Smart polymers and nanocomposites for 3D and 4D printing

[1]  A. Yi,et al.  Development of an adjustable-focus ferrogel mirror , 2020 .

[2]  Multifunctional Materials , 2020 .

[3]  A. Yi,et al.  Fabrication of aspherical polymeric lenses using tunable ferrogel molds. , 2020, Applied optics.

[4]  Nancy R. Sottos,et al.  Grand challenges in the design and manufacture of vascular self-healing , 2020, Multifunctional Materials.

[5]  T. Guo,et al.  Effect of using ink containing polyacrylate and silicone surfactant on the inkjet printing of quantum dot films , 2020 .

[6]  Bin Gao,et al.  Recent Advances in 4D Bioprinting , 2020, Biotechnology journal.

[7]  Yue Zhao,et al.  4D Printing of Liquid Crystal Elastomer with Controllable Orientation Gradient. , 2019, ACS applied materials & interfaces.

[8]  Frédéric Demoly,et al.  Design for 4D printing: Modeling and computation of smart materials distributions , 2019, Materials & Design.

[9]  R. Yu,et al.  Self-Healing Polyurethane Elastomers Based on a Disulfide Bond by Digital Light Processing 3D Printing. , 2019, ACS macro letters.

[10]  Xiao-Dan Sun,et al.  3D Printing and Injectable Conductive Hydrogels for Tissue Engineering Application. , 2019, Tissue engineering. Part B, Reviews.

[11]  Abbas Z. Kouzani,et al.  Topology-Optimized 4D Printing of a Soft Actuator , 2019, Acta Mechanica Solida Sinica.

[12]  W. Xiang,et al.  Review on Recent Progress of All‐Inorganic Metal Halide Perovskites and Solar Cells , 2019, Advanced materials.

[13]  Mohd Javaid,et al.  4D printing applications in medical field: A brief review , 2019, Clinical Epidemiology and Global Health.

[14]  D. K. Cullen,et al.  Injectable and Conductive Granular Hydrogels for 3D Printing and Electroactive Tissue Support , 2019, Advanced science.

[15]  Chiara Daraio,et al.  Untethered soft robotic matter with passive control of shape morphing and propulsion , 2019, Science Robotics.

[16]  Jeong-Yun Sun,et al.  A mechanically enhanced electroactive hydrogel for 3D printing using a multileg long chain crosslinker , 2019, Smart Materials and Structures.

[17]  Frédéric Demoly,et al.  Design for 4D printing: A voxel-based modeling and simulation of smart materials , 2019, Materials & Design.

[18]  Roland K. Chen,et al.  No Such Thing as Trash: A 3D-Printable Polymer Composite Composed of Oil-Extracted Spent Coffee Grounds and Polylactic Acid with Enhanced Impact Toughness , 2019, ACS Sustainable Chemistry & Engineering.

[19]  Ananthakumar Ramadoss,et al.  A review on inkjet printing of nanoparticle inks for flexible electronics , 2019, Journal of Materials Chemistry C.

[20]  Xuan Zhou,et al.  Advanced 4D-bioprinting technologies for brain tissue modeling and study , 2019, International journal of smart and nano materials.

[21]  Yuan Siang Lui,et al.  4D printing and stimuli-responsive materials in biomedical aspects. , 2019, Acta biomaterialia.

[22]  Carmen M. González-Henríquez,et al.  Polymers for additive manufacturing and 4D-printing: Materials, methodologies, and biomedical applications , 2019, Progress in Polymer Science.

[23]  Thomas J. Wallin,et al.  Hierarchical chemomechanical encoding of multi-responsive hydrogel actuators via 3D printing , 2019, Journal of Materials Chemistry A.

[24]  Balasubramanian Kandasubramanian,et al.  Breakthrough in the printing tactics for stimuli-responsive materials: 4D printing , 2019, Chemical Engineering Journal.

[25]  Santhosh Kumar Karunakaran,et al.  Recent progress in inkjet-printed solar cells , 2019, Journal of Materials Chemistry A.

[26]  C. Yan,et al.  Four-dimensional printing of a novel acrylate-based shape memory polymer using digital light processing , 2019, Materials & Design.

[27]  Jheng-Wun Su,et al.  4D printing of polyurethane paint-based composites , 2019, International Journal of Smart and Nano Materials.

[28]  A. Yi,et al.  Fabrication of polymeric lenses using magnetic liquid molds , 2019, Applied Physics Letters.

[29]  Luquan Ren,et al.  Bioinspired fiber-regulated composite with tunable permanent shape and shape memory properties via 3d magnetic printing , 2019, Composites Part B: Engineering.

[30]  Sung-Hoon Ahn,et al.  Soft grasping mechanisms composed of shape memory polymer based self-bending units , 2019, Composites Part B: Engineering.

[31]  Gi Hoon Yang,et al.  4D Bioprinting: Technological Advances in Biofabrication. , 2019, Macromolecular bioscience.

[32]  Xiaotian Hu,et al.  Wearable Power Source: A Newfangled Feasibility for Perovskite Photovoltaics , 2019, ACS Energy Letters.

[33]  Xiaokeng Li,et al.  3D Printing of Multifunctional Hydrogels , 2019, Advanced Functional Materials.

[34]  Qi Ge,et al.  Modified commercial UV curable elastomers for passive 4D printing , 2019, International Journal of Smart and Nano Materials.

[35]  Zhizhou Zhang,et al.  Developments in 4D-printing: a review on current smart materials, technologies, and applications , 2019, International Journal of Smart and Nano Materials.

[36]  L. Ionov,et al.  Light‐Responsive Shape‐Changing Polymers , 2019, Advanced Optical Materials.

[37]  Lianqing Liu,et al.  Tip-assisted electrohydrodynamic jet printing for high-resolution microdroplet deposition , 2019, Materials & Design.

[38]  Yong‐Lai Zhang,et al.  Laser fabrication of graphene-based electrothermal actuators enabling predicable deformation. , 2019, Optics letters.

[39]  Li Ren,et al.  Progress in self-healing hydrogels assembled by host-guest interactions: preparation and biomedical applications. , 2019, Journal of materials chemistry. B.

[40]  Brenden M. Minei,et al.  Development of multifunctional nanocomposites with 3-D printing additive manufacturing and low graphene loading , 2019 .

[41]  Eduardo Barocio,et al.  Characterization of the Mechanical Properties of FFF Structures and Materials: A Review on the Experimental, Computational and Theoretical Approaches , 2019, Materials.

[42]  Zhuangjian Liu,et al.  Self-Healing Four-Dimensional Printing with an Ultraviolet Curable Double-Network Shape Memory Polymer System. , 2019, ACS applied materials & interfaces.

[43]  Abhay Gusain,et al.  Polymer Solar Cells—Interfacial Processes Related to Performance Issues , 2019, Front. Chem..

[44]  Suong V. Hoa,et al.  Development of composite springs using 4D printing method , 2019, Composite Structures.

[45]  Richard S. Trask,et al.  4D printing with robust thermoplastic polyurethane hydrogel-elastomer trilayers , 2019, Materials & Design.

[46]  D. Fang,et al.  A finite deformation theory of desolvation and swelling in partially photo-cross-linked polymer networks for 3D/4D printing applications. , 2019, Soft Matter.

[47]  Narutoshi Hibino,et al.  Dual-Gel 4D Printing of Bioinspired Tubes. , 2019, ACS applied materials & interfaces.

[48]  N. Pamme,et al.  Stereolithographic 3D printing of extrinsically self-healing composites , 2019, Scientific Reports.

[49]  Jiang Du,et al.  Triple-stimuli responsive shape memory effect of novel polyolefin elastomer/lauric acid/carbon black nanocomposites , 2019, Composites Science and Technology.

[50]  Fernando Fraternali,et al.  Multi-Material Additive Manufacturing of Sustainable Innovative Materials and Structures , 2019, Polymers.

[51]  Roland K. Chen,et al.  Investigation of a Magnetic Field-Assisted Digital-Light-Processing Stereolithography for Functionally Graded Materials , 2019, Procedia Manufacturing.

[52]  K. Maeda,et al.  Bio-Mimic Motion of 3D-Printed Gel Structures Dispersed with Magnetic Particles , 2019, Journal of The Electrochemical Society.

[53]  Qilong Zhao,et al.  Tunable shape memory polymer mold for multiple microarray replications , 2018 .

[54]  U. Lafont,et al.  Additive manufacturing — A review of 4D printing and future applications , 2018, Additive Manufacturing.

[55]  Kenneth J. Loh,et al.  Field responsive mechanical metamaterials , 2018, Science Advances.

[56]  Richard S. Trask,et al.  Responsive cellulose-hydrogel composite ink for 4D printing , 2018, Materials & Design.

[57]  Sepehr Nesaei,et al.  Micro additive manufacturing of glucose biosensors: A feasibility study. , 2018, Analytica chimica acta.

[58]  Martin L. Dunn,et al.  Advances in 4D Printing: Materials and Applications , 2018, Advanced Functional Materials.

[59]  E. Ferraris,et al.  HIGH RESOLUTION 3D PRINTING OF COLLAGEN , 2018 .

[60]  T. Chou,et al.  Shape memory behavior and recovery force of 4D printed laminated Miura-origami structures subjected to compressive loading , 2018, Composites Part B: Engineering.

[61]  Mukesh Doble,et al.  Additive manufacturing technologies: an overview of challenges and perspective of using electrospraying , 2018, Nanocomposites.

[62]  Pengfei Zhu,et al.  4D Printing of Complex Structures with a Fast Response Time to Magnetic Stimulus. , 2018, ACS applied materials & interfaces.

[63]  Shlomo Magdassi,et al.  Novel Materials for 3D Printing by Photopolymerization , 2018, Advanced materials.

[64]  Lei Li,et al.  Numerical and experimental study on multiphase printing of polymeric biconvex micro lenses , 2018, Journal of Micromechanics and Microengineering.

[65]  Daining Fang,et al.  Reversible shape change structures by grayscale pattern 4D printing , 2018, Multifunctional Materials.

[66]  Laiquan Li,et al.  Development of hybrid magnetorheological elastomers by 3D printing , 2018, Polymer.

[67]  S. Singamneni,et al.  Extrusion 3D Printing of Polybutyrate-Adipate-Terephthalate-Polymer Composites in the Pellet Form , 2018, Polymers.

[68]  Jianzhong Fu,et al.  Programmed Deformations of 3D‐Printed Tough Physical Hydrogels with High Response Speed and Large Output Force , 2018, Advanced Functional Materials.

[69]  Gianluca Percoco,et al.  Extrusion-Based 3D Printing of Microfluidic Devices for Chemical and Biomedical Applications: A Topical Review , 2018, Micromachines.

[70]  Jun Ni,et al.  Nature-inspired smart solar concentrators by 4D printing , 2018, Renewable Energy.

[71]  A. Bandyopadhyay,et al.  Additive manufacturing of multi-material structures , 2018, Materials Science and Engineering: R: Reports.

[72]  Hoejin Kim,et al.  3D printing of shape memory polymer (SMP)/carbon black (CB) nanocomposites with electro-responsive toughness enhancement , 2018, Materials Research Express.

[73]  Xiaoyu Zheng,et al.  Multi-material Additive Manufacturing of Metamaterials with Giant, Tailorable Negative Poisson’s Ratios , 2018, Scientific Reports.

[74]  W. Zhong,et al.  A UV-curable epoxy with “soft” segments for 3D-printable shape-memory materials , 2018, Journal of Materials Science.

[75]  Z KouzaniAbbas,et al.  Polyelectrolyte Soft Actuators: 3D Printed Chitosan and Cast Gelatin , 2018 .

[76]  G. Monkman,et al.  Printing of hybrid magneto active polymers with 6 degrees of freedom , 2018, Materials Today Communications.

[77]  Shawn A. Chester,et al.  Printing ferromagnetic domains for untethered fast-transforming soft materials , 2018, Nature.

[78]  Xin Lan,et al.  Shape memory behavior and recovery force of 4D printed textile functional composites , 2018 .

[79]  Amir Ameli,et al.  Functional Polymers and Nanocomposites for 3D Printing of Smart Structures and Devices. , 2018, ACS applied materials & interfaces.

[80]  Howon Lee,et al.  Soft Robotic Manipulation and Locomotion with a 3D Printed Electroactive Hydrogel. , 2018, ACS applied materials & interfaces.

[81]  Wei-Hsin Liao,et al.  Triple shape memory polymers by 4D printing , 2018 .

[82]  Suiyang Khoo,et al.  Pattern-driven 4D printing , 2018 .

[83]  Jian Ji,et al.  Combining 3D Printing with Electrospinning for Rapid Response and Enhanced Designability of Hydrogel Actuators , 2018 .

[84]  W. Świȩszkowski,et al.  3D Printing of Thermoresponsive Polyisocyanide (PIC) Hydrogels as Bioink and Fugitive Material for Tissue Engineering , 2018, Polymers.

[85]  I. Noh,et al.  Recent trends in bioinks for 3D printing , 2018, Biomaterials Research.

[86]  Marinella Levi,et al.  4D printed thermally activated self-healing and shape memory polycaprolactone-based polymers , 2018 .

[87]  Yanlin Song,et al.  Inkjet manipulated homogeneous large size perovskite grains for efficient and large-area perovskite solar cells , 2018 .

[88]  Jesse K. Placone,et al.  Recent Advances in Extrusion‐Based 3D Printing for Biomedical Applications , 2018, Advanced healthcare materials.

[89]  Kyung Hyun Choi,et al.  3D printing for soft robotics – a review , 2018, Science and technology of advanced materials.

[90]  G. Kang,et al.  Fabrication of tough epoxy with shape memory effects by UV-assisted direct-ink write printing. , 2018, Soft matter.

[91]  Sung-Hoon Ahn,et al.  Soft Tendril-Inspired Grippers: Shape Morphing of Programmable Polymer-Paper Bilayer Composites. , 2018, ACS applied materials & interfaces.

[92]  Yong Huang,et al.  Nanoclay-Based Self-Supporting Responsive Nanocomposite Hydrogels for Printing Applications. , 2018, ACS applied materials & interfaces.

[93]  J. Lewis,et al.  3D Printing of Liquid Crystal Elastomeric Actuators with Spatially Programed Nematic Order , 2018, Advanced materials.

[94]  Yiwei Weng,et al.  Design 3D Printing Cementitious Materials Via Fuller Thompson Theory and Marson-Percy Model , 2018, 3D Concrete Printing Technology.

[95]  N. A. Salvatierra,et al.  Development of 3D printed fibrillar collagen scaffold for tissue engineering , 2018, Biomedical microdevices.

[96]  Feng Zhou,et al.  3D printing of shape changing composites for constructing flexible paper-based photothermal bilayer actuators , 2018 .

[97]  Jiangtao Wu,et al.  3D Printing of Highly Stretchable, Shape-Memory, and Self-Healing Elastomer toward Novel 4D Printing. , 2018, ACS applied materials & interfaces.

[98]  D. Gracias,et al.  Multitemperature Responsive Self-Folding Soft Biomimetic Structures. , 2018, Macromolecular rapid communications.

[99]  Xingchen Yang,et al.  Collagen-alginate as bioink for three-dimensional (3D) cell printing based cartilage tissue engineering. , 2018, Materials science & engineering. C, Materials for biological applications.

[100]  Howon Lee,et al.  Micro 3D Printing of a Temperature-Responsive Hydrogel Using Projection Micro-Stereolithography , 2018, Scientific Reports.

[101]  Fernando Fraternali,et al.  On the recyclability of polyamide for sustainable composite structures in civil engineering , 2018 .

[102]  D. Lin,et al.  A review on additive manufacturing of polymer-fiber composites , 2017 .

[103]  D. Drummer,et al.  Selective laser sintering of polymer blends: Bulk properties and process behavior , 2017 .

[104]  Lang Xia,et al.  4D printing of polymeric materials for tissue and organ regeneration. , 2017, Materials today.

[105]  B. Nelson-Cheeseman,et al.  3D printed magnetic polymer composite transformers , 2017 .

[106]  Yonghee Lee,et al.  Self-folding Structural Design Using Multiscale Analysis on the Light-absorption Folding Behaviour of Polystyrene Sheet , 2017, Scientific Reports.

[107]  D. Shreiber,et al.  A thermoreversible, photocrosslinkable collagen bio-ink for free-form fabrication of scaffolds for regenerative medicine. , 2017, Technology.

[108]  Nuno Alves,et al.  Four-Dimensional Bioprinting As a New Era for Tissue Engineering and Regenerative Medicine , 2017, Front. Bioeng. Biotechnol..

[109]  Leonid Ionov,et al.  4D Biofabrication Using Shape‐Morphing Hydrogels , 2017, Advanced materials.

[110]  S. Magdassi,et al.  3D printing of responsive hydrogels for drug-delivery systems , 2017 .

[111]  Mohsen Akbari,et al.  An Advanced Multifunctional Hydrogel‐Based Dressing for Wound Monitoring and Drug Delivery , 2017, Advanced healthcare materials.

[112]  Ghislaine Vantomme,et al.  A Rewritable, Reprogrammable, Dual Light‐Responsive Polymer Actuator , 2017, Angewandte Chemie.

[113]  Rigoberto C. Advincula,et al.  3D Printing of Polymer Nanocomposites via Stereolithography , 2017 .

[114]  Jinsong Leng,et al.  Stimulus methods of multi-functional shape memory polymer nanocomposites: A review , 2017 .

[115]  Xiaodong Chen,et al.  3D Printed Photoresponsive Devices Based on Shape Memory Composites , 2017, Advanced materials.

[116]  Ali Sadeghi,et al.  Toward Self-Growing Soft Robots Inspired by Plant Roots and Based on Additive Manufacturing Technologies , 2017, Soft robotics.

[117]  Horst Fischer,et al.  GelMA-collagen blends enable drop-on-demand 3D printablility and promote angiogenesis , 2017, Biofabrication.

[118]  Dan Du,et al.  A 3D-Printed, Portable, Optical-Sensing Platform for Smartphones Capable of Detecting the Herbicide 2,4-Dichlorophenoxyacetic Acid. , 2017, Analytical chemistry.

[119]  Zeyun Xiao,et al.  2D and 3D-printing of self-healing gels: design and extrusion of self-rolling objects , 2017 .

[120]  Lorenzo Moroni,et al.  Towards 4D printed scaffolds for tissue engineering: exploiting 3D shape memory polymers to deliver time-controlled stimulus on cultured cells , 2017, Biofabrication.

[121]  V. V. Medvedev,et al.  Shape memory effect in 3D-printed scaffolds for self-fitting implants , 2017 .

[122]  B. Gozen,et al.  Manufacturing of smart composites with hyperelastic property gradients and shape memory using fused deposition , 2017 .

[123]  UV‐assisted three‐dimensional printing of polymer nanocomposites based on inorganic fillers , 2017 .

[124]  R. Mülhaupt,et al.  Polymers for 3D Printing and Customized Additive Manufacturing , 2017, Chemical reviews.

[125]  Robert J. Ono,et al.  Cross-linkable multi-stimuli responsive hydrogel inks for direct-write 3D printing , 2017 .

[126]  Quankang Wang,et al.  A multifunctional skin-like sensor based on a 3D printed thermo-responsive hydrogel , 2017 .

[127]  A. Bandyopadhyay,et al.  Additive manufacturing: scientific and technological challenges, market uptake and opportunities , 2017 .

[128]  Son Thai Ly,et al.  4D printing – fused deposition modeling printing with thermal-responsive shape memory polymers , 2017 .

[129]  Daining Fang,et al.  Desolvation Induced Origami of Photocurable Polymers by Digit Light Processing. , 2017, Macromolecular rapid communications.

[130]  E. García-Plaza,et al.  Additive manufacturing of PLA structures using fused deposition modelling: Effect of process parameters on mechanical properties and their optimal selection , 2017 .

[131]  Young-Jin Kim,et al.  Thermo-responsive polymers and their application as smart biomaterials. , 2017, Journal of materials chemistry. B.

[132]  T. Ware Photoinduced Shape Programming , 2017 .

[133]  Seeram Ramakrishna,et al.  Biomedical applications of additive manufacturing: Present and future , 2017 .

[134]  M. Becker,et al.  Tunable Shape Memory Polymers from α-Amino Acid-Based Poly(ester urea)s , 2017 .

[135]  S. Rimdusit,et al.  Multiple-shape memory polymers from benzoxazine–urethane copolymers , 2017 .

[136]  Fernando Fraternali,et al.  Dimensional accuracy analysis of coupled fused deposition modeling and vapour smoothing operations for biomedical applications , 2017 .

[137]  Sai Zhang,et al.  Collagen/heparin sulfate scaffolds fabricated by a 3D bioprinter improved mechanical properties and neurological function after spinal cord injury in rats. , 2017, Journal of biomedical materials research. Part A.

[138]  Maenghyo Cho,et al.  Self-folding structure using light-absorption of polystyrene sheet , 2017, Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[139]  Bharat Bhushan,et al.  An overview of additive manufacturing (3D printing) for microfabrication , 2017 .

[140]  Wai Yee Yeong,et al.  Additive manufacturing in unmanned aerial vehicles (UAVs): Challenges and potential , 2017 .

[141]  D. Fang,et al.  Origami by frontal photopolymerization , 2017, Science Advances.

[142]  M. Dunn,et al.  Direct 4D printing via active composite materials , 2017, Science Advances.

[143]  Jill Z. Manapat,et al.  High-Strength Stereolithographic 3D Printed Nanocomposites: Graphene Oxide Metastability. , 2017, ACS applied materials & interfaces.

[144]  Ying Liu,et al.  Sequential self-folding of polymer sheets , 2017, Science Advances.

[145]  W. Kern,et al.  Self-healing of densely crosslinked thermoset polymers—a critical review , 2017 .

[146]  E. Pei,et al.  4D printing: processability and measurement of recovery force in shape memory polymers , 2016, The International Journal of Advanced Manufacturing Technology.

[147]  Ryan M. Pearson,et al.  Structural Color for Additive Manufacturing: 3D-Printed Photonic Crystals from Block Copolymers. , 2017, ACS nano.

[148]  Xin Wang,et al.  3D printing of polymer matrix composites: A review and prospective , 2017 .

[149]  Ze Xian Low,et al.  Perspective on 3D printing of separation membranes and comparison to related unconventional fabrication techniques , 2017 .

[150]  Yen Wei,et al.  3D Printing of Aniline Tetramer-Grafted-Polyethylenimine and Pluronic F127 Composites for Electroactive Scaffolds. , 2017, Macromolecular rapid communications.

[151]  H. Du,et al.  Inkjet-printed optoelectronics. , 2017, Nanoscale.

[152]  Lin Li,et al.  A novel hybrid magnetorheological elastomer developed by 3D printing , 2017 .

[153]  Yanju Liu,et al.  Direct-Write Fabrication of 4D Active Shape-Changing Structures Based on a Shape Memory Polymer and Its Nanocomposite. , 2017, ACS applied materials & interfaces.

[154]  Wei Huang,et al.  Three-Dimensional Printing of Shape Memory Composites with Epoxy-Acrylate Hybrid Photopolymer. , 2017, ACS applied materials & interfaces.

[155]  Xiaoyong Tian,et al.  Modelling and characterisation for the responsive performance of CF/PLA and CF/PEEK smart materials fabricated by 4D printing , 2017 .

[156]  A. Muñoz-Bonilla,et al.  Magnetic Nanoparticles-Based Conducting Polymer Nanocomposites , 2017 .

[157]  G. Spinks,et al.  4D Printing of Reversible Shape Morphing Hydrogel Structures , 2017 .

[158]  Frank W. Liou,et al.  Aerospace applications of laser additive manufacturing , 2017 .

[159]  Shir Shapira,et al.  4D Printing of Shape Memory-Based Personalized Endoluminal Medical Devices. , 2017, Macromolecular rapid communications.

[160]  Basel Arafat,et al.  Fabricating a Shell-Core Delayed Release Tablet Using Dual FDM 3D Printing for Patient-Centred Therapy , 2016, Pharmaceutical Research.

[161]  WeegerOliver,et al.  Optimal Design and Manufacture of Active Rod Structures with Spatially Variable Materials , 2016 .

[162]  Ali Khademhosseini,et al.  4D bioprinting: the next-generation technology for biofabrication enabled by stimuli-responsive materials , 2016, Biofabrication.

[163]  Susanna Miettinen,et al.  UV Cross-Linkable Graphene/Poly(trimethylene Carbonate) Composites for 3D Printing of Electrically Conductive Scaffolds. , 2016, ACS applied materials & interfaces.

[164]  Sujit Das,et al.  Energy and emissions saving potential of additive manufacturing: the case of lightweight aircraft components , 2016 .

[165]  Zeyun Xiao,et al.  Three-Dimensional Printing of pH-Responsive and Functional Polymers on an Affordable Desktop Printer. , 2016, ACS applied materials & interfaces.

[166]  A. Marques,et al.  Multifunctional Material Systems: A state-of-the-art review , 2016 .

[167]  Feng Xu,et al.  4D Bioprinting for Biomedical Applications. , 2016, Trends in biotechnology.

[168]  George R. Whittell,et al.  4D fibrous materials: characterising the deployment of paper architectures , 2016 .

[169]  E. Saiz,et al.  Robocasting of Structural Ceramic Parts with Hydrogel Inks , 2016 .

[170]  Yanju Liu,et al.  Recent developments in shape memory polymer nanocomposites: Actuation methods and mechanisms , 2016 .

[171]  Amir Hosein Sakhaei,et al.  Multimaterial 4D Printing with Tailorable Shape Memory Polymers , 2016, Scientific Reports.

[172]  Rui Yang,et al.  Biomedical titanium alloys and their additive manufacturing , 2016, Rare Metals.

[173]  Philippe Dubois,et al.  Shape-memory polymers for multiple applications in the materials world , 2016 .

[174]  Martine Dubé,et al.  Three‐Dimensional Printing of Multifunctional Nanocomposites: Manufacturing Techniques and Applications , 2016, Advanced materials.

[175]  Rahul Panat,et al.  3-D Printed Adjustable Microelectrode Arrays for Electrochemical Sensing and Biosensing. , 2016, Sensors and actuators. B, Chemical.

[176]  Marinella Levi,et al.  UV-Assisted 3D Printing of Glass and Carbon Fiber-Reinforced Dual-Cure Polymer Composites , 2016, Materials.

[177]  Jill Z. Manapat,et al.  High performance polymer nanocomposites for additive manufacturing applications , 2016 .

[178]  M. Layani,et al.  3D Printing of Shape Memory Polymers for Flexible Electronic Devices , 2016, Advanced materials.

[179]  Martin Pumera,et al.  3D-printing technologies for electrochemical applications. , 2016, Chemical Society reviews.

[180]  Chao Yuan,et al.  3D Printed Reversible Shape Changing Components with Stimuli Responsive Materials , 2016, Scientific Reports.

[181]  A. Polman,et al.  Photovoltaic materials: Present efficiencies and future challenges , 2016, Science.

[182]  Chao Yuan,et al.  Multi-shape active composites by 3D printing of digital shape memory polymers , 2016, Scientific Reports.

[183]  Elisabetta A. Matsumoto,et al.  Biomimetic 4D printing. , 2016, Nature materials.

[184]  Yingwu Luo,et al.  Multi-shape memory polymers achieved by the spatio-assembly of 3D printable thermoplastic building blocks. , 2016, Soft matter.

[185]  R. Hayward,et al.  Reconfiguring Nanocomposite Liquid Crystal Polymer Films with Visible Light , 2016 .

[186]  Prashant K. Jain,et al.  Advances in nanocomposite materials for additive manufacturing , 2016 .

[187]  Xuemei Sun,et al.  Tunable Photothermal Actuators Based on a Pre-programmed Aligned Nanostructure. , 2016, Journal of the American Chemical Society.

[188]  P. Roth,et al.  Design of Thermoresponsive Polymers with Aqueous LCST, UCST, or Both: Modification of a Reactive Poly(2-vinyl-4,4-dimethylazlactone) Scaffold , 2016 .

[189]  M. Bogers,et al.  Additive manufacturing for consumer-centric business models: Implications for supply chains in consumer goods manufacturing , 2016 .

[190]  M. Meboldt,et al.  Combining Additive Manufacturing with Advanced Composites for Highly Integrated Robotic Structures , 2016 .

[191]  H. Akil,et al.  The Characteristics of the Smart Polymeras Temperature or pH-responsive Hydrogel , 2016 .

[192]  Yang Liu,et al.  A Graphene‐Based Bimorph Structure for Design of High Performance Photoactuators , 2015, Advanced materials.

[193]  Zulkifli Ahmad,et al.  Classification, processing and application of hydrogels: A review. , 2015, Materials science & engineering. C, Materials for biological applications.

[194]  Maenghyo Cho,et al.  Sequential Folding using Light-activated Polystyrene Sheet , 2015, Scientific Reports.

[195]  Randall M. Erb,et al.  Designing bioinspired composite reinforcement architectures via 3D magnetic printing , 2015, Nature Communications.

[196]  A. Studart,et al.  Multimaterial magnetically assisted 3D printing of composite materials , 2015, Nature Communications.

[197]  J. Fisher,et al.  Cell-Laden 3D Printed Scaffolds for Bone Tissue Engineering , 2015, Clinical Reviews in Bone and Mineral Metabolism.

[198]  U. Schubert,et al.  Shape memory polymers: Past, present and future developments , 2015 .

[199]  Ji Zhao,et al.  Influence of Layer Thickness and Raster Angle on the Mechanical Properties of 3D-Printed PEEK and a Comparative Mechanical Study between PEEK and ABS , 2015, Materials.

[200]  Amanda C. Engler,et al.  Dual-Responsive Hydrogels for Direct-Write 3D Printing , 2015 .

[201]  Kristina Shea,et al.  Optimization of Additively Manufactured Multi-Material Lattice Structures Using Generalized Optimality Criteria , 2015 .

[202]  Wei Zhu,et al.  3D‐Printed Artificial Microfish , 2015, Advanced materials.

[203]  Shoufeng Yang,et al.  Extrusion-based additive manufacturing of PEEK for biomedical applications , 2015 .

[204]  Wai Yee Yeong,et al.  Smart hydrogels for 3D bioprinting , 2015 .

[205]  Jonathan Edgar,et al.  “Additive Manufacturing Technologies: 3D Printing, Rapid Prototyping, and Direct Digital Manufacturing”, 2nd Edition , 2015 .

[206]  Michael C. McAlpine,et al.  3D Printed Programmable Release Capsules. , 2015, Nano letters.

[207]  Shannon E Bakarich,et al.  4D Printing with Mechanically Robust, Thermally Actuating Hydrogels. , 2015, Macromolecular rapid communications.

[208]  F. Piller,et al.  Economic implications of 3D printing: Market structure models in light of additive manufacturing revisited , 2015 .

[209]  K. S. Kumar,et al.  Synthesis, structure and tunable shape memory properties of polytriazoles: dual-trigger temperature and repeatable shape recovery , 2015 .

[210]  M. Mehrali,et al.  A review on powder-based additive manufacturing for tissue engineering: selective laser sintering and inkjet 3D printing , 2015, Science and technology of advanced materials.

[211]  Hod Lipson,et al.  Additive manufacturing for the food industry , 2015 .

[212]  SaariMatt,et al.  Fiber Encapsulation Additive Manufacturing: An Enabling Technology for 3D Printing of Electromechanical Devices and Robotic Components , 2015 .

[213]  Benjamin M Wu,et al.  Recent advances in 3D printing of biomaterials , 2015, Journal of Biological Engineering.

[214]  Omar Ahmed Mohamed,et al.  Optimization of fused deposition modeling process parameters: a review of current research and future prospects , 2015, Advances in Manufacturing.

[215]  A. Uriondo,et al.  The present and future of additive manufacturing in the aerospace sector: A review of important aspects , 2015 .

[216]  R. Ritchie,et al.  Bioinspired structural materials. , 2014, Nature Materials.

[217]  Enas M. Ahmed,et al.  Hydrogel: Preparation, characterization, and applications: A review , 2013, Journal of advanced research.

[218]  Patrick S. Grant,et al.  3D Printing of NiZn ferrite/ABS Magnetic Composites for Electromagnetic Devices , 2015 .

[219]  Martin L. Dunn,et al.  Controlled Sequential Shape Changing Components by 3D Printing of Shape Memory Polymer Multimaterials , 2015 .

[220]  Ian Gibson,et al.  Additive manufacturing technologies : 3D printing, rapid prototyping, and direct digital manufacturing , 2015 .

[221]  Ramesh Raskar,et al.  Active Printed Materials for Complex Self-Evolving Deformations , 2014, Scientific Reports.

[222]  Christopher B. Williams,et al.  Multiple-Material Topology Optimization of Compliant Mechanisms Created Via PolyJet Three-Dimensional Printing , 2014 .

[223]  Yoshihito Osada,et al.  Self-healing gels based on constitutional dynamic chemistry and their potential applications. , 2014, Chemical Society reviews.

[224]  Jianhua Zhang,et al.  3D-printed magnetic Fe3O4/MBG/PCL composite scaffolds with multifunctionality of bone regeneration, local anticancer drug delivery and hyperthermia. , 2014, Journal of materials chemistry. B.

[225]  Guha Manogharan,et al.  Making sense of 3-D printing: Creating a map of additive manufacturing products and services , 2014 .

[226]  V. Trappe,et al.  Co-nonsolvency of PNiPAM at the transition between solvation mechanisms. , 2014, Soft matter.

[227]  Martin L. Dunn,et al.  Active origami by 4D printing , 2014 .

[228]  Amit Kumar,et al.  Magnetic polymer nanocomposites for environmental and biomedical applications , 2014, Colloid and Polymer Science.

[229]  Pankaj Karande,et al.  Design and fabrication of human skin by three-dimensional bioprinting. , 2014, Tissue engineering. Part C, Methods.

[230]  J. Lewis,et al.  3D Bioprinting of Vascularized, Heterogeneous Cell‐Laden Tissue Constructs , 2014, Advanced materials.

[231]  Manfred Hofmann,et al.  3D Printing Gets a Boost and Opportunities with Polymer Materials. , 2014, ACS macro letters.

[232]  Qiuquan Guo,et al.  Initiator-integrated 3D printing enables the formation of complex metallic architectures. , 2014, ACS applied materials & interfaces.

[233]  Bethany C Gross,et al.  Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences. , 2014, Analytical chemistry.

[234]  Skylar Tibbits,et al.  4D Printing: Multi‐Material Shape Change , 2014 .

[235]  Brett Lyons,et al.  Additive Manufacturing in Aerospace; Examples and Research Outlook , 2014 .

[236]  Marc Alexa,et al.  Orthogonal slicing for additive manufacturing , 2013, Comput. Graph..

[237]  Qi Ge,et al.  Active materials by four-dimension printing , 2013 .

[238]  Sébastien Lecommandoux,et al.  Magnetic responsive polymer composite materials. , 2013, Chemical Society reviews.

[239]  Ying Yang,et al.  Self-healing polymeric materials. , 2013, Chemical Society reviews.

[240]  Martin L. Dunn,et al.  Mechanisms of triple-shape polymeric composites due to dual thermal transitions , 2013 .

[241]  S. Jana,et al.  Synthesis and Characterization of Shape-Memory Polyurethane–Polybenzoxazine Compounds , 2013 .

[242]  H. Meng,et al.  A review of stimuli-responsive shape memory polymer composites , 2013 .

[243]  Brian Mellor,et al.  Multiple material additive manufacturing – Part 1: a review , 2013 .

[244]  Yongxiang Luo,et al.  Hierarchical mesoporous bioactive glass/alginate composite scaffolds fabricated by three-dimensional plotting for bone tissue engineering , 2012, Biofabrication.

[245]  Eleonora Atzeni,et al.  Direct Metal Laser Sintering: an additive manufacturing technology ready to produce lightweight structural parts for robotic applications , 2013 .

[246]  R. Dehoff,et al.  Case Study: Additive Manufacturing of Aerospace Brackets , 2013 .

[247]  Peter Dubruel,et al.  A review of trends and limitations in hydrogel-rapid prototyping for tissue engineering. , 2012, Biomaterials.

[248]  Kaufui Wong,et al.  A Review of Additive Manufacturing , 2012 .

[249]  Steven A Herrera,et al.  The Stomatopod Dactyl Club: A Formidable Damage-Tolerant Biological Hammer , 2012, Science.

[250]  M. Amaral,et al.  Temperature and pH stimuli-responsive polymers and their applications in controlled and self- regulated drug delivery , 2012 .

[251]  B. Sopori Development of Thin Film Silicon Solar Cell Using Inkjet Printed Silicon and Other Inkjet Processes: Cooperative Research and Development Final Report, CRADA Number CRD-07-260 , 2012 .

[252]  M. Dickey,et al.  Self-folding of polymer sheets using local light absorption , 2012 .

[253]  André R Studart,et al.  Composites Reinforced in Three Dimensions by Using Low Magnetic Fields , 2012, Science.

[254]  W. Huang,et al.  Stimulus-responsive shape memory materials: A review , 2012 .

[255]  Arved C. Hübler,et al.  Printed Paper Photovoltaic Cells , 2011 .

[256]  T. Xie Recent advances in polymer shape memory , 2011 .

[257]  Tina E. Rardin,et al.  Printing Processes Used to Manufacture Photovoltaic Solar Cells , 2011 .

[258]  S. Rimdusit,et al.  Chemorheology and thermomechanical characteristics of benzoxazine‐urethane copolymers , 2011 .

[259]  L. Goldenberg,et al.  Efficient single-beam light manipulation of 3D microstructures in azobenzene-containing materials. , 2011, Optics express.

[260]  Yanju Liu,et al.  Shape-memory polymers and their composites: Stimulus methods and applications , 2011 .

[261]  S. Anandhan,et al.  Polymer Nanocomposites: From Synthesis to Applications , 2011 .

[262]  S. Raman,et al.  A design for the additive manufacture of functionally graded porous structures with tailored mechanical properties for biomedical applications , 2011 .

[263]  Andrew G. Gillies,et al.  Optically-and Thermally-responsive Programmable Materials Based on Carbon Nanotube-hydrogel Polymer Composites , 2022 .

[264]  L. Ionov,et al.  Self-folding all-polymer thermoresponsive microcapsules , 2011 .

[265]  S. Behrens Preparation of functional magnetic nanocomposites and hybrid materials: recent progress and future directions. , 2011, Nanoscale.

[266]  M Bohner,et al.  Structural and material approaches to bone tissue engineering in powder-based three-dimensional printing. , 2011, Acta biomaterialia.

[267]  Xiaofan Luo,et al.  A functionally graded shape memory polymer , 2011 .

[268]  Scott R White,et al.  Self‐Healing of Internal Damage in Synthetic Vascular Materials , 2010, Advanced materials.

[269]  Xiaofan Luo,et al.  Triple‐Shape Polymeric Composites (TSPCs) , 2010 .

[270]  F. Melchels,et al.  A review on stereolithography and its applications in biomedical engineering. , 2010, Biomaterials.

[271]  Jinlian Hu,et al.  A Brief Review of Stimulus-active Polymers Responsive to Thermal, Light, Magnetic, Electric, and Water/Solvent Stimuli , 2010 .

[272]  Wei Min Huang,et al.  Thermo-moisture responsive polyurethane shape-memory polymer and composites: a review , 2010 .

[273]  Jinlian Hu,et al.  A review of actively moving polymers in textile applications , 2010 .

[274]  T. Xie Tunable polymer multi-shape memory effect , 2010, Nature.

[275]  L. Lucia,et al.  Cellulose nanocrystals: chemistry, self-assembly, and applications. , 2010, Chemical reviews.

[276]  G. Jabbour,et al.  Inkjet Printing—Process and Its Applications , 2010, Advanced materials.

[277]  Jean-Pierre Kruth,et al.  Composites by rapid prototyping technology , 2010 .

[278]  E. Vasheghani-Farahani,et al.  THEORETICAL DESCRIPTION OF HYDROGEL SWELLING: A REVIEW , 2010 .

[279]  A. K. Sood,et al.  Parametric appraisal of mechanical property of fused deposition modelling processed parts , 2010 .

[280]  M. Urban,et al.  Recent advances and challenges in designing stimuli-responsive polymers , 2010 .

[281]  J. Lewis,et al.  Self‐Healing Materials with Interpenetrating Microvascular Networks , 2009 .

[282]  D. Broer,et al.  Printed artificial cilia from liquid-crystal network actuators modularly driven by light. , 2009, Nature materials.

[283]  David E. Goldberg,et al.  Design of microvascular flow networks using multi-objective genetic algorithms , 2008 .

[284]  Claudia N. Hoth,et al.  Printing highly efficient organic solar cells. , 2008, Nano letters.

[285]  Sheng Dai,et al.  pH-Responsive polymers: synthesis, properties and applications. , 2008, Soft matter.

[286]  R. Zhuo,et al.  Strategies to improve the response rate of thermosensitive hydrogels. , 2008, Soft matter.

[287]  Y. Yuan,et al.  Self healing in polymers and polymer composites. Concepts, realization and outlook: A review , 2008 .

[288]  Claudia N. Hoth,et al.  High Photovoltaic Performance of Inkjet Printed Polymer:Fullerene Blends , 2007 .

[289]  John A Rogers,et al.  High-resolution electrohydrodynamic jet printing. , 2007, Nature materials.

[290]  F. Klocke,et al.  Consolidation phenomena in laser and powder-bed based layered manufacturing , 2007 .

[291]  D. Schmaljohann Thermo- and pH-responsive polymers in drug delivery. , 2006, Advanced drug delivery reviews.

[292]  A. Schmidt Electromagnetic Activation of Shape Memory Polymer Networks Containing Magnetic Nanoparticles , 2006 .

[293]  Jian Zhang,et al.  Effect of core–shell composite particles on the sintering behavior and properties of nano-Al2O3/polystyrene composite prepared by SLS , 2006 .

[294]  E. Gil,et al.  Stimuli-reponsive polymers and their bioconjugates , 2004 .

[295]  L. Froyen,et al.  Binding Mechanisms in Selective Laser Sintering and Selective Laser Melting , 2004 .

[296]  T. Boland,et al.  Inkjet printing for high-throughput cell patterning. , 2004, Biomaterials.

[297]  Jack F Douglas,et al.  Frontal photopolymerization for microfluidic applications. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[298]  James P. Thomas,et al.  Mechanical design and performance of composite multifunctional materials , 2004 .

[299]  Ipsita Roy,et al.  Smart polymeric materials: emerging biochemical applications. , 2003, Chemistry & biology.

[300]  N. Venkata Reddy,et al.  Slicing procedures in layered manufacturing: a review , 2003 .

[301]  Henning Sirringhaus,et al.  Inkjet Printing of Functional Materials , 2003 .

[302]  Hongseok Choi,et al.  Digital Micromirror Device Based Microstereolithography for Micro Structures of Transparent Photopolymer and Nanocomposites , 2003 .

[303]  A. Ogale,et al.  Dual curing of carbon fiber reinforced photoresins for rapid prototyping , 2002 .

[304]  Patrick T. Mather,et al.  Chemically Cross-Linked Polycyclooctene: Synthesis, Characterization, and Shape Memory Behavior , 2002 .

[305]  Anna Gutowska,et al.  Lessons from nature: stimuli-responsive polymers and their biomedical applications. , 2002, Trends in biotechnology.

[306]  T. Aminabhavi,et al.  Stimulus-Responsive “Smart” Hydrogels as Novel Drug Delivery Systems , 2002, Drug development and industrial pharmacy.

[307]  Jerry Y. H. Fuh,et al.  Laser-induced materials and processes for rapid prototyping , 2001 .

[308]  Kinam Park,et al.  Environment-sensitive hydrogels for drug delivery. , 2001, Advanced drug delivery reviews.

[309]  K. Yao,et al.  Ph-Responsive Swelling Behavior of Collagen Complex Materials , 2000, Artificial cells, blood substitutes, and immobilization biotechnology.

[310]  B Mattiasson,et al.  'Smart' polymers and what they could do in biotechnology and medicine. , 1999, Trends in biotechnology.

[311]  Chi Wu,et al.  Globule-to-Coil Transition of a Single Homopolymer Chain in Solution , 1998 .