Featured
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Article
| Open AccessSwitchable unidirectional emissions from hydrogel gratings with integrated carbon quantum dots
Directional emission of photoluminescence is an emerging technique for light-emitting fields and nanophotonics. Here, the authors demonstrate a hydrogel grating with integrated quantum dots for switchable unidirectional emission tuning.
- Chenjie Dai
- , Shuai Wan
- & Zhongyang Li
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Article
| Open AccessA dual-selective thermal emitter with enhanced subambient radiative cooling performance
Radiative cooling is a sustainable subambient cooling technology. Here, authors show a scalable and practical design of a dual-selective thermal emitter that is shown to have enhanced radiative cooling potential over existing typical designs.
- Xueke Wu
- , Jinlei Li
- & Rufan Zhang
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Article
| Open AccessEfficient, narrow-band, and stable electroluminescence from organoboron-nitrogen-carbonyl emitter
Multi-resonance thermally activated delayed fluorescent emitters composed of only period-2 elements are important for achieving comprehensive performances. Here, authors report hybridization of organoboron-nitrogen and carbonyl groups in the emitter to achieve a long device operational stability.
- Ying-Chun Cheng
- , Xun Tang
- & Xiao-Hong Zhang
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Article
| Open AccessHelical-caging enables single-emitted large asymmetric full-color circularly polarized luminescence
Circularly polarised luminescence (CPL) is essential for asymmetric synthetic photochemistry. Here, the authors integrate white quantum dots with chiral nematic liquid crystal or liquid crystal polymer to achieve single-emitted tuneable full-colour or white CPL for enantioselective polymerization.
- Yajie Zhou
- , Yaxin Wang
- & Taotao Zhuang
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Perspective
| Open AccessPlanar hyperbolic polaritons in 2D van der Waals materials
In this Perspective, the authors illustrate the physics of hyperbolic polaritons in anisotropic 2D and 1D materials, proposing new potential material candidates, forward looking opportunities and technological applications.
- Hongwei Wang
- , Anshuman Kumar
- & Tony Low
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Article
| Open AccessMid-infrared supermirrors with finesse exceeding 400 000
The researchers showcase all-crystalline and hybrid mid-infrared supermirrors with the lowest optical losses ever demonstrated in this wavelength range, representing an unprecedented improvement over any existing mirrors made with any production technology.
- Gar-Wing Truong
- , Lukas W. Perner
- & Garrett D. Cole
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Article
| Open AccessReal-data-driven real-time reconfigurable microwave reflective surface
The authors demonstrate how flexible metasurfaces powered by artificial neural network can dynamically manipulate the EM scattering behavior from an arbitrary surface - an ultimate ambition for many EM stealth and communication problems.
- Erda Wen
- , Xiaozhen Yang
- & Daniel F. Sievenpiper
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Article
| Open Access3.5 × 3.5 μm2 GaN blue micro-light-emitting diodes with negligible sidewall surface nonradiative recombination
Here Wang et al. demonstrate the fabrication of GaN micro-light emitting diodes with a low rate of efficiency decrease in low current density regions, these features are strongly desired for augmented-reality glass applications.
- Xuelun Wang
- , Xixi Zhao
- & Seiji Samukawa
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Article
| Open AccessEngineering chirality at wafer scale with ordered carbon nanotube architectures
Methods for generating macroscopic chiral matter struggle with limited scalability. Here, the authors show two vacuum filtration methods - twist stacking and mechanical rotation - to align carbon nanotubes into chiral structures at wafer scale with tunable circular dichroism.
- Jacques Doumani
- , Minhan Lou
- & Weilu Gao
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Article
| Open AccessHierarchically manufactured chiral plasmonic nanostructures with gigantic chirality for polarized emission and information encryption
The application of chiral metamaterials is limited by the fabrication of large-area chiral plasmonic structures with high dissymmetry factors. Here, the authors overcome this limitation imparting extrinsic chirality to hierarchical nanostructured polymer substrates with application in quantum and security enhanced optical communications.
- Yoon Ho Lee
- , Yousang Won
- & Joon Hak Oh
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Article
| Open AccessLarge area inkjet-printed OLED fabrication with solution-processed TADF ink
Low-cost manufacturing of large-scale thermally activated delayed fluorescence organic light-emitting diodes has been restricted due to their incompatibility with solution processing techniques. Here, authors develop inkjet printing ink formulation to fabricate patterns without use of lithography.
- Chandra Kant
- , Atul Shukla
- & Monica Katiyar
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Article
| Open AccessDisordered metasurface enabled single-shot full-Stokes polarization imaging leveraging weak dichroism
Polarization imaging can capture information from the scene that cannot directly be recorded by traditional intensity cameras. Here, authors demonstrate a single-shot full Stokes polarization camera incorporating a disordered metasurface array with weak dichroism.
- Qingbin Fan
- , Weizhu Xu
- & Ting Xu
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Article
| Open AccessDouble boron–oxygen-fused polycyclic aromatic hydrocarbons: skeletal editing and applications as organic optoelectronic materials
The development of chemically diverse boron-oxygen-fused polycyclic aromatic hydrocarbons has been limited by their synthetic complexity. Here, authors report a one-pot strategy for their facile synthesis and demonstrate their potential as ultralong afterglow and host materials for deep-blue OLEDs.
- Guijie Li
- , Kewei Xu
- & Yuan-Bin She
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Article
| Open AccessOrganic photodiodes with bias-switchable photomultiplication and photovoltaic modes
Preparation of photodiodes with photomultiplication/photovoltaic two operating modes is promising but challenging. Here, the authors report a bias-switchable dual-mode organic photodiode by adopting traps and blocking layer, achieving detectivity of 1012 Jones and fast response speed in both modes.
- Qingxia Liu
- , Lingfeng Li
- & Yadong Jiang
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Article
| Open AccessLocalization and interaction of interlayer excitons in MoSe2/WSe2 heterobilayers
The authors investigate the optical response of marginally twisted MoSe2/WSe2 heterobilayers and identify two types of trapped excitons depending on laser excitation power and temperature: excitons trapped in shallow defects and excitons trapped in the moire potential. At strong excitation powers, interlayer biexcitons are identified.
- Hanlin Fang
- , Qiaoling Lin
- & Witlef Wieczorek
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Matters Arising
| Open AccessReassessing the existence of soft X-ray correlated plasmons
- Mohsen Moazzami Gudarzi
- & Seyed Hamed Aboutalebi
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Article
| Open AccessNanoscale reshaping of resonant dielectric microstructures by light-driven explosions
Laser machining can modify and reshape materials on the scale comparable to light’s wavelength. Here, authors use tailored microstructures to push the limit of laser machining to a scale that is almost 100 times smaller than a wavelength of light.
- Maxim R. Shcherbakov
- , Giovanni Sartorello
- & Gennady Shvets
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Article
| Open AccessHighly efficient color-tunable organic co-crystals unveiling polymorphism, isomerism, delayed fluorescence for optical waveguides and cell-imaging
Co-crystals of donor-acceptor functional material pairs give switchable optical properties despite challenging aggregation-caused quenching effects. Here, the authors report several organic co-crystals with thermally-activated delayed fluorescence, waveguiding and bio-imaging application.
- Debasish Barman
- , Mari Annadhasan
- & Parameswar Krishnan Iyer
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Article
| Open AccessAutonomous self-healing organic crystals for nonlinear optics
There are many potential applications for non-centrosymmetric molecular crystals, but due to their typical brittle nature, efficiency of applications declines on prolonged use. Here, the authors report an autonomous self-healing ability of dibenzoate derivative single crystals that can retain its non-linear optical response.
- Saikat Mondal
- , Pratap Tanari
- & C. Malla Reddy
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Article
| Open AccessCharge injection engineering at organic/inorganic heterointerfaces for high-efficiency and fast-response perovskite light-emitting diodes
The hole injection and device stability rely heavily on the inorganic/organic interface in perovskite light-emitting diodes. The authors enhanced the NiOx/PVK interface with a self-assembled monolayer, resulting in blue and green devices with maximum efficiencies of 14.5% and 26.0%, respectively.
- Zhenchao Li
- , Ziming Chen
- & Hin-Lap Yip
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Article
| Open AccessElectroluminescence and hyperphosphorescence from stable blue Ir(III) carbene complexes with suppressed efficiency roll-off
Deep-blue emitters and corresponding light-emitting devices are still in the progress to meet industrial standards. Here, the authors report catalytic interconversion of isomeric iridium(III) complexes and achieve true-blue emission and operational half-lifetime of over 10,000 h for tandem devices.
- Jie Yan
- , Dong-Ying Zhou
- & Yun Chi
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Article
| Open AccessInverse design of chiral functional films by a robotic AI-guided system
Chiral materials with strong and tunable chiroptical activities are highly desirable. Here, the authors employ an AI-guided robotic platform to fully execute a cyclic process to perform inverse design and fabricate chiral films with target chiroptical performance.
- Yifan Xie
- , Shuo Feng
- & Gang Zou
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Article
| Open AccessTowards bioresource-based aggregation-induced emission luminogens from lignin β-O-4 motifs as renewable resources
Biorenewable feedstocks are important for developing more sustainable materials, but developing processes can be challenging due to incompatible reaction conditions. Here, the authors report the one-pot preparation of aggregation-induced emission luminogens from lignin moieties.
- Tenglong Guo
- , Yuting Lin
- & Tao Zhang
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Article
| Open AccessTwisted moiré photonic crystal enabled optical vortex generation through bound states in the continuum
The Authors in this work predict the radiation of twisted bilayer photonic crystals to host an optical vortex in the far field, which is enabled by connecting BIC modes in photonic crystals with the free space through a ‘moiré channel’.
- Tiancheng Zhang
- , Kaichen Dong
- & Jie Yao
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Article
| Open AccessManipulation of nonlinear optical responses in layered ferroelectric niobium oxide dihalides
This paper reports the intralayer ferroelectric-to-antiferroelectric and ferroelectric-toparaelectric phase transitions in layered NbOCl2 and NbOI2 under a small pressure, respectively, along with the strong manipulations of nonlinear optics.
- Liangting Ye
- , Wenju Zhou
- & Bing Huang
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Article
| Open AccessEngineering the temporal dynamics of all-optical switching with fast and slow materials
Here the authors demonstrate the active control of an all-optical switch harnessing the interaction of light with the constituent materials. The response speeds up by two orders of magnitude and scales accordingly with the strength of the light matter interaction.
- Soham Saha
- , Benjamin T. Diroll
- & Alexandra Boltasseva
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Article
| Open AccessBlue organic light-emitting diode with a turn-on voltage of 1.47 V
The requirement of a high applied voltage remains a critical issue for blue organic-light emitting diodes. Here, the authors determine the appropriate donor-acceptor combination for triplet-triplet annihilation upconversion emission, achieving a low turn-on voltage of 1.47 V in blue devices.
- Seiichiro Izawa
- , Masahiro Morimoto
- & Masahiro Hiramoto
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Article
| Open AccessHigh performance mechano-optoelectronic molecular switch
To date the performance of molecular electronics compared to silicon limits their applications. Yang et al. develop the first mechano-optoelectronic switch based on mechanically controlled aggregation-induced emission of the self-assembled molecules, which can be reversibly switched at high speed.
- Zhenyu Yang
- , Pierre-André Cazade
- & Yuan Li
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Article
| Open AccessControlling the propagation asymmetry of hyperbolic shear polaritons in beta-gallium oxide
Hyperbolic phonon polaritons occurring in anisotropic materials exhibit strong light confinement and propagation directionality. Matson et al. report real-space imaging and control of recently discovered hyperbolic shear phonon-polaritons in beta-Ga2O3, arising from symmetry breaking in the dielectric response.
- Joseph Matson
- , Sören Wasserroth
- & Joshua D. Caldwell
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Article
| Open AccessA universal metasurface antenna to manipulate all fundamental characteristics of electromagnetic waves
The authors show a universal metasurface antenna capable of simultaneously and independently controlling all five fundamental properties of electromagnetic waves, including amplitude, phase, frequency, polarization, and momentum.
- Geng-Bo Wu
- , Jun Yan Dai
- & Chi Hou Chan
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Article
| Open AccessMinimizing non-radiative decay in molecular aggregates through control of excitonic coupling
Exciton delocalization in molecular aggregates is suggested to counteract the Energy Gap Law. Here, authors reveal the underlying physical picture and find the optimal excitonic coupling that minimizes nonradiative decay by nearly exact simulations.
- Yuanheng Wang
- , Jiajun Ren
- & Zhigang Shuai
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Article
| Open AccessGiant room-temperature nonlinearities in a monolayer Janus topological semiconductor
Electronic band topology may be leveraged to enhance nonlinear optical properties in monolayer semiconductors. Here, the authors report giant room-temperature nonlinearity enhancements in Janus transition metal dichalcogenides.
- Jiaojian Shi
- , Haowei Xu
- & Aaron M. Lindenberg
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Article
| Open AccessCorrelating metasurface spectra with a generation-elimination framework
The authors present a generation-elimination framework that correlates the spectra from different frequency bands, where the inaccessible spectra are precisely forecasted without consulting structural information. The spectral correlation will accelerate the unification of all metasurface designs and facilitate versatile applications involving cross-wavelength information correlation.
- Jieting Chen
- , Chao Qian
- & Hongsheng Chen
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Article
| Open AccessInterplay of structure and photophysics of individualized rod-shaped graphene quantum dots with up to 132 sp² carbon atoms
The use and characterization of graphene quantum dots is limited by their pronounced tendency to form aggregates. Here, the authors synthesize rod-shaped motifs of nanographenes with up to 132 sp2 carbon atoms that are fully individualized, which allows the precise description of their intrinsic photophysical properties.
- Daniel Medina-Lopez
- , Thomas Liu
- & Stephane Campidelli
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Article
| Open AccessLocalised surface plasmon resonance inducing cooperative Jahn–Teller effect for crystal phase-change in a nanocrystal
Here the authors demonstrate that semiconductive plasmonic CuS NCs show metastable displacive ion movements due to the cooperative Jahn–Teller effect induced by localised surface plasmon resonance.
- Masanori Sakamoto
- , Masaki Hada
- & Tohru Sato
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Article
| Open AccessHybrid topological photonic crystals
Owing to the nonequilibrium nature, photonic topological phenomena can involve multiple band gaps. Here the authors report on the discovery of a class of hybrid topological photonic crystals that host quantum anomalous Hall and valley Hall phases simultaneously.
- Yanan Wang
- , Hai-Xiao Wang
- & Guang-Yu Guo
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Article
| Open AccessDurable organic nonlinear optical membranes for thermotolerant lightings and in vivo bioimaging
Organic nonlinear optical materials have potential in applications such as bioimaging, but tend to have low photoluminescent quantum yields and are prone to aggregation-caused quenching. Here, the authors report a host-guest approach for improving the luminescent properties of these materials.
- Tian Tian
- , Yuxuan Fang
- & Wu-Qiang Wu
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Article
| Open AccessMesitylated trityl radicals, a platform for doublet emission: symmetry breaking, charge-transfer states and conjugated polymers
Neutral π-radicals are potential emitters for optoelectronic devices due to the absence of energetically low-lying non-emissive states. Here, the authors report mesityl-substituted tris(2,4,6-trichlorophenyl)methyl radicals and achieve maximum device efficiency of 28% at a wavelength of 689 nm.
- Petri Murto
- , Rituparno Chowdhury
- & Hugo Bronstein
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Article
| Open AccessCarbene-stabilized enantiopure heterometallic clusters featuring EQE of 20.8% in circularly-polarized OLED
Chiral coinage metal clusters show promise for use in emerging circularly polarized light-emitting materials and diodes but research on efficient circularly polarized organic light-emitting diodes (CP-OLEDs) with enantiopure metal clusters remains elusive. Herein, the authors design a multidentate chiral N-heterocyclic carbene (NHC) ligand which is used in the synthesis of enantiopure Au(I)-Cu(I) clusters with exceptional stability and demonstrate application of these clusters in the fabrication of CP-OLEDs
- Xiao-Hong Ma
- , Jing Li
- & Shuang-Quan Zang
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Article
| Open AccessLongevity gene responsible for robust blue organic materials employing thermally activated delayed fluorescence
High throughput virtual screening of robust blue thermally activated delayed fluorescent emitters has yet been implemented. Here, authors reveal a linear relationship of the difference between bond dissociate energy and first triplet state energy with the logarithm of device operational lifetime.
- Qing-Yu Meng
- , Rui Wang
- & Juan Qiao
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Article
| Open AccessAchieving near-perfect light absorption in atomically thin transition metal dichalcogenides through band nesting
The authors demonstrate near-perfect light absorption using only two atomic layers of transition metal dichalcogenides. This is achieved by reducing interlayer interaction which optimizes band nesting, and does not require the use of complex metasurfaces.
- Seungjun Lee
- , Dongjea Seo
- & Tony Low
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Article
| Open AccessHyperbolic polaritonic crystals with configurable low-symmetry Bloch modes
Photonic crystals (PhCs) are artificial periodic materials that can be used to manipulate the flow of light. Here, the authors report the realization of asymmetric PhCs based on in-plane hyperbolic phonon polaritons in perforated α-MoO3, showing low-symmetry deep-subwavelength Bloch modes that are robust against lattice rearrangement in specific directions.
- Jiangtao Lv
- , Yingjie Wu
- & Qingdong Ou
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Article
| Open AccessImpact of bimetallic interface design on heat generation in plasmonic Au/Pd nanostructures studied by single-particle thermometry
The conversion of light into heat is a key process for plasmonic-catalytic applications. Here, the authors investigate how the design of the bimetallic interface affects the photothermal heating properties in Au/Pd nanostructures by applying thermometry at the single-particle level.
- Julian Gargiulo
- , Matias Herran
- & Emiliano Cortés
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Article
| Open AccessHalide-assisted differential growth of chiral nanoparticles with threefold rotational symmetry
Expanding the library of chiral plasmonic nanoparticles will foster the development of chiroptical applications. Here, the authors apply halide-assisted differential growth to convert Au nanodisks into triskelion-shaped chiral nanoparticles with threefold rotational symmetry.
- Jiapeng Zheng
- , Christina Boukouvala
- & Jianfang Wang
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Article
| Open AccessCollective photothermal bending of flexible organic crystals modified with MXene-polymer multilayers as optical waveguide arrays
Organic crystals represent potential alternatives to silicon dioxide due to their high flexibility and controllable properties. Here, the authors prepared a hybrid organic crystal material that responds mechanically to infrared light.
- Xuesong Yang
- , Linfeng Lan
- & Hongyu Zhang
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Article
| Open AccessEye accommodation-inspired neuro-metasurface focusing
Here the authors propose for the first time the concept of supervised-evolving learning (SEL) and a corresponding SEL-driven adaptive focusing (SELAF) system. This metasurface can adaptively realize focusing at any specified position for waves incident from any direction. This work demonstrates unprecedented potential for tasks involving real-time, fast and complex electromagnetic wave manipulation.
- Huan Lu
- , Jiwei Zhao
- & Hongsheng Chen
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Article
| Open AccessUnraveling chirality transfer mechanism by structural isomer-derived hydrogen bonding interaction in 2D chiral perovskite
Chiral Ruddlesden-Popper perovskites are of interest as they exhibit circular dichroism in the visible light region. Here authors demonstrate the effect of asymmetric hydrogen bonding on the spin-polarization-based phenomena in chiral 2D perovskites by using structural isomer organic spacers.
- Jaehyun Son
- , Sunihl Ma
- & Jooho Moon
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Article
| Open AccessHybrid achromatic microlenses with high numerical apertures and focusing efficiencies across the visible
Creating compact, lightweight and powerful optics that work well under visible light has been challenging. Here, the authors 3D print optically transparent polymers inside nanoporous glass in order to densely integrate refractive and diffractive elements, forming thin, high-performance hybrid achromatic imaging micro-optics.
- Corey A. Richards
- , Christian R. Ocier
- & Paul V. Braun
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Article
| Open AccessPhotonic crystals with rainbow colors by centrifugation-assisted assembly of colloidal lignin nanoparticles
Photonic crystals are often prepared by assembly of particles into periodically arranged structures, but it is challenging to fabricate these materials using lignin nanoparticles. Here, the authors report the use of centrifugation to fabricate photonic crystals with rainbow structural colors.
- Jinrong Liu
- , Mathias Nero
- & Mika H. Sipponen