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29 Aug 2023: c. 100. 200. 0. MIR transduced signal(on-o)/o. Without MIRWith MIR at 1,623 cm–1. ... 850750 8007006500. 200. 400 λpump. Fig. 2 | Transduced MIR in vibrationally assisted luminescence.

23 Oct 2023: actuated here by illuminating with a 532 nm laserover a range of powers (40–200 mW, resulting in irradiance10–55 W cm2) so that the CNTs absorb light and heat the ... www.advancedsciencenews.com www.small-journal.com. Figure 2. Deswelling of a

28 Jun 2023: 1.5 V at 200 mV s1 rel-ative to the reference electrode (Ag/AgCl). ... For each full switch (fromred to green, >95% intensity change), the charge transfer is Q = Idt 200 μC in 30 ms.

28 Jun 2023: Pd 3d5/2. g. Pd(0). Pd(0). e. Cu-rich phasePd-rich phaseCu2OCarbon. a. 2 nm0.206 nmCuPd(200). ... 0.18 nm Cu (200). d. Cu. Fig. 1 | Artificial leaf overview and physical characterization of the bimetallic catalyst.

15 Sep 2023: 1 μm. XB XD1L WSe2 Au. 200 μm. 5 μm. 633 nm. ... The variation in anti-Stokes PLenhancement is even larger, ranging from EFaS = 1 to >200, with anaverage EFaS. =

7 Jul 2023: SERSspectra are taken with a 200 μm grid size (1020 rows and columns,depending on film diameter) exposing the sample for 1 s perspectrum. ... All spectra are referenced to a white light scatteringtarget (Labsphere). Grid size is consistent with SERS

29 Nov 2023: event, 200 ms integration time.

27 Jun 2023: Representative spectra from >200 individualNPoMs on each sample show the dramatic increase inintensity when one (orange) or two (red) Cy5 molecules arepresent (Figure 2c).

9 Mar 2023: The coupling of the higher-order odd modes (11), (21) increases by >200% (seeSupporting Information).

28 Jun 2023: Despite their large nanocavitylinewidths (κ), the 200 nm3 effective mode volumes V yield single-plasmon optomechanical couplings g exceeding 3 meV, approachingroom temperature thermal energies12–14.