Download PDF Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008)

Free download. Book file PDF easily for everyone and every device. You can download and read online Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008) file PDF Book only if you are registered here. And also you can download or read online all Book PDF file that related with Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008) book. Happy reading Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008) Bookeveryone. Download file Free Book PDF Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008) at Complete PDF Library. This Book have some digital formats such us :paperbook, ebook, kindle, epub, fb2 and another formats. Here is The CompletePDF Book Library. It's free to register here to get Book file PDF Self-Assembly and Nanotechnology: Force Balance Approach (Wiley 2008) Pocket Guide.

Guler, Ayse B. Laminin mimetic peptide nanofibers regenerate acute muscle defect. Acta Biomaterialia , 60 , McClanahan, Daryl J. Murry, Martin Conda-Sheridan. Macromolecular Bioscience , 17 8 , Peptide amphiphile self-assembly. EPL Europhysics Letters , 3 , Yun Qian, John B. Gasotransmitter delivery via self-assembling peptides: Treating diseases with natural signaling gases. Self-assembly behaviors of molecular designer functional RADAI peptides: influence of motifs, pH, and assembly time. Biomedical Materials , 12 1 , Chemistry - A European Journal , 23 6 , Grant M.

Gonzalez, Luke A. MacQueen, Johan U. Lind, Stacey A. Fitzgibbons, Christophe O. Chantre, Isabelle Huggler, Holly M. Golecki, Josue A. Goss, Kevin Kit Parker. Macromolecular Materials and Engineering , 1 , Rania S. Seoudi, Adam Mechler. Rudra, S. Kelly, J. S Tu, H. D Nguyen. A simply triggered peptide-based hydrogel as an injectable nanocarrier of tanshinone IIA and tanshinones.

Chemical Communications , 53 3 , Bioactive peptide functionalized aligned cyclodextrin nanofibers for neurite outgrowth. Journal of Materials Chemistry B , 5 3 , Nicole M. Cutrone, Jessica R. Dorilio, Sara K. Hurley, Harrison T. Pajovich, Andrew M. Smith, Ipsita A. New Journal of Chemistry , 41 15 , Rolando F. Rengifo, Noel X.

Li, Anthony Sementilli, David G. Amyloid scaffolds as alternative chlorosomes. Tang, Sharon M. Molecular simulations of peptide amphiphiles. Investigation on the self-assembled behaviors of C 18 unsaturated fatty acids in arginine aqueous solution. RSC Advances , 7 66 , Coarse-grained molecular dynamics studies of the structure and stability of peptide-based drug amphiphile filaments. Soft Matter , 13 42 , Conformation and self-assembly changes of isomeric peptide amphiphiles influenced by switching tyrosine in the sequences. Journal of Materials Chemistry B , 5 26 , Kalkena Sivanesam, Brandon L.

Kier, Samuel D. Whedon, Champak Chatterjee, Niels H. Hairpin structure stability plays a role in the activity of two antimicrobial peptides. FEBS Letters , 24 , Colloids and Surfaces B: Biointerfaces , , Chemistry - A European Journal , 22 43 , Self-assembled peptide nanostructures for functional materials.

Nanotechnology , 27 40 , In vitro blood—brain barrier models for drug research: state-of-the-art and new perspectives on reconstituting these models on artificial basement membrane platforms. Drug Discovery Today , 21 9 , Beth A. Lindborg, John H. Brekke, Amanda L. Vegoe, Connor B. Ulrich, Kerri T. Haider, Sandhya Subramaniam, Scott L. Venhuizen, Cindy R. Eide, Paul J. Scott, Efrosini Kokkoli, Susan A. Keirstead, James R. Dutton, Jakub Tolar, Timothy D.

Angewandte Chemie , 25 , Angewandte Chemie International Edition , 55 25 , Ricardo M. Lee, E. Meijer, Samuel I. Super-resolution microscopy reveals structural diversity in molecular exchange among peptide amphiphile nanofibres. Nature Communications , 7 , Christian Bortolini, Mingdong Dong. Cystine oligomers successfully attached to peptide cysteine-rich fibrils. Frontiers of Chemical Science and Engineering , 10 1 , Lu, Hai Xu. Journal of Colloid and Interface Science , , Electrospun Poly lactide-co-glycolide-co-3 S -methyl-morpholine-2,5-dione Nanofibrous Scaffolds for Tissue Engineering.

Polymers , 8 2 , Jeanette M. Keratin: Functional Biomaterials. Luis M. Chemical Society Reviews , 45 17 , RSC Advances , 6 11 , Driver, Hee-Seung Lee. Unambiguous characterization of anisotropic foldamer packing in a foldecture with an elongated hexagonal plate shape. Chemical Communications , 52 30 , Probing the self-assembly and stability of oligohistidine based rod-like micelles by aggregation induced luminescence. Murphy, T. Borase, C. Payne, J. O'Dwyer, S. Cryan, A. Hydrogels from amphiphilic star block copolypeptides. RSC Advances , 6 28 , Tripeptide consisting of benzyl protected di-cysteine and phenylalanine forms spherical assembly and induces cytotoxicity in cancer cells via apoptosis.

RSC Advances , 6 , Fibers , 3 4 , Guler, Charlotte A. Hauser, Anna Mitraki. Advanced Healthcare Materials , 4 16 , Modulating peptide amphiphile morphology by gold nanocolloids. Chemistry Letters , 44 8 , Zhehao Huang, Shunai Che. The Chemical Record , 15 4 , Journal of Pharmaceutical Sciences , 7 , Role of peptide self-assembly in antimicrobial peptides. Journal of Peptide Science , 21 7 , Scaffolds and cells for tissue regeneration: different scaffold pore sizes—different cell effects. Cytotechnology , DOI: Tracking morphologies at the nanoscale: Self-assembly of an amphiphilic designer peptide into a double helix superstructure.

Nano Research , 8 6 , Self-Assembly of Organic Molecules into Nanostructures. Journal of Biological Chemistry , 14 , Self-assembling peptide nanofiber hydrogels for central nervous system regeneration. Frontiers of Materials Science , 9 1 , Sharareh Eskandari, Rachel J. Apte, Denise L. Doolan, Istvan Toth. Chemistry - A European Journal , 21 3 , Nisbet, Colin J. Barrow, Richard J. Daniel Keith, Honggang Cui. Shi, Ming Zhang, Samuel I. Supramolecular assembly of multifunctional maspin-mimetic nanostructures as a potent peptide-based angiogenesis inhibitor.

Acta Biomaterialia , 12 , Effect of 1D twisted water chains confined in channels formed by a Gemini amphiphile on its crystal stability. CrystEngComm , 17 6 , A supramolecular topical gel derived from a non-steroidal anti-inflammatory drug, fenoprofen, is capable of treating skin inflammation in mice. The influence of amino acid sequence on structure and morphology of polydiacetylene containing peptide fibres.

Soft Matter , 11 7 , Aggregation behavior of a gemini surfactant with a tripeptide spacer. Soft Matter , 11 8 , Thermoplasmonic effect of silver nanoparticles modulates peptide amphiphile fiber into nanowreath-like assembly. Nanoscale , 7 47 , Self-assembled micelles of a multi-functional amphiphilic fusion MFAF peptide for targeted cancer therapy. Polymer Chemistry , 6 18 , Influence of side-chain interactions on the self-assembly of discotic tricarboxyamides: a crystallographic insight.

RSC Advances , 5 40 , Deniz Tekin. Molecular dynamics simulations of self-assembled peptide amphiphile based cylindrical nanofibers. RSC Advances , 5 82 , Loading and triggered release of cargo from hollow spherical gold nanoparticle superstructures. RSC Advances , 5 93 , Preparation and application of tubular assemblies based on amphiphilic tetramethoxyresorcinarenes. RSC Advances , 5 , Chemistry - A European Journal , 20 51 , Ryan J. Wade, Jason A. Advances in nanofibrous scaffolds for biomedical applications: From electrospinning to self-assembly.

Nano Today , 9 6 , Pathogens , 3 4 , Something between the amazing functions and various morphologies of self-assembling peptides materials in the medical field. Journal of Biomaterials Science, Polymer Edition , 25 13 , Microsheets assembled from pyridinium-tailored anthracenes. Tetrahedron , 70 37 , Effects of external force fields on peptide self-assembly and biomimetic silica synthesis. Applied Surface Science , , Influence of PEG length on conformational and binding properties of CCK peptides exposed by supramolecular aggregates.

Biopolymers , 4 , Self-assembling amphiphilic peptides. Journal of Peptide Science , 20 7 , Chemistry - A European Journal , 20 25 , Molecules , 19 6 , Julia H. Ortony, Christina J. Newcomb, John B. Matson, Liam C.

Services on Demand

Palmer, Peter E. Doan, Brian M. Hoffman, Samuel I. Internal dynamics of a supramolecular nanofibre. Nature Materials , 13 8 , Torri Rinker, Johnna Temenoff. Newcomb, Shantanu Sur, Julia H. Schatz, Samuel I. Cell death versus cell survival instructed by supramolecular cohesion of nanostructures.

Nature Communications , 5 DOI: Banani Kundu, Nicholas E. Engel, Vamsi K. Yadavalli, Subhas C. Silk proteins for biomedical applications: Bioengineering perspectives. Progress in Polymer Science , 39 2 , Chen Zhang, Chengyi Song, H. Christopher Fry, Nathaniel L. Chemistry - A European Journal , 20 4 , Chinese Journal of Chemistry , 32 1 , Castelletto, R. Gouveia, C. Connon, I.

Hamley, J. Seitsonen, A. Alanine-rich amphiphilic peptide containing the RGD cell adhesion motif: a coating material for human fibroblast attachment and culture. Xian Jun Loh, Jes? Supramolecular polymeric peptide amphiphile vesicles for the encapsulation of basic fibroblast growth factor.

Indrajit Maity, Tushar K. Mukherjee, Apurba K. New J. The self-assembly and secondary structure of peptide amphiphiles determine the membrane permeation activity. RSC Adv. Suvannasara, N. Praphairaksit, N. Self-assembly of mucoadhesive nanofibers. The position of hydrophobic residues tunes peptide self-assembly. Soft Matter , 10 31 , Controlled silica deposition on self-assembled peptide nanostructures via varying molecular structures of short amphiphilic peptides. Soft Matter , 10 38 , Cheetham, P. Zhang, Y. Lin, R.

Lin, H. Synthesis and self-assembly of a mikto-arm star dual drug amphiphile containing both paclitaxel and camptothecin. B , 2 42 , Engineering of biomimetic nanofibrous matrices for drug delivery and tissue engineering. B , 2 45 , Biomaterials Science , 2 3 , Chemical Communications , 50 23 , Ashkan Dehsorkhi, Ian W. Silica templating of a self-assembling peptide amphiphile that forms nanotapes. Soft Matter , 10 11 , Self-assembled peptide nanotubes as potential nanocarriers for drug delivery. RSC Advances , 4 48 , Ana C. Mendes, Erkan T. Baran, Rui L.

Reis, Helena S. Self-assembly in nature: using the principles of nature to create complex nanobiomaterials. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology , 5 6 , Byeongtaek Oh, Chi H Lee. Nanofiber for cardiovascular tissue engineering. Expert Opinion on Drug Delivery , 10 11 , Markegard, Brian K. Chu, Hung D. Advanced Healthcare Materials , 2 10 , Dong-Jin Lim, Sergey V. Antipenko, Jeremy B. Vines, Adinarayana Andukuri, Patrick T. Hwang, Nathan T. Hadley, Shibli M.

Rahman, John A. Corbett, Ho-Wook Jun. Macromolecular Bioscience , 13 10 , David A. Angewandte Chemie , 40 , Angewandte Chemie International Edition , 52 40 , Drews, Matthew Tirrell. Peptide contour length determines equilibrium secondary structure in protein-analogous micelles. Biopolymers , 99 9 , Molecular Gels for Tissue Engineering.

  1. Selling Art Without Galleries: Toward Making a Living from Your Art.
  2. Self-Assembly and Nanotechnology A Force Balance Approach.
  3. Fairchild-Republic A-10 & AO-10 Warthog.
  4. Services on Demand.

Matthew J. Webber, Eric J. Berns, Samuel I. Supramolecular Nanofibers of Peptide Amphiphiles for Medicine. Israel Journal of Chemistry , 53 8 , Shantanu Sur, Christina J.

Download Self-Assembly And Nanotechnology: Force Balance Approach (Wiley )

Newcomb, Matthew J. Webber, Samuel I. Tuning supramolecular mechanics to guide neuron development. Biomaterials , 34 20 , Erkal, Ayse B. Tekinay, Aykutlu Dana, Mustafa O. Advanced Functional Materials , 23 16 , Changmin Hu, Wenguo Cui. Microscopy of Biopolymer Systems. Saubhik Haldar, Sudipta.

Self-assembled monolayer

Use of the self-assembly of tyrosine-containing bolaamphiphile molecules as a reactive template for metal deposition. C2-symmetric cyclohexane-based hydrogels: A rational designed LMWG and its application in dye scavenging. Controlled biosilification using self-assembled short peptides A6K and V6K. RSC Advances , 3 8 , Chemical Communications , 49 58 , Chemical Communications , 49 74 , Gunjan Verma, P. Self assembled materials: design strategies and drug delivery perspectives.

Physical Chemistry Chemical Physics , 15 40 , Hiroshi Tsutsumi, Hisakazu Mihara. Soft materials based on designed self-assembling peptides: from design to application. Molecular BioSystems , 9 4 , Solution conformational features and interfacial properties of an intrinsically disordered peptide coupled to alkyl chains: a new class of peptide amphiphiles.

Molecular BioSystems , 9 6 , Daniel J. Self-assembled multivalent RGD-peptide arrays — morphological control and integrin binding. Morphology-controlled synthesis of silica materials templated by self-assembled short amphiphilic peptides. RSC Advances , 3 36 , Hamley, Jozef Adamcik, Raffaele Mezzenga.

The effect of pH on the self-assembly of a collagen derived peptide amphiphile. Soft Matter , 9 26 , Bulletin of the Chemical Society of Japan , 85 12 , Nanobiomaterials for Tissue Engineering. David R. Nisbet, Richard J. Biointerphases , 7 1 , 2. Sudipta Kumar Maji, Saubhik Haldar. Effect of peptide architecture on the self-assembly properties of tripeptide based anionic surfactants issued from two different peptide sequences: Ala-Ala-Val and Ala-Pro-Val in aqueous media pH 7.

Angewandte Chemie , 38 , Angewandte Chemie International Edition , 51 38 , Newcomb, Ronit Bitton, Yuri S. Velichko, Malcolm L. Snead, Samuel I. Small , 8 14 , Amphiphilic poly l-amino acids — New materials for drug delivery. Journal of Controlled Release , 2 , Development of tissue engineered vascular grafts and application of nanomedicine. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology , 4 3 , Newcomb, Elizabeth A. Appelt, Samuel I.

Self-assembling glucagon-like peptide 1-mimetic peptide amphiphiles for enhanced activity and proliferation of insulin-secreting cells. Acta Biomaterialia , 8 5 , Cell-adhesive hydrogels composed of peptide nanofibers responsive to biological ions. Polymer Journal , DOI: Injectable hydrogels for bone and cartilage repair. Biomedical Materials , 7 2 , Biofunctional Biomaterials of the Future.

Daniel M. Wood, Barnaby W.

Greenland, Aaron L. Murray, Christine J. Cardin, Juan F. Miravet, Beatriu Escuder, Ian W. Hamley, Wayne Hayes. Chemistry - A European Journal , 18 9 , Francesco Pampaloni, Andrea Masotti. Chemistry Letters , 41 1 , Vineetha Jayawarna, Rein V. Matson, Samuel I. Self-assembling peptide scaffolds for regenerative medicine. Lauren E. Buerkle, Horst A. Toward potential supramolecular tissue engineering scaffolds based on guanosine derivatives. Interfacial adsorption of cationic peptideamphiphiles: a combined study of in situspectroscopic ellipsometry and liquid AFM. Soft Matter , 8 3 , Murat Guvendiren, Hoang D.

Lu, Jason A. Shear-thinning hydrogels for biomedical applications. Soft Matter , 8 2 , Valeria Castelletto, Ian W. Modulating self-assembly of a nanotape-forming peptideamphiphile with an oppositely charged surfactant. Soft Matter , 8 1 , Chemical Communications , 48 1 , Chemical Science , 3 2 , Interfacial adsorption of cationic peptide amphiphiles: a combined study of in situ spectroscopic ellipsometry and liquid AFM.

Modulating self-assembly of a nanotape-forming peptide amphiphile with an oppositely charged surfactant. Lin, Katie A. Megley, Nickesh Viswanathan, Daniel V. Krogstad, Laurie B. Drews, Matthew J. Kade, Yichun Qian, Matthew V. Journal of Materials Chemistry , 22 37 , Se Hye Kim, Jon R. A model for the controlled assembly of semiconductor peptides. Nanoscale , 4 22 , Controlled peptide coated nanostructures via the self-assembly of functional peptide building blocks.

Polymer Chemistry , 3 9 , Matson, Christina J. Newcomb, Ronit Bitton, Samuel I. Nanostructure-templated control of drug release from peptide amphiphile nanofiber gels. Soft Matter , 8 13 , Hamley, Wayne Hayes, Juan F. Structural and morphological studies of the dipeptide based l-Pro-l-Val organocatalytic gels and their rheological behaviour.

Soft Matter , 8 34 , Dehsorkhi, V. Influence of a non-ionic amphiphilic copolymer on the self-assembly of a peptide amphiphile that forms nanotapes. Soft Matter , 8 33 , Fu, H. Rapid fabrication of biomimetic nanofiber-enabled skin grafts. Macromolecular Rapid Communications , 32 24 , Matson, R. Helen Zha, Samuel I. Peptide self-assembly for crafting functional biological materials. Chemistry - A European Journal , 17 46 , Fahimeh Shamsi, Hans G. Mimicking cell membrane-like structures on alkylated silicon surfaces by peptide amphiphiles.

Materials Chemistry and Physics , 3 , Rebecca L. Dahlin, F. Kurtis Kasper, Antonios G. Polymeric Nanofibers in Tissue Engineering. Tissue Engineering Part B: Reviews , 17 5 , Aaron M. Kushner, Zhibin Guan. Angewandte Chemie , 39 , Angewandte Chemie International Edition , 50 39 , Chemistry - An Asian Journal , 6 9 , Aysegul Altunbas, Seung J.

Lee, Sigrid A. Rajasekaran, Joel P. Schneider, Darrin J. Encapsulation of curcumin in self-assembling peptide hydrogels as injectable drug delivery vehicles. Biomaterials , 32 25 , Chemistry Letters , 40 7 , Yiyang Lin, Chuanbin Mao. Bio-inspired supramolecular self-assembly towards soft nanomaterials. Chemistry Letters , 40 2 , Dagang Liu, Peter R. Chang, Mindong Chen, Qinglin Wu. Chitosan colloidal suspension composed of mechanically disassembled nanofibers. Journal of Colloid and Interface Science , 2 , Rudra, J.

Self-Assembling Biomaterials. Cryo-electron tomography: 3-dimensional imaging of soft matter. Soft Matter , 7 1 , Yavuz S. Dagdas, Aysegul Tombuloglu, Ayse B. Interfiber interactions alter the stiffness of gels formed by supramolecular self-assembled nanofibers. Soft Matter , 7 7 , Self-assembly of amphiphilic peptides. Soft Matter , 7 9 , Self-assembly of a peptide amphiphile based on hydrolysed Bombyx mori silk fibroin.

Chemical Communications , 47 37 , Maaike van den Heuvel, H. Baptist, P. Venema, E. Mechanical and thermal stabilities of peptide amphiphile fibres. Soft Matter , 7 20 , Fluid mechanical shear induces structural transitions in assembly of a peptide—lipid conjugate. Soft Matter , 7 19 , Structural properties of soluble peptide amphiphile micelles. Lim, S. Antipenko, A. Andukuri, J. Corbett, H. Biological sensitivity to self-assembled nanomatrix platforms depends on the phenotype of MIN6 -cells. Angewandte Chemie , 51 , Angewandte Chemie International Edition , 49 51 , Brizard, Marc C.

Stuart, Rienk Eelkema, Jan H. Chemistry - A European Journal , 16 45 , Journal of Macromolecular Science, Part B , 50 1 , Adinarayana Andukuri, Will P. Minor, Meenakshi Kushwaha, Joel M. Anderson, Ho-Wook Jun. Effect of endothelium mimicking self-assembled nanomatrices on cell adhesion and spreading of human endothelial cells and smooth muscle cells. Nanomedicine: Nanotechnology, Biology and Medicine , 6 2 , Meenakshi Kushwaha, Joel M. Anderson, Charles A. Bosworth, Adinarayana Andukuri, William P. Minor, Jack R. Lancaster Jr. Anderson, Brigitta C. Brott, Ho-Wook Jun. A nitric oxide releasing, self assembled peptide amphiphile matrix that mimics native endothelium for coating implantable cardiovascular devices.

Biomaterials , 31 7 , Yusuke Ishihara, Shunsaku Kimura. Journal of Peptide Science , 16 2 , Honggang Cui, Matthew J. Self-assembly of peptide amphiphiles: From molecules to nanostructures to biomaterials. Biopolymers , 94 1 , Hauser, Shuguang Zhang, Jian R. Molecular self-assembly and applications of designer peptide amphiphiles. Chemical Society Reviews , 39 9 , Power struggles in peptide-amphiphile nanostructures.

Congqi Yan, Darrin J. Rheological properties of peptide-based hydrogels for biomedical and other applications. Molecularly tuned peptide assemblies at the liquid—solid interface studied by scanning tunneling microscopy. Physical Chemistry Chemical Physics , 12 37 , Dave J.

Adams, Paul D. Peptide conjugate hydrogelators. Soft Matter , 6 16 , Miravet, Daniel Hermida-Merino, Ian. Hamley, Christine J. Cardin, Wayne Hayes. Selective and highly efficient dye scavenging by a pH-responsive molecular hydrogelator. Chemical Communications , 46 42 , Fibrillar superstructure from extended nanotapes formed by a collagen-stimulating peptide. Chemical Communications , 46 48 , Self-assembled one-dimensional soft nanostructures. Soft Matter , 6 23 , PLoS Computational Biology , 5 9 , e Light-Triggered Bioactivity in Three Dimensions.

Angewandte Chemie , 32 , Angewandte Chemie International Edition , 48 32 , Osteoblastic differentiation of human bone marrow stromal cells in self-assembled BMP-2 receptor-binding peptide-amphiphiles. Biomaterials , 30 21 , Angewandte Chemie International Edition , 48 25 , A hybrid biomimetic scaffold composed of electrospun polycaprolactone nanofibers and self-assembled peptide amphiphile nanofibers.

Biofabrication , 1 2 , Angewandte Chemie , 14 , Angewandte Chemie International Edition , 48 14 , Acta Biomaterialia , 5 3 , Biodegradable poly ethylene glycol —peptide hydrogels with well-defined structure and properties for cell delivery. Biomaterials , 30 8 , Self-organization of dendrons with focal pyrene moiety and diacetylene-containing periphery. Macromolecular Research , 17 1 , Dynamic self-assembly of surfactant-like peptides A6K and A9K. Soft Matter , 5 20 , Ronald C. Elgersma, Maarten van Dijk, Annemarie C.

Dechesne, Cornelus F. Hennink, Dirk T. Rijkers, Rob M. This will let self-assembly thrive securely guarded from applicative competition. Complexity — declined through collective interactions of large sets of heterogeneous components, structures with fully three-dimensional architectures, and kinetically controlled systems — holds the promise to light up the road ahead.

The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. Arutinov, G. In-plane mode dynamics of capillary self-alignment. Langmuir 30, — Ball, P. Oxford: Oxford University Press.

Google Scholar. Bennett, C. B Stud. Bishop, K. Nanoscale forces and their uses in self-assembly. Small 5, — Cademartiri, L. Programmable self-assembly. Using shape for self-assembly. A Math. Chung, S. Guided and fluidic self-assembly of microstructures using railed microfluidic channels. Crane, N. Fluidic assembly at the microscale: progress and prospects.

Nanofluidics 14, — Dill, K. The protein-folding problem, 50 years on. Science , — Fialkowski, M. Principles and implementations of dissipative dynamic self-assembly. B , — Fukushima, T. Multichip-to-wafer three-dimensional integration technology using chip self-assembly with excimer lamp irradiation. IEEE Trans. Devices 59, — Gauthier, M. Robotic Micro-Assembly.

Gracias, D. Forming electrical networks in three dimensions by self-assembly. Self-assembly at the macroscopic scale. IEEE 96, — Grzelczak, M. Directed self-assembly of nanoparticles. ACS Nano 4, — Grzybowski, B. Self-assembly: from crystals to cells. Soft Matter 5, — Hogg, T.

Robust self-assembly using highly designable structures. Nanotechnology 10, Ismagilov, R. Autonomous movement and self-assembly. Israelachvili, J. Oxford: Academic press. Kokot, G. Emergence of reconfigurable wires and spinners via dynamic self-assembly. Lehn, J. Toward complex matter: supramolecular chemistry and self-organization. Leong, T. Three-dimensional fabrication at small size scales.

Small 6, — Macias, N. Mann, S. Life as a nanoscale phenomenon. Mao, C. Dissections: self-assembled aggregates that spontaneously reconfigure their structures when their environment changes. Marchetti, M. Hydrodynamics of soft active matter. Mastrangeli, M. Self-assembly from milli-to nanoscales: methods and applications.

  • Jewish Eating and Identity Through the Ages (Routledge Advances in Sociology).
  • Agricultural Biotechnology and Transatlantic Trade: Regulatory Barriers to GM Crops (Cabi Publishing).
  • Spin-Outs: Creating Businesses from University Intellectual Property;
  • Modeling self-assembly across scales: the unifying perspective of smart minimal particles. Micromachines 2, 82— Mattia, E. Supramolecular systems chemistry. Mermoud, G. Miyashita, S. Mechanical catalysis on the centimetre scale. Interface 12, Two-dimensional magnetic micro-module reconfigurations based on inter-modular interactions. Nicolis, G. Self-Organization in Nonequilibrium Systems.

    New York, NY: Wiley. Park, S. A first implementation of an automated reel-to-reel fluidic self-assembly machine. Weinheim 26, — Pross, A. Toward a general theory of evolution: extending Darwinian theory to inanimate matter. Rycenga, M. Template-assisted self-assembly: a versatile approach to complex micro-and nanostructures. Sacanna, S. Shaping colloids for self-assembly. Saitou, K. Conformational switching in self-assembling mechanical systems. Schneider, E. Life as a manifestation of the second law of thermodynamics.

    Shenoy, V. Self-folding thin-film materials: from nanopolyhedra to graphene origami. MRS Bull. Snezhko, A. Non-equilibrium magnetic colloidal dispersions at liquid—air interfaces: dynamic patterns, magnetic order and self-assembled swimmers. Matter 23, Soh, S. Dynamic self-assembly in ensembles of camphor boats. Swarming in shallow waters. DNA origami: a quantum leap for self-assembly of complex structures.