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Raman Probing the Local Ultrastrong Coupling of Vibrational Plasmon…
https://www.np.phy.cam.ac.uk/files/prl23_mirgratingsers.pdf22 Sep 2023: 3).Changing the periodicity of the grating from 4 to 14 μmshifts this detuning (Supplemental Material [24], Sec. ... from the lower grating-scattered branch at kx 0 from arectangular grating (Supplemental Material [24], Sec. -
Multi-wavelength lock-in spectroscopy for extracting perturbed…
https://www.np.phy.cam.ac.uk/files/oe23_aomlockin.pdf27 Jan 2023: 1(a)). The NPoR confines visible/near-infrared (NIR) and MIR lightwithin the same active region below the NP [23], allowing strong optomechanical coupling andnonlinearities [17,24,25]. ... 21(6), 2512–2518 (2021). 24. A. Lombardi, M. K. Schmidt, L. -
SERS Sensing of Dopamine with Fe(III)‐Sensitized Nanogaps in…
https://www.np.phy.cam.ac.uk/files/small23_mlaggfents.pdf22 Aug 2023: a) Spectra after 24 h immersion showing visible DA peaks of <500 nm, vertical offsetsindicated by lines on the right. ... 2023, 8, 2879.[24] C. C. Wang, J. S. Chen, Electrochim. Acta 2008, 53, 5615.[25] P. -
Video‐Rate Switching of High‐Reflectivity Hybrid Cavities Spanning…
https://www.np.phy.cam.ac.uk/files/advmat23_nanocaves.pdf28 Jun 2023: Forthe entire E-paper industry, high brightness (>40%) in colormode and video display capability (>24 Hz) are the two mainchallenges limiting the replacement of emissive displays. ... Compared to ourprevious work,[ 22,23,24 ] we use here a “reversed” -
Mapping Atomic-Scale Metal–Molecule Interactions: Salient Feature…
https://www.np.phy.cam.ac.uk/files/jpcl23_mlpicocavities.pdf12 Dec 2023: Nano Lett. 2018, 18 (1), 262271.(24) Lin, Q.; Hu, S.; Földes, T.; Huang, J.; Wright, D.; Griffiths, J.;Elliott, E.; de Nijs, B.; Rosta, E.; Baumberg, J. ... Lett.2018, 9 (24), 71467151.(26) Anderson, A. G., Jr.; Steckler, B. M. -
Kinetics of Light‐Responsive CNT / PNIPAM Hydrogel Microactuators
https://www.np.phy.cam.ac.uk/files/small23_cntpnipnactuators.pdf23 Oct 2023: The kinetics of swelling and deswellingof hydrogels was discussed by Tanaka et al,[ 24–27 ] in which the ex-pected radius of a spherical hydrogel over time, a(t), was ... Jin, J. Mech. Phys. Solids 2019, 124, 599.[24] T. Tanaka, L. -
Single-molecule mid-infrared spectroscopy and detection through…
https://www.np.phy.cam.ac.uk/files/natphot23_mirval.pdf29 Aug 2023: pumping7. Although aS-PL can be observed for intense pulsed excitation23,24, such require-ments are not practical for compact MIR detectors. ... Chem. Phys. Lett. 36, 232–237 (1975). 24. Whaley-Mayda, L., Guha, A., Penwell, S. -
Accurate Transfer of Individual Nanoparticles onto Single Photonic…
https://www.np.phy.cam.ac.uk/files/acsadvmatint23_nptransfertodisk.pdf28 Jun 2023: Each array was formed by 24 24 Au disk antennas(sample Disk 1 = 2304 disks) and 25 25 disks (samples Disk2 and Disk 3 = 2400 disks) of diameter ΦD = 6 μm, ... In thefirst case (Stamp 1), square 24 24 columns of side W1S = 1μm and height of HS = 550 nm -
Full Control of Plasmonic Nanocavities Using Gold Decahedra‐on‐Mirror …
https://www.np.phy.cam.ac.uk/files/adcsci23_decahedraonmirror.pdf8 Feb 2023: methods, with controllable gap sizes downto sub-nanometer scales.[ 5,21–23 ] Massive EM field enhance-ments E > 600 have been achieved, sufficient to detect singlemolecules.[ 10,24 ] However, in such ... molecule (“picocavities”)[ 9,10,24 ] and b)a -
Quantum Plasmonics in Sub-Atom-Thick Optical Slots
https://www.np.phy.cam.ac.uk/files/nanolett23_mimiatomicslots.pdf29 Nov 2023: Low-Energy Acoustic Plasmons at Metal Surfaces.Nature 2007, 448 (7149), 5759.(24) Park, S. -
Single-Molecule Sizing through Nanocavity Confinement
https://www.np.phy.cam.ac.uk/files/nanolett23_nanofluidics.pdf17 Apr 2023: Received: December 14, 2021Revised: February 16, 2023Published: February 24, 2023. Letterpubs.acs.org/NanoLett. ... Pharm. Res. 2007, 24 (2), 203227.(11) Kopp, M. R. G.; Wolf Pérez, A.-M.; Zucca, M. -
Amplified Plasmonic Forces from DNA Origami-Scaffolded Single Dyes in …
https://www.np.phy.cam.ac.uk/files/nanolett23_dnaodye.pdf27 Jun 2023: Dyefluorescence lifetimes of 24 ns47,48 have been shown to bePurcell-accelerated by >4000 in such nanogaps from enhancedfields E/E0 of 100. ... 24) Castro, C. E.; Kilchherr, F.; Kim, D.-N.; Shiao, E. L.; Wauer, T.;Wortmann, P.; Bathe, M.; Dietz, H. -
Photoluminescence upconversion in monolayer WSe2 activated by…
https://www.np.phy.cam.ac.uk/files/natcomm23_wse2darknpom.pdf15 Sep 2023: Rev. Lett. 123,096803 (2019). 24. Zhang, X.-X. et al. Magnetic brightening and control of dark exci-tons in monolayer WSe2. -
Giant optomechanical spring effect in plasmonic nano- and…
https://www.np.phy.cam.ac.uk/files/natcomm23_optomechanicalspring_0.pdf28 Jun 2023: In the mid-infrared, such collective phononshave been termed vibrational excitons2,22–24, but here they are dyna-mically induced only by the laser driven Raman dipoles. ... In c, d, scalingof in-coupled power from theory by 0.24 is used to match with -
Solar-driven liquid multi-carbon fuel production using a standalone…
https://www.np.phy.cam.ac.uk/files/natenergy23_bivo4leaf.pdf28 Jun 2023: 24). To achieve solar-driven unassisted multi-carbon alcohol produc-tion coupled to water oxidation, tandem devices were assembled by connecting an O2-evolving BiVO4 photoanode (1 0.1 µm thick, -
Controlling Atomic-Scale Restructuring and Cleaning of Gold Nanogap…
https://www.np.phy.cam.ac.uk/files/acssensors23_mlagg_plasmaclean.pdf7 Jul 2023: Inaddition, surface chemistry, nanoscale geometry, and size needto be tightly controlled as these also affect reproducibility.Top-down approaches such as electron-beam lithography,24. ... For map scans, several MLaggs aredeposited onto one large -
Boosting Optical Nanocavity Coupling by Retardation Matching to Dark…
https://www.np.phy.cam.ac.uk/files/acsphotonics23_polymernpom.pdf9 Mar 2023: J. Phys. Chem. C2009, 113, 1769117697.(24) Deng, L.; Zhai, Y.; Chen, Y.; Wang, N.; Huang, Y. -
Plasmonic Sensing Assay for Long-Term Monitoring (PSALM) of…
https://www.np.phy.cam.ac.uk/files/acsnanoscienceau22_psalm_fe_neurotransmitters.pdf2 Jan 2023: noise ratio,21 looking atNTs in cells,22 competitive binding of DA and albumin incerebrospinal fluid,23 specific aptamer binding of DA in a Auand graphene construct,24 and NT SERS
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