{"id":1,"title":"PV Characterisation 1","default":true,"thumb":"","img":{"src":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2020\/12\/IMG_20201120_133017_00_014-scaled.jpg","width":2560},"position":{"yaw":-0.812115639330652783201003330759704113006591796875,"pitch":0.1621022194951731165701858117245137691497802734375,"fov":1.4274487578895309614068764858529902994632720947265625},"hotspots":[{"id":1,"type":"text","title":"Humidity Oven","position":{"yaw":-0.740531736456663480794304632581770420074462890625,"pitch":-0.4068812219492290438438431010581552982330322265625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<p>Humidity and temperature conditions can affect the device performance. These ovens give the possibility to control these parameters after the fabrication of PV devices. In order to study the stability of PV devices, these ovens can acelarate degradation accordinly to the ISOS protocols.<br \/><br \/><b>Contact<\/b><br \/>Dr. Simone Meroni -\u00a0<a href=\"mailto:s.m.p.meroni@swansea.ac.uk\">s.m.p.meroni@swansea.ac.uk<\/a><\/p>"},{"id":2,"type":"scene","title":"","position":{"yaw":2.41324646420441002447887512971647083759307861328125,"pitch":0.309819545715260602491980534978210926055908203125},"scene":{"id":"2","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":3,"type":"scene","title":"","position":{"yaw":-1.37436069386047421403418411500751972198486328125,"pitch":0.4541141937627255487086586072109639644622802734375},"scene":{"id":"4","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":4,"type":"text","title":"","position":{"yaw":-2.129495589623576989879438770003616809844970703125,"pitch":0.11213033725528731565646012313663959503173828125},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<div class=\"iframe-wrapper show-modal\">\n<div id=\"custom-ifram\">\n<p>This MPPT unit is designed to track the maximal power point of large area modules. Voltage above 200 V can be applied to keep the PV module at MPP during illumination. The method can be used for the studying the stability of devices under illumination according to the ISOS protocols.<\/p>\n<\/div>\n<\/div>"},{"id":6,"type":"text","title":"LED Light Soaker - Stability Measurement","position":{"yaw":-3.0339403366123836036649663583375513553619384765625,"pitch":-0.0109069971361197559645006549544632434844970703125},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<p>This light soaker can be used to study the stability of PV devices under illumination. This light source exclude the presence of additional heat and UV component during the measurement for a better understanding of the degradation mechanisms that involves visible light.<br \/><br \/><b>Contact<\/b><br \/>Dr. Simone Meroni -\u00a0<a href=\"mailto:s.m.p.meroni@swansea.ac.uk\">s.m.p.meroni@swansea.ac.uk<\/a><\/p>"},{"id":7,"type":"text","title":"Light Box - Indoor Applications","position":{"yaw":2.99261506206417404740705023868940770626068115234375,"pitch":0.023327598573057883868386852554976940155029296875},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<p>A home-built light box for indoor PV characterisation. Warm fluorescent lamps are used in the light box with reflectors for uniform illumination to mimic typical indoor environments. The light level can be adjusted from less than 100 lux to over 7000 lux.<br \/><br \/><b>Contact<\/b><br \/>Dr. Harrison Lee -\u00a0<a href=\"mailto:k.h.lee@swansea.ac.uk\">k.h.lee@swansea.ac.uk<\/a><\/p>"},{"id":8,"type":"text","title":"Contact Angle Tester","position":{"yaw":1.68731684907121604055646457709372043609619140625,"pitch":0.000850674916112126311418251134455204010009765625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":""}]}

{"id":2,"title":"PV Characterisation 2","default":false,"thumb":"","img":{"src":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2020\/12\/IMG_20201120_133051_00_015-scaled.jpg","width":2560},"position":{"yaw":-1.55776673603239856902291649021208286285400390625,"pitch":0.188264777113179349044003174640238285064697265625,"fov":1.4274487578895309614068764858529902994632720947265625},"hotspots":[{"id":1,"type":"scene","title":"","position":{"yaw":-1.064863145530946297867558314464986324310302734375,"pitch":0.5087490111803933956480250344611704349517822265625},"scene":{"id":"3","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":2,"type":"scene","title":"","position":{"yaw":0.903009713902189758982785861007869243621826171875,"pitch":0.624209224632817694100594962947070598602294921875},"scene":{"id":"1","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":3,"type":"text","title":"Solar Simulator","position":{"yaw":2.0265627780544139824314697762019932270050048828125,"pitch":-0.155928364219651172106750891543924808502197265625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"}}]}

{"id":3,"title":"PV Characterisation 3","default":false,"thumb":"","img":{"src":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2020\/12\/IMG_20201120_133121_00_016-scaled.jpg","width":2560},"position":{"yaw":1.499230711555892270325784920714795589447021484375,"pitch":0.117426181154012709839662420563399791717529296875,"fov":1.0808390005411683265634792405762709677219390869140625},"hotspots":[{"id":1,"type":"scene","title":"","position":{"yaw":1.49296806438420137652656194404698908329010009765625,"pitch":0.1005115152371871545255999080836772918701171875},"scene":{"id":"4","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":2,"type":"scene","title":"","position":{"yaw":-1.933411957511022905009667738340795040130615234375,"pitch":0.4756774014065712208321201615035533905029296875},"scene":{"id":"2","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":3,"type":"text","title":"Time Lapse Photography","position":{"yaw":-1.5067321518315655026754029677249491214752197265625,"pitch":-0.1450252092716208807132716174237430095672607421875},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"}},{"id":4,"type":"text","title":"Potentiostat","position":{"yaw":-0.926547473227362416992036742158234119415283203125,"pitch":0.117965673768395618026261217892169952392578125},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"}},{"id":5,"type":"text","title":"Plasma Light Soaker - Stability","position":{"yaw":2.2462700469144269987964435131289064884185791015625,"pitch":-0.365751877502763278471320518292486667633056640625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<p>This light soaker is based on a plasma bulb can be used to study the stability of PV devices under illumination. The light sorce includes all the component of the solar spectrum, from UV to IR, for a AM 1.5G standard. This light soaker can be used to test the stability of devices accordingly to the ISOS protocols.<br \/><br \/><b>Contact<\/b><br \/>Dr. Simone Meroni -\u00a0<a href=\"mailto:s.m.p.meroni@swansea.ac.uk\">s.m.p.meroni@swansea.ac.uk<\/a><\/p>"},{"id":6,"type":"text","title":"Large Area Solar Simulator","position":{"yaw":-2.4974475484104079470171200227923691272735595703125,"pitch":-0.4298518944956075671370854252018034458160400390625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"},"text":"<p>Newport Oriel solar simulator (92193A-1000) provides a large area (152 mm x 152 mm) collimated light beam of AM1.5G\/AM0 spectrum for solar cells\/modules characterisation.<br \/><br \/><b>Contact<\/b><br \/>Dr. Harrison Lee -\u00a0<a href=\"mailto:k.h.lee@swansea.ac.uk\">k.h.lee@swansea.ac.uk<\/a><\/p>"}]}

{"id":4,"title":"PV Characterisation 4","default":false,"thumb":"","img":{"src":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2020\/12\/IMG_20201120_133146_00_017-scaled.jpg","width":2560},"position":{"yaw":1.5500087836680194186556036584079265594482421875,"pitch":0.1569462650152342320097886840812861919403076171875,"fov":1.4274487578895309614068764858529902994632720947265625},"hotspots":[{"id":1,"type":"scene","title":"","position":{"yaw":2.3670373618469131571373509359546005725860595703125,"pitch":0.2121187495325944638580040191300213336944580078125},"scene":{"id":"1","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":2,"type":"scene","title":"","position":{"yaw":-1.756226123000121930317618534900248050689697265625,"pitch":0.259519620300892484010546468198299407958984375},"scene":{"id":"3","position":""},"popup":{"titleColor":"#000000","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/PrevScene_Arrow.png","width":"30","height":"30"}},{"id":3,"type":"text","title":"IPCE","position":{"yaw":0.649164115141644515460939146578311920166015625,"pitch":-0.1249382680818822421997538185678422451019287109375},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"}},{"id":4,"type":"text","title":"Humidity Oven","position":{"yaw":-2.964642251385054549928099731914699077606201171875,"pitch":-0.146976143623223975964720011688768863677978515625},"popup":{"titleColor":"#dd3333","titleBgColor":"#ffffff"},"icon":{"url":"https:\/\/materials-academy.co.uk\/wp-content\/uploads\/2021\/04\/Info_Spot.png","width":"30","height":"30"}}]}

{"primaryColor":"#ffffff","secondaryColor":"#dd3333","autostart":0,"move":0,"zoom":0,"menu":0,"hideMenu":0,"hdesktop":"1-2","htablet":"1-2","hmobile":"1-1","zoomScroll":0,"fullImages":0,"gyro":0}