Gold Nanocluster‐Modified Titanium Nitride for Ultrafast Photonics Applications

Zhang, Bin; Wang, Zhenhong; Zhang, Chunxiang; Wu, Hanwei; Dang, Shanshan; Du, Juan; Song, Yufeng; Zhang, Han; Li, Jun; Nie, Guohui

doi:10.1002/aelm.202000954

Cited by 14 publications

(12 citation statements)

References 36 publications

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“…Moreover, as a result of the reverse of absorptive nonlinearity induced by the increase in oxygen deficiency, we observe a crossover of nonlinear absorption coefficients (α NL ) for samples with moderate oxygen vacancies. The calculated NLO parameters, including α NL and Im χ 3 , are quite promising compared with those of contemporary low-dimensional absorptive NLO materials (see Table S2), suggesting that these topochemically engineered oxide NPs can be further exploited for applications like saturable absorbers for pulse laser generation …”

Section: Resultsmentioning

confidence: 96%

“…The calculated NLO parameters, including α NL and Imχ 3 , are quite promising compared with those of contemporary low-dimensional absorptive NLO materials (see Table S2), suggesting that these topochemically engineered oxide NPs can be further exploited for applications like saturable absorbers for pulse laser generation. 46 To unravel the response time for the NLO absorption, we employed femtosecond pump−probe spectroscopy to study the ultrafast carrier dynamics associated with the transient change in transmission. A degenerate pump−probe setup was used with the pump and probe wavelength fixed at 1030 nm.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Enhancement and Inversion of Absorptive Nonlinearity Induced by Topochemically Controlled Insulator-to-Metal Transition

et al. 2021

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The nonresonant, nonlinear optical (NLO) absorption of photons with sub-bandgap energies by gapped insulators is often dominated by a two-photon or multiphoton process, which is characterized by a positive NLO absorption coefficient and manifests as reverse saturable absorption. We show here that this absorptive nonlinearity can be reversed to saturable absorption through controlled insulator-to-metal transition. As exemplified with the model transition metal oxide TiO 2 , we demonstrate a crossover of NLO absorption coefficients from positive to negative values accompanied by a dramatic enhanced subpicosecond NLO response in the near-infrared (NIR) sub-bandgap spectral region, which is realized by topochemical engineering of oxygen stoichiometry. From first-principles electronic structure calculations, the inversion of absorption nonlinearity is associated with the oxygen deficiency-controlled filling of the Ti-3d band that drives a transition from the gapped insulating phase to a gapless metallic phase. We show further that the resultant SA behavior can be leveraged to drive a NIR optical switch that enables both Q-switched and mode-locked laser pulse generation. The methodology for engineering the NLO response by controlling the energetics and d-band filling could be extended for similar TM oxides and exploited further for ultrafast photonics applications.

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Section: Resultsmentioning

confidence: 96%

Section: ■ Results and Discussionmentioning

confidence: 99%

Enhancement and Inversion of Absorptive Nonlinearity Induced by Topochemically Controlled Insulator-to-Metal Transition

et al. 2021

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“…Note that the fiber laser in our experiment has a large absolute value of net cavity dispersion (1.96 ps 2 ), revealing that the soliton pulses are not nearly transform limited. [ 49 ] From Figure 5d, the RF spectrum displays a high peak at the repetition rate of 2.07831 MHz, corresponding to a signal‐to‐noise ratio (SNR) of 45 dB, which indicates the high stability of the mode‐locked pulses.…”

Section: Resultsmentioning

confidence: 99%

Robust and High‐Efficient Fabrication of Gold Triangles Array on Optical Fiber Tip for Laser Mode Locking

Cai

Xue

et al. 2022

Adv Materials Inter

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(8 of 9)www.advmatinterfaces.de (up to 11.5%). In addition, the all-fiber mode-locked lasers with picosecond (≈3.7 ps) pulse duration and high output power (>10 mW) have been successfully achieved at the optical communication wavelength of 1.5 µm when first using the GTAs@OFT samples as SAs. What is worth noting is that other well-ordered nanostructures can also be rapidly and economically mass-produced onto the OFTs by combining our modified self-assembly NLT with the standard etching technology (e.g., plasma etching), [41,44] which paves the way toward industrial production of the "all-fiber devices" in communications, bio-sensing, and bio-imaging.

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“…Then, to explore the mechanism of the link between GNC and Ce 3+ , some experiments for chemical structure analysis were performed, except for X-ray diffraction (XRD). It is considered that no crystal diffraction peak of nanoclusters could be observed in XRD because of their ultrasmall sizes. , In X-ray photoelectron spectroscopy (XPS), the peak corresponding to C–OH (285.3 eV) showed an increase after adding Ce 3+ , while the intensity of CO (286.5 eV) showed a relative decrease (Figure A,B). This was consistent with previous studies, suggesting the coordination interactions between carboxylic acid groups and Ce 3+ .…”

Section: Resultsmentioning

confidence: 99%

Tyrosine-Decorated Gold Nanoclusters Chelated Cerium(III) for Fluorescence Detection of Dopamine

Zhu

Weng

et al. 2021

ACS Appl. Nano Mater.

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In this work, a tyrosine-decorated gold nanocluster (Tyr-GNC)–cerium(III) complex was established for the fluorescent detection of dopamine (DA). Tris–HCl buffer was used for synthesizing Tyr-GNC; thus, Tyr-GNC could emit fluorescence even under neutral conditions. The quantum yield (QY) of Tyr-GNC was 13.3%. Trivalent cerium ions (Ce3+) chelated hydroxyl and amino groups of tyrosine to form GNC–Ce3+. Also, DA showed a higher quenching efficiency in the fluorescence of GNC–Ce3+ than that of GNC. The mechanism was that Ce3+ chelated with DA and promoted its oxidative self-aggregation under alkaline buffer, and, at the same time, the oxidative product quenched the fluorescence of Tyr-GNC by the inner filter effect (IFE). In DA detection, GNC–Ce3+ showed a wide detection range (0.1–1000 μM) and a low detection limit (10.85 nM) for DA with high selectivity. The platform was successfully applied to DA detection in human plasma. This work proposed insight into the interaction between GNC–Ce3+ and DA, which has broad application prospects in clinical diagnosis.

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Gold Nanocluster‐Modified Titanium Nitride for Ultrafast Photonics Applications

Cited by 14 publications

References 36 publications

Enhancement and Inversion of Absorptive Nonlinearity Induced by Topochemically Controlled Insulator-to-Metal Transition

Enhancement and Inversion of Absorptive Nonlinearity Induced by Topochemically Controlled Insulator-to-Metal Transition

Robust and High‐Efficient Fabrication of Gold Triangles Array on Optical Fiber Tip for Laser Mode Locking

Tyrosine-Decorated Gold Nanoclusters Chelated Cerium(III) for Fluorescence Detection of Dopamine

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