000265720 001__ 265720
000265720 005__ 20190522185411.0
000265720 0247_ $$2doi$$a10.2533/chimia.2019.73
000265720 037__ $$aARTICLE
000265720 245__ $$aFluorescent Nanodiamonds as Versatile Intracellular Temperature Sensors
000265720 260__ $$c2019-02-01
000265720 269__ $$a2019-02-01
000265720 336__ $$aReviews
000265720 520__ $$aTemperature is a widely known phenomenon, which plays an extremely important role in biological systems. Its behavior on the macro-scale has been quite well investigated and understood, thanks to the availability of reliable and precise thermometers such as thermocouples and infrared cameras. However, temperature measurements on the subcellular scale present an ongoing challenge due to the absence of universal nanoscale temperature sensors. Recent work on fluorescent nanodiamonds has revealed their unique ability to measure temperature with high spatial and temporal resolution, of particular importance in the intracellular environment. This review summarizes recent progress in the field and highlights the future directions for intracellular temperature sensing using fluorescent nanodiamonds
000265720 700__ $$g263411$$aGlushkov, Evgenii
000265720 700__ $$aNavikas, Vytautas$$g284154
000265720 700__ $$aRadenovic, Aleksandra$$g161458
000265720 773__ $$k1$$q73-77$$tCHIMIA International Journal for Chemistry$$j73
000265720 8560_ $$faleksandra.radenovic@epfl.ch
000265720 909C0 $$zMarselli, Béatrice$$xU11842$$pLBEN$$0252069
000265720 909CO $$ooai:infoscience.epfl.ch:265720$$particle$$preview$$pSTI
000265720 960__ $$aaleksandra.radenovic@epfl.ch
000265720 961__ $$afantin.reichler@epfl.ch
000265720 973__ $$aEPFL$$sPUBLISHED$$rREVIEWED
000265720 980__ $$aARTICLE
000265720 981__ $$aoverwrite