The dining sized kitchen is located to the rear of the reception hallway and is fitted with a range of high quality wall and base units with integrated ceramic hob, oven, extractor, dish washer, washing machine, dryer, fridge and freezer. To the rear of the reception hall there is a formal dining room with a set of sliding patio doors opening to the rear gardens. The reception hall opens to a front facing living room with a picture window overlooking the front gardens and on to the Firth of Clyde in the west. In more detail the accommodation on offer comprises an entrance hallway with access to a WC/cloakroom. The property is located to the north end of Skelmorlie and for the commuter the neighbouring village of Wemyss Bay which is less than a mile to the north has a mainline train terminal with a direct and regular service to Glasgow. The Crescent is located in the upper part of the village with easy access to all the village amenities. The property has been meticulously cared for by the current owners who have owned the property since its construction. Finally, major challenges in electrochemical energy storage are highlighted and prospective solutions from current progress in MOF-based nanostructure research are given.Commanding a broad elevated site in the popular coastal village of Skelmorlie and enjoying panoramic views of the Firth of Clyde, Argyll and Arran to the west from the lounge, living room, two bedrooms and external balcony, Craigmhor, 3A The Crescent is an imposing detached villa which makes a fabulous family home. The review starts with an introduction of the principles and strategies for designing targeted MOFs followed by a discussion of some novel MOF-derived structures and their potential applications in electrochemical energy storage and conversion. In this review, the recent progress in fabricating MOFs and MOF-derived nanostructures for electrochemical applications is presented. MOFs have proved to be particularly suitable for electrochemical applications because of their tunable chemical composition that can be designed at the molecular level and their highly porous framework in which fast mass transportation of the related species is favorable. Recently, there has been a rapidly growing interest in developing MOF-based materials for electrochemical energy storage.
Metal–organic frameworks (MOFs) have received a lot of attention because of their diverse structures, tunable properties and multiple applications such as gas storage, catalysis and magnetism.
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