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Citefast automatically formats citations in APA 7th edition", "user" : "droessler", "description" : "Citefast is a FREE APA, MLA and Chicago citation generator. Generate references, bibliographies, in-text citations and title pages quickly and accurately. Used by students and professionals.", "date" : "2021-01-28 10:18:41", "changeDate" : "2021-01-28 09:18:41", "count" : 1, "url" : "https://www.citefast.com/?s=APA7#_Webpage" } , { "type" : "Bookmark", "id" : "https://puma.ub.uni-stuttgart.de/url/b8e49c47b849dad28d79cf73eefde90e/droessler", "tags" : [ "arbeiten","generator","literaturverwaltung","software","wissenschaftliches","zitationsstil","zitieren" ], "intraHash" : "b8e49c47b849dad28d79cf73eefde90e", "label" : "Cite This For Me: Automatischer Literaturgenerator", "user" : "droessler", "description" : "Erstellen Sie Ihre Zitate, Quellenangaben und Literaturverzeichnisse automatisch mit den APA, DIN 1505-2, MLA oder Harvard-Stil. Es ist schnell und kostenlos!", "date" : "2018-01-10 15:17:13", "changeDate" : "2018-01-10 14:17:13", "count" : 1, "url" : "http://www.citethisforme.com/de" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2cbb0807a6ab79019815fa50c5cd81777/aniketpal", "tags" : [ "electrochemical","generator","mHealth,","microfluidics,","myOwn","paper","point-of-care","sensors,","testing,","triboelectric" ], "intraHash" : "cbb0807a6ab79019815fa50c5cd81777", "interHash" : "cbf28ec1307ab1566da6664d3f72b8e1", "label" : "Self-Powered, Paper-Based Electrochemical Devices for Sensitive Point-of-Care Testing", "user" : "aniketpal", "description" : "", "date" : "2024-10-28 13:32:26", "changeDate" : "2024-10-28 13:32:26", "count" : 2, "pub-type": "article", "journal": "Advanced Materials Technologies", "year": "2017", "url": "http://doi.wiley.com/10.1002/admt.201700130", "author": [ "Aniket Pal","Hugo E. Cuellar","Randy Kuang","Heloisa F. N. Caurin","Debkalpa Goswami","Ramses V. Martinez" ], "authors": [ {"first" : "Aniket", "last" : "Pal"}, {"first" : "Hugo E.", "last" : "Cuellar"}, {"first" : "Randy", "last" : "Kuang"}, {"first" : "Heloisa F. N.", "last" : "Caurin"}, {"first" : "Debkalpa", "last" : "Goswami"}, {"first" : "Ramses V.", "last" : "Martinez"} ], "volume": "2","number": "10","pages": "1700130","note": "ISBN: 8630326050","abstract": "This work describes the fabrication of self-powered, paper-based electrochemical devices (SPEDs) designed for sensitive diagnostics in low-resource settings and at the point of care. SPEDs are inexpensive, lightweight, mechanically flexible, easy to use, and disposable by burning. The top layer of the SPED is fabricated using cellulose paper with patterned hydrophobic domains that delineate hydrophilic, wicking-based microfluidic channels for accurate colorimetric assays, and self-pipetting test zones for electrochemical detection. The bottom layer of the SPED is a triboelectric generator (TEG) fabricated on hydrophobic paper and capable of harvesting electric energy from the user\u2019s interaction with the SPED. An inexpensive and rechargeable handheld potentiostat is fabricated to interface with the SPED, enabling the accurate quantitative electrochemical detection of glucose, uric acid, and l-lactate. The battery powering the potentiostat can be recharged by the user, using the sequential discharge of a capacitor previously charged with the TEG built into the SPED. A machine-vision diagnostic application is created to automatically identify and quantify each of the colorimetric tests from a digital image of the SPED, taken under a wide range of ambient light conditions, in order to provide fast diagnostic results to the user as well as to facilitate remote expert consultation.", "copyright" : "All rights reserved", "file" : "Advanced Materials Technologies - 2017 - Self-Powered, Paper-Based Electrochemical Devices for Sensitive Point-of-Care - Pal.pdf:C\\:\\\\Users\\\\ac143615\\\\Nextcloud\\\\Zotero database\\\\Advanced Materials Technologies - 2017 - Self-Powered, Paper-Based Electrochemical Devices for Sensitive Point-of-Care - Pal.pdf:application/pdf;Advanced Materials Technologies - 2017 - Self-Powered, Paper-Based Electrochemical Devices for Sensitive Point-of-Care - Pal.pdf:C\\:\\\\Users\\\\ac143615\\\\Nextcloud\\\\Zotero database\\\\Advanced Materials Technologies - 2017 - Self-Powered, Paper-Based Electrochemical Devices for Sensitive Point-of-Care - Pal2.pdf:application/pdf", "issn" : "2365709X", "doi" : "10.1002/admt.201700130", "bibtexKey": "Pal2017SelfPoweredPaperBasedElectrochemical" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/211e762d9393ab9f9ac77c5f7e5dba8f9/annettegugel", "tags" : [ "Considering","Constraints","Dispatch","Environmental-economic","Generator","Improved","Load","Multi-objective","Optimizationsend:unibiblio","Particle","Power","Swarm","Using","Wind" ], "intraHash" : "11e762d9393ab9f9ac77c5f7e5dba8f9", "interHash" : "5a8a5bfd3222f74d8198392f9e0f8360", "label" : "Multi-objective Environmental-economic Load Dispatch Considering Generator Constraints and Wind Power Using Improved Multi-objective Particle Swarm Optimization", "user" : "annettegugel", "description" : "", "date" : "2021-01-28 18:43:08", "changeDate" : "2021-01-28 17:43:08", "count" : 3, "pub-type": "article", "journal": "AECE Advances in Electrical and Computer Engineering", "year": "2020", "url": "", "author": [ "Tankut Yalcinoz","Krzysztof Rudion" ], "authors": [ {"first" : "Tankut", "last" : "Yalcinoz"}, {"first" : "Krzysztof", "last" : "Rudion"} ], "volume": "20","number": "4","pages": "3-10", "bibtexKey": "yalcinoz2020multiobjective" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/274e09eeb57f908057a6dc1d8cb09bb68/itke", "tags" : [ "2018","bergmann","betz","biomimetic","born","concept","foldable","from:petraheim","generator","gresser","hindwings","hingeless","insects","itke","knippers","körner","mader","milwich","saffarian","schieber","shading","system" ], "intraHash" : "74e09eeb57f908057a6dc1d8cb09bb68", "interHash" : "a935fd88e786abfe16674a6915a1f342", "label" : "Hindwings of insects as concept generator for hingeless foldable shading systems", "user" : "itke", "description" : "", "date" : "2020-05-22 14:25:14", "changeDate" : "2020-08-03 10:27:40", "count" : 3, "pub-type": "article", "journal": "Bioinspiration & Biomimetics","publisher":"IOP Publishing Ltd", "year": "2018", "url": "", "author": [ "Gundula Schieber","Larissa Born","P. Bergmann","Axel Körner","Anja Mader","Saman Saffarian","Oliver Betz","Markus Milwich","Götz T. Gresser","Jan Knippers" ], "authors": [ {"first" : "Gundula", "last" : "Schieber"}, {"first" : "Larissa", "last" : "Born"}, {"first" : "P.", "last" : "Bergmann"}, {"first" : "Axel", "last" : "Körner"}, {"first" : "Anja", "last" : "Mader"}, {"first" : "Saman", "last" : "Saffarian"}, {"first" : "Oliver", "last" : "Betz"}, {"first" : "Markus", "last" : "Milwich"}, {"first" : "Götz T.", "last" : "Gresser"}, {"first" : "Jan", "last" : "Knippers"} ], "volume": "13","number": "1","abstract": "Hingeless shading systems inspired by nature are increasingly the focus of architectural research. In contrast to traditional systems, these compliant mechanisms can reduce the amount of maintenanceintensive parts and can easily be adapted to irregular, doubly curved, facade geometries. Previousmechanisms rely merely on the reversible material deformation of composite structures with almost homogeneous material properties. This leads to large actuation forces and an inherent conflict between the requirements of movement and the capacity to carry external loads. To enhance the performance of such systems, current research is directed at natural mechanisms with concentrated compliance and distinct hinge zones with high load-bearing capacity. Here, we provide insights into our biological findings and the development of a deployable structure inspired by the Flexagon model of hindwings of insects in general and the hierarchical structure of the wing cuticle of the shield bug (Graphosoma lineatum). By using technical fibre-reinforced plastics in combination with an elastomer foil, natural principles have been partially transferred into a multi-layered structure with locally adapted stiffness. Initial small prototypes have been produced in a vacuum-assisted hot press and sustain this functionality. Initial theoretical studies on test surfaces outline the advantages of these bio-inspired structures as deployable external shading systems for doubly curved facades.", "doi" : "10.1088/1748-3190/aa979c", "bibtexKey": "schieber2018hindwings" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/220fa29415a3c50cba87b52765ab4dec9/petraheim", "tags" : [ "2018","bergmann","betz","biomimetic","born","concept","foldable","generator","gresser","hindwings","hingeless","insects","itke","knippers","körner","mader","milwich","saffarian","schieber","shading","system" ], "intraHash" : "20fa29415a3c50cba87b52765ab4dec9", "interHash" : "a935fd88e786abfe16674a6915a1f342", "label" : "Hindwings of insects as concept generator for hingeless foldable shading systems", "user" : "petraheim", "description" : "", "date" : "2020-05-14 18:11:16", "changeDate" : "2020-06-02 10:12:33", "count" : 3, "pub-type": "article", "journal": "Bioinspiration & Biomimetics","publisher":"IOP Publishing Ltd", "year": "2018", "url": "", "author": [ "G. Schieber","L. Born","P. Bergmann","A. Körner","A. Mader","S. Saffarian","O. Betz","M. Milwich","G.T. Gresser","J. Knippers" ], "authors": [ {"first" : "G.", "last" : "Schieber"}, {"first" : "L.", "last" : "Born"}, {"first" : "P.", "last" : "Bergmann"}, {"first" : "A.", "last" : "Körner"}, {"first" : "A.", "last" : "Mader"}, {"first" : "S.", "last" : "Saffarian"}, {"first" : "O.", "last" : "Betz"}, {"first" : "M.", "last" : "Milwich"}, {"first" : "G.T.", "last" : "Gresser"}, {"first" : "J.", "last" : "Knippers"} ], "volume": "13","number": "1","abstract": "Hingeless shading systems inspired by nature are increasingly the focus of architectural research. In contrast to traditional systems, these compliant mechanisms can reduce the amount of maintenanceintensive parts and can easily be adapted to irregular, doubly curved, facade geometries. Previousmechanisms rely merely on the reversible material deformation of composite structures with almost homogeneous material properties. This leads to large actuation forces and an inherent conflict between the requirements of movement and the capacity to carry external loads. To enhance the performance of such systems, current research is directed at natural mechanisms with concentrated compliance and distinct hinge zones with high load-bearing capacity. Here, we provide insights into our biological findings and the development of a deployable structure inspired by the Flexagon model of hindwings of insects in general and the hierarchical structure of the wing cuticle of the shield bug (Graphosoma lineatum). By using technical fibre-reinforced plastics in combination with an elastomer foil, natural principles have been partially transferred into a multi-layered structure with locally adapted stiffness. Initial small prototypes have been produced in a vacuum-assisted hot press and sustain this functionality. Initial theoretical studies on test surfaces outline the advantages of these bio-inspired structures as deployable external shading systems for doubly curved facades.", "doi" : "10.1088/1748-3190/aa979c", "bibtexKey": "schieber2018hindwings" } ] }