Time-resolved ARPES Determination of a Quasi-Particle Band Gap and Hot Electron Dynamics in Monolayer MoS2

Abstract Dynamic hot-electron emission using time-resolved photon counting can address the long-term failure analysis and debug requirements of the semiconductor industry's advanced devices. This article identifies the detector performance parameters and components that are required to scale and keep pace with the industry's requirements. It addresses the scalability of dynamic emission with the semiconductor advanced device roadmap. It is important to understand the limitations to determining that a switching event has occurred. The article explains the criteria for event detection, which is suitable for tracking signal propagation and looking for logic or other faults in which timing is not critical. It discusses conditions for event timing, whose goal is to determine accurately when a switching event has occurred, usually for speed path analysis. One of the uses of a dynamic emission system is to identify faults by studying the emission as a general function of time.

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Direct Observation of Photoexcited Electron Dynamics in Organic Solids Exhibiting Thermally Activated Delayed Fluorescence via Time‐Resolved Photoelectron Emission Microscopy

Advanced Optical Materials ◽

10.1002/adom.202100619 ◽

2021 ◽

pp. 2100619

Author(s):

Yusuke Fukami ◽

Masato Iwasawa ◽

Masahiro Sasaki ◽

Takuya Hosokai ◽

Hajime Nakanotani ◽

...

Keyword(s):

Direct Observation ◽

Delayed Fluorescence ◽

Electron Dynamics ◽

Photoelectron Emission ◽

Photoexcited Electron ◽

Organic Solids ◽

Time Resolved ◽

Thermally Activated Delayed Fluorescence ◽

Thermally Activated ◽

Emission Microscopy

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Urinary gonadotropin measurements by enhanced luminometric assays (LIA) for the evaluation of pubertal development

Journal of Pediatric Endocrinology and Metabolism ◽

10.1515/jpem-2020-0598 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

And Demir ◽

Adem Aydın ◽

Atilla Büyükgebiz ◽

Ulf-Håkan Stenman ◽

Matti Hero

Keyword(s):

Healthy Subjects ◽

Reliable Method ◽

Pubertal Development ◽

High Sensitivity ◽

Tanner Stage ◽

Time Resolved ◽

Stage 1 ◽

Sensitive Detection Technique ◽

Serum And Urine

Abstract Objectives Determination of LH in urine has proved to be a reliable method for evaluation of pubertal development. The human LH assay based on time-resolved immunofluorometric (IFMA) technology (AutoDELFIA, PerkinElmer, Wallac) has been found to be suitable for this purpose thanks to its high sensitivity but other assays have not been evaluated. We have analyzed our data obtained by another potentially sensitive detection technique, enhanced luminometric assay (LIA) with the objective of finding a viable alternative to IFMA since these may not be available in the future. Methods LIA was used to measure LH and FSH in serum and urine samples from 100 healthy subjects of each Tanner stage and both genders, whose pubertal development has been determined. Results Urinary gonodotropin concentrations measured by LIA correlated well with Tanner stage [(r=0.93 for girls, r=0.81 for boys; p<0.01 for LH) and (r=0.81 for girls, r=0.73 for boys; p<0.01 for FSH)]. LIA determinations revealed the increase in U-LH concentrations during the transition from Tanner stage 1–2 in both girls and boys (p<0.001), whereas U-FSH and S-LH were able to detect the increase from Tanner stage 1–2 only in boys or girls, respectively (both p<0.001). Conclusions Measurement of urinary gonadotropin concentrations by LIA may be useful for the evaluation of overall pubertal development and also in the detection of transition from prepuberty to puberty.

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KD determination from time-resolved experiments on live cells with LigandTracer and reconciliation with end-point flow cytometry measurements

European Biophysics Journal ◽

10.1007/s00249-021-01560-2 ◽

2021 ◽

Author(s):

Diana Spiegelberg ◽

Jonas Stenberg ◽

Pascale Richalet ◽

Marc Vanhove

Keyword(s):

Flow Cytometry ◽

Live Cells ◽

Time Resolved ◽

Surface Receptors ◽

Full Characterization ◽

End Point ◽

Titration Curves ◽

Kinetics Of

AbstractDesign of next-generation therapeutics comes with new challenges and emulates technology and methods to meet them. Characterizing the binding of either natural ligands or therapeutic proteins to cell-surface receptors, for which relevant recombinant versions may not exist, represents one of these challenges. Here we report the characterization of the interaction of five different antibody therapeutics (Trastuzumab, Rituximab, Panitumumab, Pertuzumab, and Cetuximab) with their cognate target receptors using LigandTracer. The method offers the advantage of being performed on live cells, alleviating the need for a recombinant source of the receptor. Furthermore, time-resolved measurements, in addition to allowing the determination of the affinity of the studied drug to its target, give access to the binding kinetics thereby providing a full characterization of the system. In this study, we also compared time-resolved LigandTracer data with end-point KD determination from flow cytometry experiments and hypothesize that discrepancies between these two approaches, when they exist, generally come from flow cytometry titration curves being acquired prior to full equilibration of the system. Our data, however, show that knowledge of the kinetics of the interaction allows to reconcile the data obtained by flow cytometry and LigandTracer and demonstrate the complementarity of these two methods.

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