Dual-mode Upconverting Nanoprobe Enables Broad-Range Thermometry from Cryogenic to Room Temperature

Non-contact optical thermometer based on luminescence intensity ratio (LIR) of two thermally coupled energy levels, exhibiting high sensitivity, excellent accuracy, fast response and low environment dependence, has attracted great interests in scientific research, life activities, and industrial manufacturing processes. However, the use of optical thermometer in extreme atmospheres (below 150K) is usually limited by the required large temperature activation due to the relatively big energy difference (200 cm-1≤ΔE≤2000 cm-1). Here, we propose a strategy to alleviate the ultra-low temperature sensing problem by exploiting and utilizing the near-infrared (NIR) thermally coupled Stark sublevels of Tm3+ (3H4|0→3H6/3H4|1→3H6, ΔE≈300 cm-1) that is much sensitive to minimal temperature variation especially at ultra-low temperature due to the tiny energy difference. The integration of ultra-low-temperature sensitive Tm3+ ions and room-temperature sensitive Er3+ ions in an ultra-small α-NaYbF4:Tm3+@CaF2@NaYF4:Yb3+/...