A rapid screening method for thermal conductivity properties of thermal insulation materials by a thermochemiluminescence probe

Abstract: Acridine-based 1,2-dioxetane as a thermochemiluminescence (TCL) probe for temperature sensing exhibited an excellent response for temperature in the range of 85-130 ℃ with favorable sensitivity and excellent resolution. The proposed...

“…A long short-term memory forecast was used to determine the point corresponding to the mix ratio of the adhesive components at which the heat holding of the adhesive joint no longer has a positive and significant importance to the final tensile strength of the joint. Teng et al [21] designed a new thermochemical luminescence (TCL) probe that not only provides a viable method for fabricating high sensitivity and high-resolution temperature sensors, but also provides a detailed understanding of the nature of TCL technology. Wang et al [22] experimentally quantified the effect of interfacial roughness on thermal contact resistance (TCR) at the solid-solid interface at the nanoscale, provided a quantitative assessment of the TCR at the solidsolid interface at the nanoscale, and contributed to an in-depth understanding of the heat transport mechanism for advanced thermal management of nanodevices.…”

Efficient Non-Destructive Detection of Interface Adhesion State by Interfacial Thermal Conductance: A Molecular Dynamics Study

“…A long short-term memory forecast was used to determine the point corresponding to the mix ratio of the adhesive components at which the heat holding of the adhesive joint no longer has a positive and significant importance to the final tensile strength of the joint. Teng et al [21] designed a new thermochemical luminescence (TCL) probe that not only provides a viable method for fabricating high sensitivity and high-resolution temperature sensors, but also provides a detailed understanding of the nature of TCL technology. Wang et al [22] experimentally quantified the effect of interfacial roughness on thermal contact resistance (TCR) at the solid-solid interface at the nanoscale, provided a quantitative assessment of the TCR at the solidsolid interface at the nanoscale, and contributed to an in-depth understanding of the heat transport mechanism for advanced thermal management of nanodevices.…”

Efficient Non-Destructive Detection of Interface Adhesion State by Interfacial Thermal Conductance: A Molecular Dynamics Study

“…[24][25][26] In addition, temperature is always considered as an important factor for the CL emission of nanomaterials in the CL process, in which several researchers have observed the temperature-dependent CL emission produced by the thermal decomposition of peroxide, known as thermochemiluminescence (TCL). 27,28 Since CDs have exhibited several characters of temperature-dependence, it is not clear whether temperature has any practical influence on the CL emission of CDs. 29,30 Therefore, it is meaningful to explore the mechanism of CL emission induced by the CDs at different temperatures and further develop their related applications.…”

Meter-scale chemiluminescent carbon nanodot films for temperature imaging