Compact spectrometer based on a disordered photonic chip. On‐chip measurement of photoluminescence with high sensitivity monolithic spectrometer.
Single-shot on-chip spectral sensors based on photonic crystal slabs. Grating multiplexing structure based high-resolution infrared spectrometer. Sub-nm resolution cavity enhanced microspectrometer. Light: Science & Applications 3, e203 (2014). Holographic planar lightwave circuit for on-chip spectroscopy. Miniaturized NIR spectrometer based on novel MOEMS scanning tilted grating. Journal of Combinatorial Chemistry 5, 8-17 (2003). Fluorescence spectroscopy and multivariate spectral descriptor analysis for high-throughput multiparameter optimization of polymerization conditions of combinatorial 96-microreactor arrays. MEMS FPI-based smartphone hyperspectral imager.
Smartphone-based multispectral imaging: system development and potential for mobile skin diagnosis. Stitching-free 3D printing of millimeter-sized highly transparent spherical and aspherical optical components. (eds) 3D Printing of Optics (SPIE Press, 2018).
Sub-micrometre accurate free-form optics by three-dimensional printing on single-mode fibres. In situ 3D nanoprinting of free-form coupling elements for hybrid photonic integration. Tailored micro-optical freeform holograms for integrated complex beam shaping. Ultra-compact on-chip LED collimation optics by 3D femtosecond direct laser writing. Photonic wire bonding: a novel concept for chip-scale interconnects. Light: Science & Applications 3, e175 (2014). Hybrid 2D-3D optical devices for integrated optics by direct laser writing. Three-dimensional nanostructures for photonics. 3D printed stacked diffractive microlenses. Fabrication of grating structures by simultaneous multi-spot fs laser writing. 3D-printed eagle eye: compound microlens system for foveated imaging. Two-photon direct laser writing of ultracompact multi-lens objectives. Three-dimensional direct laser written achromatic axicons and multi-component microlenses. A femtosecond laser-induced two-photon photopolymerization technique for structuring microlenses. Journal of Optics A: Pure and Applied Optics 7, 396-399 (2005). Log-pile photonic crystal fabricated by two-photon photopolymerization.