?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Phonon+transport+at+the+nanoscale+with+applications+to+batteries+and+advanced+thermal+insulation&rft.creator=Lubner%2C+S&rft.creator=Kaur%2C+S&rft.creator=Franklin%2C+J&rft.creator=Prasher%2C+R&rft.description=It+has+been+almost+three+decades+since+Nanoscale+Thermal+Science+and+Engineering+became+a+well-established+research+field.+Various+major+breakthroughs+in+fundamental+understanding+of+thermal+transport+(phonons%2C+photons%2C+and+electrons)+at+the+nanoscale+have+been+achieved+in+these+three+decades%3B+however%2C+the+impact+of+these+fundamental+insights+has+been+primarily+targeted+toward+microelectronics+and+thermoelectrics+applications.+In+this+paper+we+provide+examples+of+other+applications+such+as+Lithium+ion+battery+thermal+management+and+building+thermal+insulation%2C+where+nanoscale+thermal+science+has+a+significant+role+to+play.+We+have+used+time+domain+thermoreflectance+(TDTR)+to+measure+thermal+conductivity+of+Lithium+ion+battery+cathode+material.+To+understand+the+fundamentals+of+thermal+transport+in+the+cathode+material+we+created+a+model+cathode+system+as+compared+engineered+samples+using+pulsed+laser+deposition+technique.+We+also+used+3-omega+technique+for+the+engineered+system.+We+have+also+made+highly+insulating+material+using+functionalized+nanoparticles+for+building+applications.+Results+show+that+surface+functionalization+has+a+huge+impact+on+thermal+conductivity+of+an+assembly+of+nanoparticle.&rft.subject=Photon%2C+phonon+and+electron+transport%2C+Nano%2FMicro+scale+measurement+and+simulation%2C+battery%2C+absorber%2C+insulation&rft.publisher=Begell+House&rft.date=2018-08-15&rft.type=Proceedings+paper&rft.publisher=International+Heat+Transfer+Conference+16&rft.language=eng&rft.source=+++++In%3A++Proceedings+of+the+International+Heat+Transfer+Conference+16.++++Begell+House%3A+Beijing%2C+China.+(2018)+++++&rft.format=text&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10122039%2F1%2FFranklin_IHTC2018_Prasher_revised.pdf&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10122039%2F&rft.rights=open