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The implementation of the project will bring a new solution for the filtration of drinking water in order to eliminate the disadvantages of existing filtration systems. It is an innovative use of state-of-the-art nanotechnologies and the expected result of the project will exceed the technical parameters of currently known solutions. The output of the project will be a prototype of a new graphe","end_date":"2023-12-31","start_date":"2022-01-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"GM24-11702M","title":"Tunable graphene/SiC optoelectronics","funder":"Czech Science Foundation","summary":"ABC-stacked trilayer graphene is known to exhibit a clean tunable energy bandgap by a perpendicular field, an important feature for its future applications in electronics and optoelectronics. However, the major techniques used to prepare ABC graphene struggle with a maximal size of ABC graphene, which is around 100 nm, making any future applications impossible. 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The ultimate challenge of the project is construction of the bilayer pseudospin field effect transistor.","end_date":"2018-06-30","start_date":"2013-07-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"GAP208/12/1062","title":"Spectroscopy and spectroelectrochemistry of graphene and graphene multilayers","funder":"Czech Science Foundation","summary":"The preparation of nanomaterials with tunable specific properties is still great challenge. In the proposed project a new class of  nanomaterials based on encapsulation of different molecules and nanocrystals in between two layers of graphene will be prepared (graphene sandwiches). Using proposed procedures different classes of materials will be encapsulated: fullerenes, nanoparticles, and biomolecules. We will study the interaction between graphene shell and encapsulated species. Graphene sandwiches will be also ideal for studies of charge transfer through graphene sheet. 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Their electro-catalytical behaviour will be studied in the function of their morphology such as type of heteroatom used for graphene doping. Afterwards, by combination of designed nanomaterial composition with suitable aptamers, electrochemical aptasensors will be developing in order to shown ability of such material as sensing platform. This project should help to understand e","end_date":"2021-12-31","start_date":"2017-01-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"TA04020222","title":"Composite materials containing graphene with unique properties for environmental applications","funder":"Technology Agency of the Czech Republic","summary":"The goal of the project is to develop new, highly sophisticated composite material intended for sorption and capture of radionuclides based on graphene, or graphene oxide, organic polymers such as polystyrene or polyamides. The prepared composite nanomaterials will be characterized by determining the specific surface area and porosity, measurements of infrared and Raman spectra, X-ray powder diffraction and microscopic methods (HRTEM, HRSEM, AFM). They determined the sorption properties of nanomaterialsfor efficient detection of selected radionuclides, may be an example of 137Cs , 85Sr and 152","end_date":"2017-12-31","start_date":"2014-07-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"GF22-27973K","title":"Graphene acid heterostructures with MXenes for lithium and sodium ion batteries","funder":"Czech Science Foundation","summary":"Carboxylic acids are the highest capacity organic anodes for Li- and Na-ion batteries. However, there is a trade-off between having high content in carboxylic groups and keeping high conductivity. To mitigate this, the Czech team has developed a material (graphene acid) with dense and spacer-free grafting of carboxylic groups on the conductive backbone of graphene. With the German partner, they have identified it as a very high capacity and fast charging electrode, promising even for storing the bigger Na-ions due to its wide interlayer spacing. For its broader applicability, a key challenge i","end_date":"2025-12-31","start_date":"2022-07-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"8JCH1003","title":"Research on micro-nano structure adjustment of graphene oxide compound network and preparation of gas sensor","funder":"Ministry of Education, Youth and Sports","summary":"The aim of the project will be focused to the research in area of sensoric structure based on 3D rGO materials. Given materials will be tuned in terms of 3D structure, porosity and its sensitivity will be optimized by using selected conductive polymer (polyaniline). Given senzory structures will be optimized for sensing of gas amonia or organic amines. 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These applications all have a shared requirement for easily ac","currency":"GBP","end_date":"2019-12-31","start_date":"2016-09-30","total_cost":"0.0","funded_amount":"0.0"},{"code":"1530723","title":"CAREER: Graphene and Graphene Nanoribbon Optoelectronic Properties and Devices","funder":"National Science Foundation","end_date":"2015-09-30","start_date":"2014-07-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"2669143","title":"Graphene and graphene-related materials for tissue engineering","funder":"UK Research and Innovation","summary":"Graphene and graphene-related materials for tissue engineering\n\n            Tissue engineering is an interdisciplinary field that strives to develop biological substitutes to restore, improve or enhance the function of damaged tissues or whole organs. Developing novel suitable scaffolds to fabricate functional tissue constructs is crucial in tissue engineering. 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Within a short timesince its preparation, the graphene appeared as a unique system allowing the investigation of fundamental physical phenomena, as well as the prospective material for a new carbon based electronics. In next years, the physics of graphene is supposed to follow two basic tracks. Apart from fundamental research on graphene, the current knowledge abo","end_date":"2013-12-31","start_date":"2010-07-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"7AX13025","title":"Quantum resistance metrology based on graphene","funder":"Ministry of Education, Youth and Sports","summary":"Quantum resistance metrology makes use of the quantum Hall Effect (QHE) to reproduce the unit of electrical resistance with unprecedented precision. Together with the unit of electrical voltage, based on the Josephson Effect, it allows the full space ofall electrical quantities to be spanned. Following the forthcoming redefinition of the international system of units, SI, the kilogram, unit of mass, will also rely on the QHE for its reproduction. However, up to now the complexity of quantum standards precludes widespread use and necessitates a hierarchy of secondary standards to disseminate th","end_date":"2016-05-31","start_date":"2013-06-01","total_cost":"0.0","funded_amount":"0.0"},{"code":"1506006","title":"Structured Epitaxial Graphene and Semiconducting Graphene for Advanced Digital Electronics","funder":"National Science Foundation","end_date":"2018-08-31","start_date":"2015-09-01","total_cost":"0.0","funded_amount":"0.0"}]},"meta":{"timestamp":"2026-06-01T17:03:16.515Z","request_id":"7bad1312-5669-42fa-ad22-a40fd991c248"},"status":"ok","message":"Projects retrieved","success":true}}}},"401":{"description":"Missing or invalid x-oanor-key header"},"402":{"description":"Active subscription required"},"429":{"description":"Rate-limit or monthly quota reached"},"502":{"description":"Upstream did not respond"}}}},"/v1/publications":{"get":{"operationId":"get_v1_publications","tags":["Research Funding"],"summary":"Search publications (OA & funding status)","description":"","parameters":[{"name":"q","in":"query","required":false,"description":"Search keywords","schema":{"type":"string"},"example":"graphene"},{"name":"limit","in":"query","required":false,"description":"Max results (1-50, default 20)","schema":{"type":"string"}}],"security":[{"oanorKey":[]}],"responses":{"200":{"description":"OK","content":{"application/json":{"example":{"data":{"count":20,"query":"graphene","total":324500,"publications":[{"doi":"10.1002/9783527672790","type":"publication","year":"2014","title":"Functionalization of Graphene","authors":[],"publisher":"Wiley","open_access":true,"access_right":"Open Access","publicly_funded":false},{"doi":"10.1002/9783527651122","type":"publication","year":"2012","title":"Graphene","authors":[],"publisher":"Wiley","open_access":false,"access_right":"Closed Access","publicly_funded":false},{"doi":"10.1166/jnn.2015.9283","type":"publication","year":"2015","title":"Oscillatory Behavior of Graphene Nanoflake on Graphene Nanoribbon","authors":["Jeong Won, Kang","Kang Whan, Lee"],"publisher":"American Scientific Publishers","open_access":false,"access_right":"unspecified","publicly_funded":false},{"doi":"10.1007/s00894-014-2507-y","type":"publication","year":"2014","title":"Metal-doped graphene layers composed with boron nitride–graphene as an insulator: a nano-capacitor","authors":["Majid, Monajjemi"],"publisher":"Springer Science and Business Media LLC","open_access":false,"access_right":"Closed Access","publicly_funded":false},{"doi":"10.51544/kimia.v8i1.5325","type":"publication","year":"2024","title":"CONDUCTIVITY ANALYSIS OF CU/N-GRAPHENE AND NI/N-GRAPHENE AS ELECTRODES ON PRIMARY BATTERY ANODES","authors":["Crystina Simanjuntak","Rikson Siburian","Amanda Jiamin"],"publisher":"Universitas Sari Mutiara Indonesia","open_access":true,"access_right":"Open Access","publicly_funded":false},{"doi":"10.1002/qua.26660","type":"publication","year":"2021","title":"Effects of microstructural tailoring on Na storage performance of graphene","authors":["Li‐Hua Yao","Jian‐Guo Zhao","Jing‐Wei Li"],"publisher":"Wiley","open_access":false,"access_right":"Closed Access","publicly_funded":false},{"doi":"10.1039/d4ra04420g","type":"publication","year":"2024","title":"Possible ferro-electro-magnetic behaviours of graphene-based materials: hydrogenated graphene, MWCNTs and reduced graphene-oxide (GO)","authors":["Sekhar Chandra Ray","Dilip Kumar Mishra","W. 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