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1 n process can be efficiently modulated using near infrared light.
2 can improve in vivo imaging sensitivity over near infrared light.
3 oxygen and fluorescence when activated with near-infrared light.
4 d reducing its ability to see and respond to near-infrared light.
5 sion upon irradiation by the dual-wavelength near-infrared light.
6 stalline elastomers are capable of absorbing near-infrared light.
7 avelength illumination with blue and far-red/near-infrared light.
8 spholipid that are permeabilized directly by near-infrared light.
9 range from the ultraviolet light through the near-infrared light.
10 as photoswitches that isomerize with red and near-infrared light.
11 Autofluorescence imaging was performed with near-infrared light.
12 gnificant extent upon excitation with red or near-infrared light.
13 uator nanoparticles that are controlled with near-infrared light.
14 n 30 min a day for a few consecutive days by near infrared light (830 nm) transmitted by an array of
17 we present a hybrid detector for visible and near-infrared light achieving response times of the orde
18 y for combating cancer in which AuNRs absorb near-infrared light and convert it into heat, causing ce
19 ting nanoparticles (UCNPs) can be excited by near-infrared light and emit visible light (anti-Stokes
20 segments and minces were excited with 830 nm near-infrared light, and Raman spectra were collected wi
21 on to generate highly-directional visible to near-infrared light beams, at selected wavelengths in pr
23 n-chip optical communication technology uses near-infrared light, but visible wavelengths would allow
24 rrent studies demonstrate that absorption of near-infrared light by an intermediate state prepared vi
25 ts indicate that the bacteria can survive in near-infrared lights capturing low-frequency photons by
26 ces, such as electrically tunable, broadband near infrared lighting devices operating at room tempera
28 pected to be broadly applicable in solar and near-infrared light-emitting applications, where effecti
29 cence quantum yield, are employed in red and near-infrared light-emitting diodes, providing a new pla
30 lorobaculum tepidum cultures with far-red to near-infrared light-emitting diodes, we found that these
31 ity-synchronized fluorescence quenching of a near-infrared light-emitting dye by a radionuclide, (64)
32 antibody-photo absorber conjugate (APC) and near infrared light exposure, dramatically improves nano
33 xisting strategies that use tissue-penetrant near-infrared light for the targeted treatment of cancer
34 anslated in vivo by using deeply penetrating near-infrared light for transdermal stiffness modulation
35 organic dyes is a clear pathway to increase near-infrared light harvesting in liquid-based dye-sensi
37 age changes in retinal reflectance of 780-nm near-infrared light imaged onto a 12-bit charge-coupled
38 fer to a single molecule induced by green to near-infrared light in the junction of a scanning tunnel
39 ecrease in reflectance in response to 780-nm near-infrared light in the retinal region exposed to a v
42 ER1-positive tumor cells (A431), followed by near-infrared light irradiation in vitro and in vivo.
44 em include its sensitivity to 740- to 780-nm near-infrared light, its ability to utilize an endogenou
47 B and phenol removal under UV, visible, and near-infrared light (NIR) irradiation, which can be attr
48 o test our hypothesis that pretreatment with near-infrared light (NIR) via light-emitting diode (LED)
50 clearly show that human visual perception of near infrared light occurs by two-photon isomerization o
51 enetic applications in living organisms with near-infrared light-responsive upconversion nanomaterial
52 ed to 3T3x cells with altered intensities of near-infrared light scattering (I(sc)) the assay showed
56 go a unimolecular chemical reaction and emit near-infrared light that can pass through a living mouse
59 ) conjugate to bind to the cell membrane and near-infrared light to induce immediate and highly speci
60 erence tomography systems use low-coherence, near-infrared light to provide detailed images of anteri
61 therapy (LLLT), refers to the use of red-to-near-infrared light to stimulate cellular functions for
62 les doped with lanthanide ions can upconvert near-infrared light to visible frequencies, enabling the
63 otube (SWCNT)-assisted approach that enables near-infrared light-triggered activation of transforming
64 cattering the obliquely incident visible and near-infrared light (VNIR: 400-1000 nm) in an enhanced D
65 facilitate deep-tissue photoactivation with near-infrared light, we measured the efficacy of two-pho
66 tral peaks that can be excited using red and near-infrared light which avoids photobleaching, penetra
67 pectrum of light illuminations including the near-infrared light, which has great implication in phot
68 photoreceptors can be directly activated by near infrared light with a sensitivity that paradoxicall
69 ng cancer that combines harmless visible and near-infrared light with a nontoxic photoactivatable dye
70 g in a wide wavelength range from visible to near-infrared light with high sensitivity, fast response
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