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Recent Progress in Active Mechanical Metamaterials and Construction Principles

ADVANCED SCIENCE (2022)

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Article Nanoscience & Nanotechnology

Magnetic Multimaterial Printing for Multimodal Shape Transformation with Tunable Properties and Shiftable Mechanical Behaviors

Chunping Ma et al.

Summary: The combination of magnetic soft materials and magnetic shape memory polymers enables reprogrammable, untethered, fast, and reversible shape manipulation, and their enhanced multimodal shape transformation and tunable properties can be explored through multimaterial printing technology. By cooperative thermal and magnetic actuation, multiple deformation modes with distinct shape configurations can be achieved, opening up new possibilities for the fabrication of active metamaterials with tunable physical properties.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

Magneto-Mechanical Metamaterials with Widely Tunable Mechanical Properties and Acoustic Bandgaps

S. Macrae Montgomery et al.

Summary: The new magneto-mechanical metamaterial allows for great tunability through a novel concept of deformation mode branching. The architecture of this metamaterial employs hard-magnetic soft active materials, enabling two distinct actuation modes under opposite-direction magnetic fields.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Review Engineering, Aerospace

A review of topology optimization for additive manufacturing: Status and challenges

Jihong Zhu et al.

Summary: The integration of topology optimization and additive manufacturing shows promising application prospects in modern manufacturing, with significant progress in multi-scale or hierarchical structural optimization design and topology optimization considering additive manufacturing constraints.

CHINESE JOURNAL OF AERONAUTICS (2021)

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Article Nanoscience & Nanotechnology

Humidity- and Water-Responsive Torsional and Contractile Lotus Fiber Yarn Artificial Muscles

Yue Wang et al.

Summary: Materials that dynamically respond to their environment, especially lotus fiber yarn muscles, provide large tensile and torsional strokes with high work capacity and efficiency, showing great potential for applications in artificial muscles, soft robotics, and smart textiles.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

Designing Mechanical Metamaterials with Kirigami-Inspired, Hierarchical Constructions for Giant Positive and Negative Thermal Expansion

Xiaogang Guo et al.

Summary: This study presents a design concept and fabrication strategy for 2D hierarchical metamaterials inspired by kirigami, which can effectively convert thermal mismatch into giant levels of biaxial/uniaxial thermal expansion/shrinkage. Theoretical modeling provides a clear understanding of the microstructure-property relationships and serves as a basis for design choices for desired CTE values. An Ashby plot offers a quantitative comparison of the metamaterials presented in this study to previously reported systems, indicating the ability to substantially enlarge the accessible range of CTE.

ADVANCED MATERIALS (2021)

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Article Engineering, Mechanical

The role of material and geometric nonlinearities and damping effects in designing mechanically tunable acoustic metamaterials

Shaowu Ning et al.

Summary: This study investigates the roles of material and geometric nonlinearities and damping effects in the process of elastic wave manipulation in mechanically tunable acoustic metamaterials (AMs). It was found that geometrical nonlinearity and coating material nonlinearity can manipulate locally resonant and Bragg scattering band gaps, while the matrix material nonlinearity mainly affects the Bragg scattering band gaps. Large holes, thin coating, and large core radius in AM structures enhance their bandgap?s tunability. Furthermore, damping effects alter the position and width of band regions, making it challenging to identify band regions from transmittance spectra.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2021)

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Article Multidisciplinary Sciences

A reprogrammable mechanical metamaterial with stable memory

Tian Chen et al.

Summary: This study introduces a design for a tileable mechanical metamaterial with stable memory at the unit-cell level, allowing each binary element to be independently and reversibly switched between two stable states using magnetic actuation. This on-demand reprogrammability of mechanical properties enables a range of stiffness and strength adjustments, potentially leading to advanced forms of mechanical metamaterials.

NATURE (2021)

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Article Multidisciplinary Sciences

Gaussian-preserved, non-volatile shape morphing in three-dimensional microstructures for dual-functional electronic devices

Ziao Tian et al.

Summary: The study introduces a Gaussian-preserved shape-morphing system for ultrafast shape morphing and non-volatile reconfiguration to develop dual-functional electronic devices at the microscale. This system allows transformation triggered by mechanical or thermal stimuli within a microsecond, and preserves non-volatile configuration during shape morphing process.

NATURE COMMUNICATIONS (2021)

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Article Chemistry, Multidisciplinary

Magnetically Active Cardiac Patches as an Untethered, Non-Blood Contacting Ventricular Assist Device

Hongri Gu et al.

Summary: The concept of magnetically active cardiac patches (MACPs) serves as a non-blood contacting, untethered pulsatile VAD within a magnetic actuation system, which provides a potential alternative solution for myocardial training and therapy for patients with heart failure.

ADVANCED SCIENCE (2021)

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Article Materials Science, Multidisciplinary

Fabrication of multi-scale and tunable auxetic scaffolds for tissue engineering

Yuan Jin et al.

Summary: Melt electro writing (MEW) is used to create 3D porous scaffolds with adjustable Poisson's ratio by altering the printing configurations. The fabricated scaffolds show effective tunability of Poisson's ratio and have potential applications in various biomedical fields.

MATERIALS & DESIGN (2021)

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Review Materials Science, Multidisciplinary

Review on recent origami inspired antennas from microwave to terahertz regime

Syed Imran Hussain Shah et al.

Summary: Origami technology shows great potential for developing antennas in the microwave and terahertz regime, but faces challenges related to stability, robustness, and self-deployment. Solutions are needed to design more practical deployable origami antennas. Nanoscale origami antennas for terahertz and optical applications are also promising, but issues like high DNA cost and error rates in fabrication need to be addressed for advancement.

MATERIALS & DESIGN (2021)

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Article Multidisciplinary Sciences

3D printing of highly stretchable hydrogel with diverse UV curable polymers

Qi Ge et al.

Summary: This study presents a new multimaterial 3D printing approach for fabricating complex hybrid 3D structures consisting of hydrogels and UV-curable polymers, paving the way for multifunctional soft devices and machines.

SCIENCE ADVANCES (2021)

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Article Engineering, Mechanical

SMP-based multi-stable mechanical metamaterials: From bandgap tuning to wave logic gates

Zhiwen Ren et al.

Summary: This work proposes a method of creating geometrically reconfigurable and mechanically tunable multi-stable metamaterials to realize a kind of tunable elastic metamaterial with a stable state during the active regulation without continuous-consuming energy based on 4D printing technology. The tunable elastic metamaterial can adjust the starting/ending frequencies, broaden the frequency ranges of bandgaps and control the elastic wave propagation. The method can be used in vibration-isolated steady-state adjustable equipment and smart wave device, and a bi-stable logic-gate elastic metamaterial is implemented to correctly execute simple wave logic operations.

EXTREME MECHANICS LETTERS (2021)

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Article Engineering, Electrical & Electronic

An on-demand plant-based actuator created using conformable electrodes

Wenlong Li et al.

Summary: The study introduces a biohybrid actuator using a plant and an electrical interface, which achieves efficient and responsive actuation and can be wirelessly controlled via a smartphone. This actuator with adaptive interface properties can perform more delicate tasks than its rigid counterparts, with response times tunable to 1.3 seconds and a power input of only 10(-5) W, capable of grasping thin wires and capturing moving objects.

NATURE ELECTRONICS (2021)

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Article Chemistry, Multidisciplinary

Volatile Ultrafast Switching at Multilevel Nonvolatile States of Phase Change Material for Active Flexible Terahertz Metadevices

Prakash Pitchappa et al.

Summary: Phase change materials offer unique reconfigurable properties for photonic applications, with challenges in achieving large area reversible switching. By exploiting the semiconducting nature of GST, dynamic control of terahertz can be achieved at picosecond timescales.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Tensegrity Metamaterials: Toward Failure-Resistant Engineering Systems through Delocalized Deformation

Jens Bauer et al.

Summary: This study introduces the concept of using delocalized deformation to enhance the failure resistance of structures and materials, demonstrating unprecedented improvements in deformability and energy absorption capabilities. The use of space-tileable tensegrity metamaterials achieves delocalized deformation and outperforms traditional lattice architectures.

ADVANCED MATERIALS (2021)

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Article Mechanics

Two-scale damage failure analysis of 3D braided composites considering pore defects

Lei Ge et al.

Summary: A two-scale progressive damage method coupled with representative volume cell (RVC) has been developed to predict the mechanical properties of 3D braided composites considering pore defects. Results show that the void-model is superior to the element-model when predicting the mechanical properties of braided composites.

COMPOSITE STRUCTURES (2021)

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Article Materials Science, Composites

Porous bone tissue scaffold concept based on shape memory PLA/Fe3O4

Wei Zhao et al.

Summary: Bone tissue engineering involves the development of 3D printed porous scaffolds based on shape memory polymer composite (SMPC), which are designed with the addition of magnetic nanoparticles for perfect matching when implanted in the body. The designs are inspired by thorough observation and analysis of lotus root structures, with experiments demonstrating the reliability and biological activity of the scaffolds.

COMPOSITES SCIENCE AND TECHNOLOGY (2021)

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Review Materials Science, Multidisciplinary

Recent progress in the design and fabrication of multifunctional structures based on metamaterials

Xujin Yuan et al.

Summary: Metamaterials, utilizing unconventional properties achieved through microarchitectural designs, have become a research hotspot in electromagnetic, acoustic, mechanical, and physics fields. However, the challenge lies in integrating mechanical features and specific functions. The trend is towards incorporating multifunctional designs into single integrated structures, requiring mechanical-driven designs and structural level innovations for future advancements.

CURRENT OPINION IN SOLID STATE & MATERIALS SCIENCE (2021)

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Article Multidisciplinary Sciences

Self-powered soft robot in the Mariana Trench

Guorui Li et al.

Summary: The deep sea, with its high pressure, remains a challenge to explore, but certain deep-sea creatures are able to thrive at extreme depths. By integrating electronics in a silicone matrix, we developed an untethered soft robot for deep-sea exploration, showcasing the potential of designing soft, lightweight devices for extreme conditions.

NATURE (2021)

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Article Multidisciplinary Sciences

Digital logic gates in soft, conductive mechanical metamaterials

Charles El Helou et al.

Summary: The study introduces a method of leveraging conductive polymer-based mechanical metamaterials to realize various digital logic gates and gate assemblies, providing an important approach for decision-making in soft, conductive materials.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Digital light 3D printing of customized bioresorbable airway stents with elastomeric properties

Nevena Paunovic et al.

Summary: Central airway obstruction is a life-threatening disorder with high physical and psychological burden to patients. Standard-of-care silicone airway stents provide immediate relief but are prone to migration, requiring additional surgeries for removal. Customized bioresorbable airway stents produced by 3D printing offer a promising solution with tunable elastomeric properties and suitable biodegradability.

SCIENCE ADVANCES (2021)

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Article Engineering, Biomedical

A flexible porous chiral auxetic tracheal stent with ciliated epithelium

Jiapeng Liu et al.

Summary: A flexible porous chiral tracheal stent was developed to address complications in tracheobronchial stenosis treatment. The innovative design showed improved ventilation, resistance to migration, and compatibility with pediatric patients. The stent's auxetic properties and porous sponge filler provide a promising environment for epithelial cell growth and potential for enhanced treatment outcomes.

ACTA BIOMATERIALIA (2021)

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Article Chemistry, Multidisciplinary

Liquid-Crystal-Elastomer-Actuated Reconfigurable Microscale Kirigami Metastructures

Mingchao Zhang et al.

Summary: This study focuses on the fabrication of microscale thermo-responsive reconfigurable metasurfaces using stimuli-responsive liquid crystal elastomers (LCEs) as artificial muscle, and explores the relationship between shape transformation behaviors and geometrical parameters of the kirigami structures. Additionally, temperature-dependent switching and information encryption applications are demonstrated as proof of concept.

ADVANCED MATERIALS (2021)

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Article Materials Science, Composites

Metamaterials with a controllable thermal-mechanical stability: Mechanical designs, theoretical predictions and experimental demonstrations

Huabin Yu et al.

Summary: This paper systematically studies a design concept of metamaterial capable of offering a tailorable CTE and demonstrates a remarkable zero CTE result in experiments. The theoretical model and experimental verification show that this metamaterial design can provide excellent thermal-mechanical stability effectively.

COMPOSITES SCIENCE AND TECHNOLOGY (2021)

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Review Materials Science, Multidisciplinary

Elastic instabilities, microstructure transformations, and pattern formations in soft materials

Jian Li et al.

Summary: Large deformations of soft materials can lead to various elastic instabilities, which are crucial in biology. The concept of instability-induced pattern transformations offers new possibilities for designing novel materials.

CURRENT OPINION IN SOLID STATE & MATERIALS SCIENCE (2021)

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Article Engineering, Mechanical

SMP-based chiral auxetic mechanical metamaterial with tunable bandgap function

Yu-Ling Wei et al.

Summary: An artificial designed chiral auxetic metamaterial with adjustable band gap function was developed based on shape memory polymer, and the relationship between elastic modulus, Poisson's ratio, and lattice parameters was investigated using theory and finite element methods. The dispersion curves of the metamaterial under different strain states and temperature field were studied, revealing the evolution processes of the band gap with variation of configuration and environmental temperature. The results demonstrate the potential for customized mechanical properties and vibration control abilities in metamaterial design.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2021)

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Article Engineering, Mechanical

Metamaterials with remarkable thermal-mechanical stability and high specific modulus: Mechanical designs, theoretical predictions and experimental demonstrations

Huabin Yu et al.

Summary: Mechanical metamaterials with lightweight, high specific modulus properties and high-level thermal-mechanical stability have been designed, offering a tunable CTE and remarkable zero CTE. Theoretical predictions, FEAs, and experiments demonstrate the advantages of the design in achieving lightweight, high specific modulus, and a remarkable zero CTE. Ashby plot of the effective CTE with respect to density serves as a useful tool in selecting materials for practical applications, providing quantitative evidences for outstanding thermal-mechanical performances compared to previous studies.

EXTREME MECHANICS LETTERS (2021)

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Article Multidisciplinary Sciences

Liquid-induced topological transformations of cellular microstructures

Shucong Li et al.

Summary: The text discusses the impact of cellular topology on properties, introduces a reversible strategy for topological transformations using liquid treatment, and demonstrates the potential applications of this approach.

NATURE (2021)

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Editorial Material Multidisciplinary Sciences

ELECTRONIC SKIN: FROM FLEXIBILITY TO A SENSE OF TOUCH

Katharine Sanderson

NATURE (2021)

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Article Multidisciplinary Sciences

Customizing a self-healing soft pump for robot

Wei Tang et al.

Summary: Soft electronic pumps utilizing electrical energy to pump liquid provide excellent portability and actuation performance for untethered soft robotics. By combining with a homemade high-voltage power converter, soft pumps are successfully implanted into robotic fish and vehicles, demonstrating the broad potential as universal power sources.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Morphing pasta and beyond

Ye Tao et al.

Summary: By leveraging stresses and diffusion effects, a transient morphing effect can be achieved in structures with parametric surface grooves, transforming flat objects into designed three-dimensional shapes. By tuning the grooving pattern, both zero and nonzero Gaussian curvature geometries can be achieved, improving food manufacturing efficiency and sustainable packaging.

SCIENCE ADVANCES (2021)

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Article Robotics

Underwater maneuvering of robotic sheets through buoyancy-mediated active flutter

Junghwan Byun et al.

Summary: The study demonstrates that passive fluttering dynamics can be utilized for manipulating thin, planar objects in fluid environments by adjusting density distributions. Validation was done through the development of a swimming leaf, showcasing applications in environmental remediation through underwater maneuvering and manipulation.

SCIENCE ROBOTICS (2021)

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Article Robotics

Micrometer-sized electrically programmable shape-memory actuators for low-power microrobotics

Qingkun Liu et al.

Summary: This new class of micrometer-scale shape-memory actuators function through the electrochemical oxidation/reduction of a platinum surface, allowing for bending with the smallest radius of curvature, fast operation (<100 milliseconds), and operation within the electrochemical window of water to avoid bubble generation. These actuators have the potential to be used in adaptive microscale structures, bio-implantable devices, and microscopic robots.

SCIENCE ROBOTICS (2021)

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Article Robotics

Self-powered locomotion of a hydrogel water strider

Hong Zhu et al.

Summary: Hydrogels are exciting materials for robotics, with studies focusing on active hydrogels capable of autonomous locomotion on water for up to 3.5 hours. These active hydrogels are composed of hydrophobic and hydrophilic groups, achieving controlled movement on water through dynamic wetting processes and surface tension manipulation.

SCIENCE ROBOTICS (2021)

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Article Robotics

Grasping with kirigami shells

Yi Yang et al.

Summary: This article introduces a soft gripper based on kirigami design, which determines the cutting pattern by evaluating the mechanics and geometry of the shell, achieving precise and rapid grasping, while also being scalable and material independent in design.

SCIENCE ROBOTICS (2021)

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Article Engineering, Manufacturing

Integrating digital light processing with direct ink writing for hybrid 3D printing of functional structures and devices

Xirui Peng et al.

Summary: This study introduces a hybrid multi-material 3D printing system that combines DLP printing and DIW printing technologies to fabricate composite structures and unique devices in a single printing job. The system allows for the use of a variety of inks and resins to print functional composites, providing a new printing solution for applications in soft robotics, electronics, active metamaterials, and biomedical devices.

ADDITIVE MANUFACTURING (2021)

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Article Nanoscience & Nanotechnology

Temperature-Responsive Multistable Metamaterials

Lucia M. Korpas et al.

Summary: This study integrates liquid crystal elastomers (LCEs) with multistable structures to enable autonomous reconfiguration in response to changes in temperature, demonstrating the temperature-induced propagation of transition waves.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

A Stair-Building Strategy for Tailoring Mechanical Behavior of Re-Customizable Metamaterials

Xin Lin et al.

Summary: The study introduces a stair-building strategy for customizing and re-customizing the target mechanical behavior of mechanical metamaterials by stacking the loading curves of bistable units, proving its mechanical feasibility and proposing simple design schemes that are validated through experiments and finite element simulations.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Tailored Mechanical Metamaterials with Programmable Quasi-Zero-Stiffness Features for Full-Band Vibration Isolation

Quan Zhang et al.

Summary: A new design strategy for a programmable quasi-zero-stiffness (QZS) mechanical metamaterial is proposed in this research, which can achieve tailored stair-stepping force-displacement curves with multiple QZS working ranges and ultra-low frequency vibration isolation capability. The mechanism solely depends on the structural geometry of curved beams and is materials-independent, opening up a new avenue for innovating compact and scalable QZS isolators.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

3D Transformable Modular Kirigami Based Programmable Metamaterials

Yanbin Li et al.

Summary: The study introduces 3D modular kirigami by cutting bulk materials into spatially closed-loop connected cut cubes to create a new class of 3D kirigami metamaterials, expanding the design space from 2D to 3D with diverse structures and unique properties.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Bistable Structures for Advanced Functional Systems

Yunteng Cao et al.

Summary: Bistable mechanical systems with two local minima of potential energy can stay in stable equilibrium states without external loadings and are widely used for designing advanced functional systems.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Thermomechanically Triggered Reversible Multi-Transformability of a Single Material System by Energy Swapping and Shape Memory Effects

Chao Song et al.

Summary: A thermomechanical tool has been developed to allow a single material system to undergo reversible, multi-modal, and asymmetric deformations, demonstrating the potential for reconfigurability in active metamaterials.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Materials with Electroprogrammable Stiffness

David J. Levine et al.

Summary: The emergence of novel materials with programmable stiffness has significantly improved the performance and simplified the design of engineering systems, with natural compatibility with electrical sensing, control, and power networks in autonomous machines and robots. The rapid increase in publications in this field is driven by various applications, with current approaches categorized as using electrostatics or electrically activated phase changes, each having its own advantages and limitations, and wide applications.

ADVANCED MATERIALS (2021)

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Article Materials Science, Composites

Micro-CT based trans-scale damage analysis of 3D braided composites with pore defects

Lei Ge et al.

Summary: Researchers have developed a trans-scale method coupled with Micro-CT to investigate the strength and damage behavior of 3D braided composites with pore defects. The finite element models established on Micro-CT data accurately predict the stress-strain response and failure modes of the composites. The study also shows the diverse influences of interface properties on yarns and braided composites under different loading conditions.

COMPOSITES SCIENCE AND TECHNOLOGY (2021)

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Article Materials Science, Multidisciplinary

Customized broadband pentamode metamaterials by topology optimization

Hao-Wen Dong et al.

Summary: The study introduces a unified inverse strategy for systematically designing and exploring novel PM microstructures through bottom-up topology optimization for manipulating elastic waves and underwater acoustic waves. By extracting beneficial topological features and establishing a dedicated inverse-design strategy, the research advances the practical realization of broadband PMs and underwater pentamode devices with rigorously tailored effective parameters, bringing PM-based technology closer to practical applications.

JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2021)

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Structured fabrics with tunable mechanical properties

Yifan Wang et al.

Summary: The study presents a structured fabric with tunable bending modulus made up of three-dimensional particles arranged into layered chain mails. When pressure is applied at their boundaries, the particles interlock and jam the chain mails, resulting in a dramatic increase in bending resistance. This property is due to the high tensile resistance of the interlocking particles, providing potential for lightweight, tunable and adaptive fabrics for various applications.

NATURE (2021)

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Article Chemistry, Physical

Kirigami-inspired stents for sustained local delivery of therapeutics

Sahab Babaee et al.

Summary: The study introduces a kirigami-based stent platform for extended local drug delivery to tubular organs such as the gastrointestinal tract, respiratory tract, and vasculature.

NATURE MATERIALS (2021)

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Article Multidisciplinary Sciences

Programming nonreciprocity and reversibility in multistable mechanical metamaterials

Gabriele Librandi et al.

Summary: Nonreciprocity and reversibility can be independently programmed in a mechanical metamaterial comprising a 1D array of bistable arches, allowing for multiple signal transmissions. By connecting shallow arches with symmetric energy wells and alternating arches with symmetric and asymmetric energy landscapes, different transition waves can propagate in opposite directions. The effects of asymmetry on propagation of transition waves at both structural and element levels are examined in this study.

NATURE COMMUNICATIONS (2021)

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Article Materials Science, Multidisciplinary

Hydrogel-driven origami metamaterials for tunable swelling behavior

Zihao Chen et al.

Summary: This research explores the design of origami metamaterials with active deformation using hydrogels, allowing for customizable swelling behaviors through adjusting the opening direction of circular holes. The materials were qualitatively and quantitatively characterized using a multi-material 3D printer, demonstrating significant tunable swelling behaviors. The findings suggest promising potential for applications in reconfigurable and programmable devices at both macro and micro scales in bioelectronics and biological tissue engineering.

MATERIALS & DESIGN (2021)

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Article Engineering, Mechanical

Self-adaptive acoustic cloak enabled by soft mechanical metamaterials

Yahui Xue et al.

Summary: By deforming a soft mechanical metamaterial with a Poisson's ratio of -1, an underwater acoustic cloak can be automatically achieved, fulfilling the requirement of quasi-conformal mapping for cloak design. This self-adaptive acoustic cloak exhibits a wide frequency and angular bandwidth, providing a convenient avenue for designing various types of acoustic metamaterials.

EXTREME MECHANICS LETTERS (2021)

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Article Automation & Control Systems

Soft Origami Gripper with Variable Effective Length

Bohan Chen et al.

Summary: This research introduces a soft origami actuator and adaptive gripper design that can adapt to different shapes and textures of objects, demonstrating excellent grasping performance.

ADVANCED INTELLIGENT SYSTEMS (2021)

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Article Chemistry, Multidisciplinary

Tuning the reversibility of hair artificial muscles by disulfide cross-linking for sensors, switches, and soft robotics†

Xueqi Leng et al.

Summary: In this study, novel tether-free hygroresponsive tensile and torsional fiber artificial muscles were prepared using disulfide cross-linking, showing different types of actuations and achieving high energy density when exposed to water fog.

MATERIALS HORIZONS (2021)

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Article Chemistry, Multidisciplinary

Lightweight Self-Forming Super-Elastic Mechanical Metamaterials with Adaptive Stiffness

Rui Wu et al.

Summary: The introduction of a macroscopic cellular structure comprising two pre-stressed elastic phases with load-sensitive stiffness that drops upon pseudoductile transformation and fully recoverable compression capability. By utilizing thermal-shrinkage for pre-stressing and heat-activated self-formation, along with a method for generating single-crystal or poly-crystal-like 3D lattices with anisotropic or isotropic super-elasticity, this metamaterial exhibits lightweight characteristics and high deformability.

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Article Instruments & Instrumentation

Novel multidirectional negative stiffness mechanical metamaterials

Xiaojun Tan et al.

SMART MATERIALS AND STRUCTURES (2020)

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Programmable Hierarchical Kirigami

Ning An et al.

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Mechano-acoustic sensing of physiological processes and body motions via a soft wireless device placed at the suprasternal notch

KunHyuck Lee et al.

NATURE BIOMEDICAL ENGINEERING (2020)

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Customized Kirigami Electrodes for Flexible and Deformable Lithium-Ion Batteries

Yinhua Bao et al.

ACS APPLIED MATERIALS & INTERFACES (2020)

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Active Reconfigurable Tristable Square-Twist Origami

Li-Chen Wang et al.

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Magnetic Shape Memory Polymers with Integrated Multifunctional Shape Manipulation

Qiji Ze et al.

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Inverse Design Strategies for 3D Surfaces Formed by Mechanically Guided Assembly

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Frequency-selective-surface based sandwich structure for both effective loadbearing and customizable microwave absorption

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Guided transition waves in multistable mechanical metamaterials

Lishuai Jin et al.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2020)

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A highly scalable dielectric metamaterial with superior capacitor performance over a broad temperature

Tian Zhang et al.

SCIENCE ADVANCES (2020)

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Soft Crawling Robots: Design, Actuation, and Locomotion

Shoue Chen et al.

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An organosynthetic dynamic heart model with enhanced biomimicry guided by cardiac diffusion tensor imaging

Clara Park et al.

SCIENCE ROBOTICS (2020)

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Autonomic perspiration in 3D-printed hydrogel actuators

Anand K. Mishra et al.

SCIENCE ROBOTICS (2020)

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Rapid Volatilization Induced Mechanically Robust Shape-Morphing Structures toward 4D Printing

Qiang Zhang et al.

ACS APPLIED MATERIALS & INTERFACES (2020)

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Article Nanoscience & Nanotechnology

Design of 3D Printed Programmable Horseshoe Lattice Structures Based on a Phase-Evolution Model

Dong Wang et al.

ACS APPLIED MATERIALS & INTERFACES (2020)

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Article Chemistry, Multidisciplinary

Kirigami-Design-Enabled Hydrogel Multimorphs with Application as a Multistate Switch

Xing Peng Hao et al.

ADVANCED MATERIALS (2020)

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A multifunctional skin-like sensor based on a 3D printed thermo-responsive hydrogel

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Cooperative deformations of periodically patterned hydrogels

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Origami by frontal photopolymerization

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Direct 4D printing via active composite materials

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The mechanics and design of a lightweight three-dimensional graphene assembly

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Reversible patterning of spherical shells through constrained buckling

J. Marthelot et al.

PHYSICAL REVIEW MATERIALS (2017)

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Spatial Control of Functional Response in 4D-Printed Active Metallic Structures

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SCIENTIFIC REPORTS (2017)

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Programmable Deployment of Tensegrity Structures by Stimulus-Responsive Polymers

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ACS APPLIED MATERIALS & INTERFACES (2017)

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Bioinspired Programmable Polymer Gel Controlled by Swellable Guest Medium

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ACS APPLIED MATERIALS & INTERFACES (2017)

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Surface Patterning of Hydrogels for Programmable and Complex Shape Deformations by Ion Inkjet Printing

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ADVANCED FUNCTIONAL MATERIALS (2017)

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Review Mechanics

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Origami Metamaterials for Tunable Thermal Expansion

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ADVANCED MATERIALS (2017)

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Origami and kirigami inspired self-folding for programming three-dimensional shape shifting of polymer sheets with light

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EXTREME MECHANICS LETTERS (2017)

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Isotropic Negative Thermal Expansion Metamaterials

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Actuating Soft Matter with Magnetic Torque

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ADVANCED FUNCTIONAL MATERIALS (2016)

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Tough Hydrogels with Programmable and Complex Shape Deformations by Ion Dip-Dyeing and Transfer Printing

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ADVANCED FUNCTIONAL MATERIALS (2016)

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Controlled Mechanical Buckling for Origami-Inspired Construction of 3D Microstructures in Advanced Materials

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Harnessing Buckling to Design Architected Materials that Exhibit Effective Negative Swelling

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Selective and directional actuation of elastomer films using chained magnetic nanoparticles

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Pentamodal property and acoustic band gaps of pentamode metamaterials with different cross-section shapes

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PHYSICS LETTERS A (2016)

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Modeling Mismatch Strain Induced Self-Folding of Bilayer Gel Structures

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INTERNATIONAL JOURNAL OF APPLIED MECHANICS (2016)

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Reconfigurable origami-inspired acoustic waveguides

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Bistable auxetic mechanical metamaterials inspired by ancient geometric motifs

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EXTREME MECHANICS LETTERS (2016)

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Topology Optimized Architectures with Programmable Poisson's Ratio over Large Deformations

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Controlled In Vivo Swimming of a Swarm of Bacteria-Like Microrobotic Flagella

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Discontinuous Buckling of Wide Beams and Metabeams

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PHYSICAL REVIEW LETTERS (2015)

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Hydrogel-laden paper scaffold system for origami-based tissue engineering

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PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2015)

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Fluidic origami: a plant-inspired adaptive structure with shape morphing and stiffness tuning

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Harnessing Multiple Folding Mechanisms in Soft Periodic Structures for Tunable Control of Elastic Waves

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Flytrap-inspired robot using structurally integrated actuation based on bistability and a developable surface

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PHYSICAL REVIEW LETTERS (2014)

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NATURE COMMUNICATIONS (2014)

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Sodium dodecyl sulfate/epoxy composite: water-induced shape memory effect and its mechanism

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PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2013)

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Reversible patterning and actuation of hydrogels by electrically assisted ionoprinting

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NATURE COMMUNICATIONS (2013)

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Controlled Origami Folding of Hydrogel Bilayers with Sustained Reversibility for Robust Microcarriers

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ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2012)

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On the practicability of pentamode mechanical metamaterials

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APPLIED PHYSICS LETTERS (2012)

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Phonon band structures of three-dimensional pentamode metamaterials

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Programming magnetic anisotropy in polymeric microactuators

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NATURE MATERIALS (2011)

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Growth, geometry, and mechanics of a blooming lily

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Virtual Surface Characteristics of a Tactile Display Using Magneto-Rheological Fluids

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Composite chiral structures for morphing airfoils: Numerical analyses and development of a manufacturing process

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COMPOSITES PART B-ENGINEERING (2010)

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Elastic constants of 3-, 4-and 6-connected chiral and anti-chiral honeycombs subject to uniaxial in-plane loading

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Photolithographically patterned smart hydrogel based bilayer actuators

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POLYMER (2010)

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Alginate beads containing pH-sensitive liposomes and glucose oxidase: glucose-sensitive release

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COLLOID AND POLYMER SCIENCE (2009)

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Tailorable thermal expansion hybrid structures

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INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES (2009)

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Magnetostrictive effect of magnetorheological elastomer

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JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS (2008)

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Finite deformation thermo-mechanical behavior of thermally induced shape memory polymers

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JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2008)

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PHYSICAL REVIEW LETTERS (2008)

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Acoustic cloaking theory

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PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES (2008)

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A smart supramolecular hydrogel exhibiting pH-modulated viscoelastic properties

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Internal organizational measurement for control of magnetorheological fluid properties

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JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME (2007)

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MATERIALS TODAY (2007)

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Mechanical behavior of mismatch strain-driven microcantilever

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MICROELECTRONICS JOURNAL (2007)

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Polymers move in response to light

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Failure surfaces for finitely strained two-phase periodic solids under general in-plane loading

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JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME (2006)

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Thermomechanics of shape memory polymers: Uniaxial experiments and constitutive modeling

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INTERNATIONAL JOURNAL OF PLASTICITY (2006)

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Design and application of self-assembled low molecular weight hydrogels

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Sensitivity gains in chemosensing by lasing action in organic polymers

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