643", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "Biomacromolecules", "DOI": "10.1021/bm0509265", "citationKey": "", "url": "http://dx.doi.org/10.1021/bm0509265", "accessDate": "2013-07-26T13:27:40Z", "PMID": "", "PMCID": "", "ISSN": "1525-7797", "archive": "", "archiveLocation": "", "shortTitle": "Biomimetic Nanofibrous Scaffolds", "language": "", "libraryCatalog": "ACS Publications", "callNumber": "", "rights": "", "extra": "", "tags": [], "collections": [ "WU82SACB" ], "relations": {}, "dateAdded": "2013-12-04T11:23:40Z", "dateModified": "2013-12-04T11:23:40Z" } } ]