Soft material nanoarchitectonics at interfaces: molecular assembly, nanomaterial synthesis, and life control

Nanoarchitectonics would be a breakthrough paradigm for preparation of functional materials with soft material components from nanoscale units.

[1]  Masakazu Aono,et al.  Commentary: Nanoarchitectonics— Think about NANO again , 2015 .

[2]  Lihui Peng,et al.  Stem Cell Expansion and Fate Decision on Liquid Substrates Are Regulated by Self-Assembled Nanosheets. , 2018, ACS nano.

[3]  Katsuhiko Ariga,et al.  Dynamic nanoarchitectonics: Supramolecular polymorphism and differentiation, shape-shifter and hand-operating nanotechnology , 2018 .

[4]  Yuhei Miyauchi,et al.  Synthesis of a carbon nanobelt , 2017, Science.

[5]  Qiang Xu,et al.  Nanomaterials derived from metal–organic frameworks , 2018 .

[6]  J. Kikuchi,et al.  Synthesis and Characterization of a New Series of Binuclear Pd(II) Biscatecholato Complexes: Non-Innocent Ligand-Based Approach to a Wide Range of Variation in Near-Infrared Absorptions of Mixed-Valence Complexes , 2018, Bulletin of the Chemical Society of Japan.

[7]  S. Yin,et al.  Synthesis of Novel Layered Zinc Glycolate and Exchange of Ethylene Glycol with Manganese Acetate Complex , 2018, Bulletin of the Chemical Society of Japan.

[8]  Itaru Honma,et al.  Biocompatible Batteries—Materials and Chemistry, Fabrication, Applications, and Future Prospects , 2018 .

[9]  Katsuhiko Ariga,et al.  Template-assisted nano-patterning: from the submicron scale to the submolecular level. , 2004, Journal of nanoscience and nanotechnology.

[10]  Katsuhiko Ariga,et al.  Hierarchic Nanostructure for Auto‐Modulation of Material Release: Mesoporous Nanocompartment Films , 2009 .

[11]  Masahiro Irie,et al.  Photoswitchable Turn-on Mode Fluorescent Diarylethenes: Strategies for Controlling the Switching Response , 2017 .

[12]  Paul Haake,et al.  Equilibrium constants for association of guanidinium and ammonium ions with oxyanions: The effect of changing basicity of the oxyanion , 1977 .

[13]  Katsuhiko Ariga,et al.  Interfacial nanoarchitectonics: lateral and vertical, static and dynamic. , 2013, Langmuir : the ACS journal of surfaces and colloids.

[14]  Satoru Hiroto Innovative Synthesis and Functions of Curved π-Conjugated Molecules , 2018 .

[15]  Katsuhiko Ariga,et al.  Soft 2D nanoarchitectonics , 2018, NPG Asia Materials.

[16]  K. Ariga,et al.  Solid surface vs. liquid surface: nanoarchitectonics, molecular machines, and DNA origami. , 2017, Physical chemistry chemical physics : PCCP.

[17]  Katsuhiko Ariga,et al.  Challenges and breakthroughs in recent research on self-assembly , 2008, Science and technology of advanced materials.

[18]  Li Zhang,et al.  Chiral Nanoarchitectonics: Towards the Design, Self‐Assembly, and Function of Nanoscale Chiral Twists and Helices , 2016, Advanced materials.

[19]  P. Hammond,et al.  Engineering the Microfabrication of Layer‐by‐Layer Thin Films , 1998 .

[20]  T. Kunitake,et al.  Molecular Recognition at the Interface. Synthesis and Monolayer Property of Long-Chain Derivatives of Kemp’s Acid , 1990 .

[21]  I. Giaever,et al.  Substrate mechanics and cell spreading. , 1991, Experimental cell research.

[22]  T. Yonezawa,et al.  Microwave-Induced Plasma-In-Liquid Process for Nanoparticle Production , 2018, Bulletin of the Chemical Society of Japan.

[23]  Kazuo Takimiya,et al.  Thiophene-Fused Naphthalene Diimides: New Building Blocks for Electron Deficient π-Functional Materials , 2018 .

[24]  Katsuhiko Ariga,et al.  Theoretical Study of Intermolecular Interaction at the Lipid−Water Interface. 2. Analysis Based on the Poisson−Boltzmann Equation , 1997 .

[25]  Yusuke Yamauchi,et al.  Materials Nanoarchitectonics Using 2D Layered Materials: Recent Developments in the Intercalation Process. , 2018, Small.

[26]  Katsuhiko Ariga,et al.  Fullerene crystals with bimodal pore architectures consisting of macropores and mesopores. , 2013, Journal of the American Chemical Society.

[27]  Toshihiro Okamoto,et al.  Wafer-scale, layer-controlled organic single crystals for high-speed circuit operation , 2018, Science Advances.

[28]  K. Miyazawa,et al.  Synthesis of fullerene nanowhiskers using the liquid–liquid interfacial precipitation method and their mechanical, electrical and superconducting properties , 2015, Science and technology of advanced materials.

[29]  Darryl Y. Sasaki,et al.  Specific, Multiple-Point Binding of ATP and AMP to a Guanidinium-Functionalized Monolayer , 1991 .

[30]  Dario R. Dekel Review of cell performance in anion exchange membrane fuel cells , 2018 .

[31]  Masakazu Aono,et al.  Highly Reproducible and Regulated Conductance Quantization in a Polymer‐Based Atomic Switch , 2017 .

[32]  Katsuhiko Ariga,et al.  Inorganic Nanoarchitectonics for Biological Applications , 2012 .

[33]  Hiroyuki Isobe,et al.  Stereoisomerism and Structures of Rigid Cylindrical Cycloarylenes , 2018, Bulletin of the Chemical Society of Japan.

[34]  Weihong Zhu,et al.  Steric hindrance-enforced distortion as a general strategy for the design of fluorescence "turn-on" cyanide probes. , 2013, Chemical communications.

[35]  T. Hayat,et al.  Boron nitride-based materials for the removal of pollutants from aqueous solutions: a review. , 2018 .

[36]  Katsuhiko Ariga,et al.  Layer-by-layer Nanoarchitectonics: Invention, Innovation, and Evolution , 2014 .

[37]  K. Ariga,et al.  Thin-film-based nanoarchitectures for soft matter: controlled assemblies into two-dimensional worlds. , 2011, Small.

[38]  Kenichiro Itami,et al.  Toward an Ideal Synthesis of (Bio)molecules through Direct Arene Assembling Reactions , 2017 .

[39]  Katsuhiko Ariga,et al.  Materials nanoarchitectonics for environmental remediation and sensing , 2012 .

[40]  David Tai Leong,et al.  Antimicrobial silver nanomaterials , 2018 .

[41]  S. Shinkai,et al.  Efficient photocurrent generation in novel self-assembled multilayers comprised of [60]fullerene-cationic homooxacalix[3]arene inclusion complex and anionic porphyrin polymer. , 2001, Journal of the American Chemical Society.

[42]  Lifeng Chi,et al.  A new approach for the fabrication of an alternating multilayer film of poly(4-vinylpyridine) and poly(acrylic acid) based on hydrogen bonding , 1997 .

[43]  Yong Sheng Zhao,et al.  Wavelength Division Multiplexer Based on Semiconductor Heterostructures Constructed via Nanoarchitectonics. , 2018, Small.

[44]  Kazuki Sada Lipophilic Polyelectrolyte Gels and Crystal Crosslinking, New Methods for Supramolecular Control of Swelling and Collapsing of Polymer Gels , 2018 .

[45]  Katsuhiko Ariga,et al.  Bridging the Difference to the Billionth-of-a-Meter Length Scale: How to Operate Nanoscopic Machines and Nanomaterials by Using Macroscopic Actions , 2014 .

[46]  Katsuhiko Ariga,et al.  Multisite Recognition of Aqueous Dipeptides by Oligoglycine Arrays Mixed with Guanidinium and Other Receptor Units at the Air−Water Interface , 1999 .

[47]  M B Avinash,et al.  Two-dimensional nanoarchitectonics: organic and hybrid materials. , 2012, Nanoscale.

[48]  Katsuhiko Ariga,et al.  Piezoluminescence at the air-water interface through dynamic molecular recognition driven by lateral pressure application. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[49]  Katsuhiko Ariga,et al.  Molecular cavity nanoarchitectonics for biomedical application and mechanical cavity manipulation , 2016 .

[50]  Katsuhiko Ariga,et al.  Thin Film Nanoarchitectonics , 2015, Journal of Inorganic and Organometallic Polymers and Materials.

[51]  Katsuhiko Ariga,et al.  Soft Langmuir–Blodgett Technique for Hard Nanomaterials , 2009 .

[52]  Katsuhiko Ariga,et al.  Amphiphile nanoarchitectonics: from basic physical chemistry to advanced applications. , 2013, Physical chemistry chemical physics : PCCP.

[53]  H. Suga,et al.  Artificial In Vitro Biosynthesis Systems for the Development of Pseudo-Natural Products , 2018 .

[54]  Wei Lu,et al.  Supramolecular shape memory hydrogels: a new bridge between stimuli-responsive polymers and supramolecular chemistry. , 2017, Chemical Society reviews.

[55]  I. Giaever,et al.  Cell growth on liquid interfaces: Role of surface active compounds. , 1983, Proceedings of the National Academy of Sciences of the United States of America.

[56]  R. Sakamoto,et al.  Bottom-up Creation of Functional Low-Dimensional Materials Based on Metal Complexes , 2017 .

[57]  Tsutomu Miyasaka,et al.  Lead Halide Perovskites in Thin Film Photovoltaics: Background and Perspectives , 2018, Bulletin of the Chemical Society of Japan.

[58]  Katsuhiko Ariga,et al.  Mechano-Nanoarchitectonics for Bio-Functions at Interfaces , 2016, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry.

[59]  K. Ariga,et al.  Direct synthesis of MOF-derived nanoporous carbon with magnetic Co nanoparticles toward efficient water treatment. , 2014, Small.

[60]  Fan Yang,et al.  Fabrication and Operation of Monolayer Mott FET at Room Temperature , 2017 .

[61]  Prasant Kumar Nayak,et al.  From Lithium-Ion to Sodium-Ion Batteries: Advantages, Challenges, and Surprises. , 2018, Angewandte Chemie.

[62]  T. Kunitake,et al.  Atomic force microscopic observation of a dialkylmelamine monolayer on barbituric acid , 1996 .

[63]  H. Möhwald,et al.  Hollow polyelectrolyte shells: Exclusion of polymers and Donnan equilibrium. , 1999 .

[64]  Katsuhiko Ariga,et al.  Vortex-aligned fullerene nanowhiskers as a scaffold for orienting cell growth. , 2015, ACS applied materials & interfaces.

[65]  Y. Uchimoto,et al.  Influence of TiO2 Support on Activity of Co3O4/TiO2 Photocatalysts for Visible-Light Water Oxidation , 2017 .

[66]  Yang Wang,et al.  Polymeric Chemosensors: A Conventional Platform with New Click Chemistry , 2017 .

[67]  Katsuhiko Ariga,et al.  pH-Responsive Cotton Effects in the d–d Transition Band of Self-Assembling Copper(II) Complexes with a Cholesteryl-Armed Ligand , 2017 .

[68]  Katsuhiko Ariga,et al.  Aligned 1-D nanorods of a π-gelator exhibit molecular orientation and excitation energy transport different from entangled fiber networks. , 2014, Journal of the American Chemical Society.

[69]  T. Seki,et al.  A Wide Array of Photoinduced Motions in Molecular and Macromolecular Assemblies at Interfaces , 2018, Bulletin of the Chemical Society of Japan.

[70]  Katsuhiko Ariga,et al.  Redox-Active Polymers for Energy Storage Nanoarchitectonics , 2017 .

[71]  Mitsuru Akashi,et al.  Polymerization within a molecular-scale stereoregular template , 2004, Nature.

[72]  Yury Gogotsi,et al.  2D metal carbides and nitrides (MXenes) for energy storage , 2017 .

[73]  Masakazu Aono,et al.  Nanoarchitectonics for Controlling the Number of Dopant Atoms in Solid Electrolyte Nanodots , 2018, Advanced materials.

[74]  K. Itami,et al.  Synthesis of partially and fully fused polyaromatics by annulative chlorophenylene dimerization , 2018, Science.

[75]  Katsuhiko Ariga,et al.  Langmuir monolayers of a cholesterol-armed cyclen complex that can control enantioselectivity of amino acid recognition by surface pressure. , 2011, Physical chemistry chemical physics : PCCP.

[76]  Hiroyuki Asanuma,et al.  The DNA Duplex as an Aqueous One-Dimensional Soft Crystal Scaffold for Photochemistry , 2018, Bulletin of the Chemical Society of Japan.

[77]  Yong‐Mook Kang,et al.  Template-Free Fabrication of Mesoporous Alumina Nanospheres Using Post-Synthesis Water-Ethanol Treatment of Monodispersed Aluminium Glycerate Nanospheres for Molybdenum Adsorption. , 2018, Small.

[78]  Katsuhiko Ariga,et al.  Enzyme nanoarchitectonics: organization and device application. , 2013, Chemical Society reviews.

[79]  Shuichi Hiraoka,et al.  Unresolved Issues that Remain in Molecular Self-Assembly , 2018, Bulletin of the Chemical Society of Japan.

[80]  Shikha Dhiman,et al.  Temporally Controlled Supramolecular Polymerization , 2018, Bulletin of the Chemical Society of Japan.

[81]  Katsuhiko Ariga,et al.  Mechanical control of enantioselectivity of amino acid recognition by cholesterol-armed cyclen monolayer at the air-water interface. , 2006, Journal of the American Chemical Society.

[82]  Katsuhiko Ariga,et al.  Solvent engineering for shape-shifter pure fullerene (C60). , 2009, Journal of the American Chemical Society.

[83]  Thomas E. Mallouk,et al.  Layer-by-Layer Assembly of Intercalation Compounds and Heterostructures on Surfaces: Toward Molecular "Beaker" Epitaxy , 1994 .

[84]  Katsuhiko Ariga,et al.  Nanoarchitectonics for Dynamic Functional Materials from Atomic‐/Molecular‐Level Manipulation to Macroscopic Action , 2016, Advanced materials.

[85]  Katsuhiko Ariga,et al.  Piezoluminescence Based on Molecular Recognition by Dynamic Cavity Array of Steroid Cyclophanes at the Air−Water Interface , 2000 .

[86]  Katsuhiko Ariga,et al.  Mechanical tuning of molecular machines for nucleotide recognition at the air-water interface , 2011, Nanoscale research letters.

[87]  M. Allendorf,et al.  Reports of Meetings , 1970 .

[88]  Satoshi Murata,et al.  Supramolecular 1-D polymerization of DNA origami through a dynamic process at the 2-dimensionally confined air-water interface. , 2016, Physical chemistry chemical physics : PCCP.

[89]  Gleb B. Sukhorukov,et al.  Stepwise Polyelectrolyte Assembly on Particle Surfaces: a Novel Approach to Colloid Design , 1998 .

[90]  Kazue Kurihara,et al.  Molecular recognition at the air-water interface. Specific binding of nitrogen aromatics and amino acids by monolayers of long-chain derivatives of Kemp's acid , 1991 .

[91]  Katsuhiko Ariga,et al.  Electrochemical nanoarchitectonics and layer-by-layer assembly: From basics to future , 2015 .

[92]  Katsuhiko Ariga,et al.  Molecular Imprinting: Materials Nanoarchitectonics with Molecular Information , 2018, Bulletin of the Chemical Society of Japan.

[93]  M. Allendorf,et al.  An updated roadmap for the integration of metal-organic frameworks with electronic devices and chemical sensors. , 2017, Chemical Society reviews.

[94]  Mitsuru Matsumoto,et al.  Dehydration/Hydration Behavior of Layered Double Hydroxide for Chemical Heat Storage , 2018, Bulletin of the Chemical Society of Japan.

[95]  Katsuhiko Ariga,et al.  Nanoarchitectonics for mesoporous materials , 2012 .

[96]  Katsuhiko Ariga,et al.  Enhanced Adsorption Selectivity of Aromatic Vapors in Carbon Capsule Film by Control of Surface Surfactants on Carbon Capsule , 2017 .

[97]  Y. Haketa,et al.  Dimension-Controlled π-Electronic Ion-Pairing Assemblies , 2018 .

[98]  Satyaprasad P. Senanayak,et al.  Nanoarchitectonics of Small Molecule and DNA for Ultrasensitive Detection of Mercury. , 2016, ACS applied materials & interfaces.

[99]  Darryl Y. Sasaki,et al.  Self-Assembled Multifunctional Receptors for Nucleotides at the Air-Water Interface , 1992 .

[100]  You Xu,et al.  Fabrication of Mesoporous Cage-Bell Pt Nanoarchitectonics as Efficient Catalyst for Oxygen Reduction Reaction , 2018, ACS Sustainable Chemistry & Engineering.

[101]  Katsuhiko Ariga,et al.  Layer-by-layer films of dual-pore carbon capsules with designable selectivity of gas adsorption. , 2009, Journal of the American Chemical Society.

[102]  Fei Zhang,et al.  DNA Origami: Scaffolds for Creating Higher Order Structures. , 2017, Chemical reviews.

[103]  Katsuhiko Ariga,et al.  Layer-by-layer self-assembled shells for drug delivery. , 2011, Advanced drug delivery reviews.

[104]  Masakazu Aono,et al.  Nanoarchitectonics: a new materials horizon for nanotechnology , 2015 .

[105]  Minoru Sakurai,et al.  Theoretical Study of Intermolecular Interaction at the Lipid−Water Interface. 1. Quantum Chemical Analysis Using a Reaction Field Theory , 1997 .

[106]  H. Zeng,et al.  Recent progress in 2D group-VA semiconductors: from theory to experiment. , 2018, Chemical Society reviews.

[107]  Katsuhiko Ariga,et al.  Assemblies of biomaterials in mesoporous media. , 2006, Journal of nanoscience and nanotechnology.

[108]  K. Ariga,et al.  Nanoporous carbons through direct carbonization of a zeolitic imidazolate framework for supercapacitor electrodes. , 2012, Chemical communications.

[109]  Katsuhiko Ariga,et al.  Intentional Closing/Opening of "Hole-in-Cube" Fullerene Crystals with Microscopic Recognition Properties. , 2017, ACS nano.

[110]  Katsuhiko Ariga,et al.  Self-assembly as a key player for materials nanoarchitectonics , 2019, Science and technology of advanced materials.

[111]  Kookheon Char,et al.  Fabrication of Highly Ordered Multilayer Films Using a Spin Self‐Assembly Method , 2001 .

[112]  Rekha Goswami Shrestha,et al.  Nanoarchitectonics of Nanoporous Carbon Materials from Natural Resource for Supercapacitor Application , 2017, Journal of Inorganic and Organometallic Polymers and Materials.

[113]  Osvaldo N. Oliveira,et al.  Immunosensors Made with Layer-by-Layer Films on Chitosan/Gold Nanoparticle Matrices to Detect D-Dimer as Biomarker for Venous Thromboembolism , 2018, Bulletin of the Chemical Society of Japan.

[114]  Katsuhiko Ariga,et al.  Two-Dimensional (2D) Nanomaterials towards Electrochemical Nanoarchitectonics in Energy-Related Applications , 2017 .

[115]  Katsuhiko Ariga,et al.  Catalytic nanoarchitectonics for environmentally compatible energy generation , 2016 .

[116]  Vakayil K. Praveen,et al.  Self-Assembly of Bodipy-Derived Extended π-Systems , 2018 .

[117]  Omar Azzaroni,et al.  Electrochemical nanoarchitectonics through polyaminobenzylamine-dodecyl phosphate complexes: redox activity and mesoscopic organization in self-assembled nanofilms. , 2018, Physical chemistry chemical physics : PCCP.

[118]  S. Nagase,et al.  Regioselective Cyclotrimerization of Terminal Alkynes Using a Digermyne. , 2018, Angewandte Chemie.

[119]  Katsuhiko Ariga,et al.  Nanoarchitectonics: a navigator from materials to life , 2017 .

[120]  Jihoon Kang,et al.  Silicon Pillar Structure Assisted Three Dimensional Carbon Nanotube Assembly: Fabrications and Rational Surface Modifications , 2018, Bulletin of the Chemical Society of Japan.

[121]  Katsuhiko Ariga,et al.  A layered mesoporous carbon sensor based on nanopore-filling cooperative adsorption in the liquid phase. , 2008, Angewandte Chemie.

[122]  Jong-Dal Hong,et al.  Layer-by-Layer Deposited Multilayer Assemblies of Ionene-Type Polyelectrolytes Based on the Spin-Coating Method , 2001 .

[123]  Minoru Osada,et al.  Nanoarchitectonics in dielectric/ferroelectric layered perovskites: from bulk 3D systems to 2D nanosheets. , 2018, Dalton transactions.

[124]  I. Giaever,et al.  Behavior of cells at fluid interfaces. , 1983, Proceedings of the National Academy of Sciences of the United States of America.

[125]  Katsuhiko Ariga,et al.  25th Anniversary Article: What Can Be Done with the Langmuir‐Blodgett Method? Recent Developments and its Critical Role in Materials Science , 2013, Advanced materials.

[126]  Katsuhiko Ariga,et al.  Molecular Recognition at Air−Water and Related Interfaces: Complementary Hydrogen Bonding and Multisite Interaction , 1998 .

[127]  Katsuhiko Ariga,et al.  Conformation Manipulation and Motion of a Double Paddle Molecule on an Au(111) Surface. , 2017, ACS nano.

[128]  T. Ohshima,et al.  Growth and morphology of anchorage-dependent animal cells in a liquid/liquid interface system. , 1998, Biotechnology and bioengineering.

[129]  Masakazu Aono,et al.  The Way to Nanoarchitectonics and the Way of Nanoarchitectonics , 2016, Advanced materials.

[130]  Katsuhiko Ariga,et al.  Bioinspired nanoarchitectonics as emerging drug delivery systems , 2014 .

[131]  Qianli Zou,et al.  Peptide‐Modulated Self‐Assembly of Chromophores toward Biomimetic Light‐Harvesting Nanoarchitectonics , 2016, Advanced materials.

[132]  Katsuhiko Ariga,et al.  Preparation and characterization of a novel organic-inorganic nanohybrid "cerasome" formed with a liposomal membrane and silicate surface. , 2007, Chemistry.

[133]  Katsuhiko Ariga,et al.  Direct carbonization of Al-based porous coordination polymer for synthesis of nanoporous carbon. , 2012, Journal of the American Chemical Society.

[134]  Helmuth Möhwald,et al.  Novel Hollow Polymer Shells by Colloid-Templated Assembly of Polyelectrolytes. , 1998, Angewandte Chemie.

[135]  Kazunori Matsuura,et al.  Construction of Functional Biomaterials by Biomolecular Self-Assembly , 2017 .

[136]  Katsuhiko Ariga,et al.  Fullerene nanoarchitectonics: from zero to higher dimensions. , 2013, Chemistry, an Asian journal.

[137]  K. Ariga,et al.  A new family of carbon materials: synthesis of MOF-derived nanoporous carbons and their promising applications , 2013 .

[138]  Katsuhiko Ariga,et al.  Mechanical tuning of molecular recognition to discriminate the single-methyl-group difference between thymine and uracil. , 2010, Journal of the American Chemical Society.

[139]  Katsuhiko Ariga,et al.  Three-Dimensional Cage Type Mesoporous CN-Based Hybrid Material with Very High Surface Area and Pore Volume , 2007 .

[140]  Katsuhiko Ariga,et al.  TWO-DIMENSIONAL MOLECULAR PATTERNING THROUGH MOLECULAR RECOGNITION , 1996 .

[141]  Kazue Kurihara,et al.  Cooperative Binding of Adenine via Complementary Hydrogen Bonding to an Imide Functionalized Monolayer at the Air-Water Interface , 1992 .

[142]  Katsuhiko Ariga,et al.  What are the emerging concepts and challenges in NANO? Nanoarchitectonics, hand-operating nanotechnology and mechanobiology , 2016 .

[143]  Wu Lei,et al.  Self-template synthesis of yolk-shelled NiCo2O4 spheres for enhanced hybrid supercapacitors , 2018 .

[144]  Yasuhiro Yamada,et al.  Free Carrier Radiative Recombination and Photon Recycling in Lead Halide Perovskite Solar Cell Materials , 2017 .

[145]  T. Luh,et al.  Polynorbornene-based Template for Polymer Synthesis , 2017 .

[146]  Katsuhiko Ariga,et al.  Multi-site Recognition of Flavin Adenine Dinucleotide by Mixed Monolayers on Water , 1995 .

[147]  K. Ariga,et al.  Layer-by-layer architectures of concanavalin A by means of electrostatic and biospecific interactions , 1995 .

[148]  Masaru Mukai,et al.  Lipid Raft Formation Driven by Push and Pull Forces , 2017 .

[149]  Qiang Xu,et al.  Metal Nanoparticle-Catalyzed Hydrogen Generation from Liquid Chemical Hydrides , 2018, Bulletin of the Chemical Society of Japan.

[150]  Katsuhiko Ariga,et al.  A QCM Study on Adsorption of Macrocyclic Sugar-Cluster to Variously-Functionalized Monolayers , 1998 .

[151]  M. Darder,et al.  Silacrown Ethers-Clay Intercalation Materials: Application in Potentiometric Sensors for Detection of Alkali-Ions , 2018 .

[152]  Katsuhiko Ariga,et al.  Nanoarchitectonics from Molecular Units to Living-Creature-Like Motifs. , 2018, Chemical record.

[153]  P. Weis,et al.  Light-Switchable Azobenzene-Containing Macromolecules: From UV to Near Infrared. , 2018, Macromolecular rapid communications.

[154]  M. I. Setyawati,et al.  Nanoparticles promote in vivo breast cancer cell intravasation and extravasation by inducing endothelial leakiness , 2019, Nature Nanotechnology.

[155]  Rekha Goswami Shrestha,et al.  Surfactant-Triggered Nanoarchitectonics of Fullerene C60 Crystals at a Liquid-Liquid Interface. , 2016, Langmuir : the ACS journal of surfaces and colloids.

[156]  H. Ringsdorf,et al.  Attempts to mimic docking processes of the immune system: recognition-induced formation of protein multilayers. , 1993, Science.

[157]  Katsuhiko Ariga,et al.  Mechanical Control of Nanomaterials and Nanosystems , 2012, Advanced materials.

[158]  Katsuhiko Ariga,et al.  Molecular Recognition of Nucleotides by the Guanidinium Unit at the Surface of Aqueous Micelles and Bilayers. A Comparison of Microscopic and Macroscopic Interfaces , 1996 .

[159]  Katsuhiko Ariga,et al.  A mechanically controlled indicator displacement assay. , 2012, Angewandte Chemie.

[160]  Katsuhiko Ariga,et al.  Atomic architectonics, nanoarchitectonics and microarchitectonics for strategies to make junk materials work as precious catalysts , 2016 .

[161]  Françoise Remacle,et al.  Architectonic Quantum Dot Solids , 1999 .

[162]  Jean G. Riess,et al.  Self-Organization of Semifluorinated Alkanes and Related Compounds at Interfaces: Thin Films, Surface Domains and Two-Dimensional Spherulites , 2018 .

[163]  Martin Pumera,et al.  Polyaniline/MoSX Supercapacitor by Electrodeposition , 2017 .

[164]  Jing Li,et al.  Metal-organic frameworks: functional luminescent and photonic materials for sensing applications. , 2017, Chemical Society reviews.

[165]  Katsuhiko Ariga,et al.  Nanomosaic: formation of nanodomains confined in a two-dimensional molecular plane. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[166]  Qianqian Lin,et al.  Molecular engineering of perovskite photodetectors: recent advances in materials and devices , 2018 .

[167]  Katsuhiko Ariga,et al.  Carbon Nanosheets by Morphology-Retained Carbonization of Two-Dimensional Assembled Anisotropic Carbon Nanorings. , 2018, Angewandte Chemie.

[168]  Yoshitaka Tateyama,et al.  Recent Progress in Interfacial Nanoarchitectonics in Solid-State Batteries , 2015, Journal of Inorganic and Organometallic Polymers and Materials.

[169]  E. Stulz,et al.  Nanoarchitectonics with Porphyrin Functionalized DNA , 2017, Accounts of chemical research.

[170]  Katsuhiko Ariga,et al.  Layer-by-layer films of graphene and ionic liquids for highly selective gas sensing. , 2010, Angewandte Chemie.

[171]  M. Akashi,et al.  Stepwise Stereocomplex Assembly of Stereoregular Poly(methyl methacrylate)s on a Substrate , 2000 .

[172]  Katsuhiko Ariga,et al.  Stimuli-free auto-modulated material release from mesoporous nanocompartment films. , 2008, Journal of the American Chemical Society.

[173]  T. Mallouk,et al.  Inorganic analogues of Langmuir-Blodgett films: adsorption of ordered zirconium 1,10-decanebisphosphonate multilayers on silicon surfaces , 1988 .

[174]  Xueye Chen,et al.  Review in manufacturing methods of nanochannels of bio-nanofluidic chips , 2018 .

[175]  Y. Liao,et al.  Preparation of Au/Pd Bimetallic Nanoparticles by a Microwave-Induced Plasma in Liquid Process , 2017 .

[176]  Katsuhiko Ariga,et al.  Gold nanoparticles embedded in a mesoporous carbon nitride stabilizer for highly efficient three-component coupling reaction. , 2010, Angewandte Chemie.

[177]  Katsuhiko Ariga,et al.  Alcohol-induced decomposition of Olmstead's crystalline Ag(I)-fullerene heteronanostructure yields 'bucky cubes'† , 2013 .

[178]  P. Schaaf,et al.  Spray-on organic/inorganic films: a general method for the formation of functional nano- to microscale coatings. , 2010, Angewandte Chemie.

[179]  Katsuhiko Ariga,et al.  Highly Ordered 1D Fullerene Crystals for Concurrent Control of Macroscopic Cellular Orientation and Differentiation toward Large‐Scale Tissue Engineering , 2015, Advanced materials.

[180]  M. Mitsuishi,et al.  Preparation of the Layer-by-Layer Deposited Ultrathin Film Based on the Charge-Transfer Interaction , 1997 .

[181]  Katsuhiko Ariga,et al.  Bioactive nanocarbon assemblies: Nanoarchitectonics and applications , 2014 .

[182]  Hiroshi Ito,et al.  Molecular recognition: from solution science to nano/materials technology. , 2012, Chemical Society reviews.

[183]  V. Vilar,et al.  Electrochemical advanced oxidation processes: A review on their application to synthetic and real wastewaters , 2017 .

[184]  M. Aono,et al.  Forming nanomaterials as layered functional structures toward materials nanoarchitectonics , 2012 .

[185]  K. Ariga,et al.  Control of molecular ordering in guanidinium-functionalized monolayer by carboxylate template molecules , 1997 .

[186]  Katsuhiko Ariga,et al.  Mechanochemical Tuning of the Binaphthyl Conformation at the Air-Water Interface. , 2015, Angewandte Chemie.

[187]  Omar Azzaroni,et al.  Highly-organized stacked multilayers via layer-by-layer assembly of lipid-like surfactants and polyelectrolytes. Stratified supramolecular structures for (bio)electrochemical nanoarchitectonics. , 2018, Soft matter.

[188]  Satoshi Murata,et al.  In situ 2D-extraction of DNA wheels by 3D through-solution transport. , 2015, Physical chemistry chemical physics : PCCP.

[189]  Katsuhiko Ariga,et al.  Molecular rotors confined at an ordered 2D interface. , 2018, Physical chemistry chemical physics : PCCP.

[190]  Katsuhiko Ariga,et al.  Coordination nanoarchitectonics at interfaces between supramolecular and materials chemistry , 2016 .

[191]  Hassan Hajghassem,et al.  Point of care testing: The impact of nanotechnology. , 2017, Biosensors & bioelectronics.

[192]  K. Ariga,et al.  Nanoarchitectonics for carbon-material-based sensors. , 2016, The Analyst.

[193]  Katsuhiko Ariga,et al.  Molecular Recognition of Aqueous Dipeptides at Multiple Hydrogen-Bonding Sites of Mixed Peptide Monolayers , 1996 .

[194]  K. Ariga,et al.  Syntheses and Interfacial Hydrogen-Bonded Network of Hexaalkyl Tris(Melamine) Amphiphiles , 1997 .

[195]  S. Shiratori,et al.  Nano-scale control of composite polymer films by mass-controlled layer-by-layer sequential adsorption of polyelectrolytes , 2000 .

[196]  Katsuhiko Ariga,et al.  Driving nanocars and nanomachines at interfaces: From concept of nanoarchitectonics to actual use in world wide race and hand operation , 2016 .

[197]  Stefan Hecht,et al.  Welding, organizing, and planting organic molecules on substrate surfaces--promising approaches towards nanoarchitectonics from the bottom up. , 2003, Angewandte Chemie.

[198]  F. Guinea,et al.  Polaritons in layered two-dimensional materials. , 2016, Nature materials.

[199]  M. Rubner,et al.  Molecular-Level Processing of Conjugated Polymers. 4. Layer-by-Layer Manipulation of Polyaniline via Hydrogen-Bonding Interactions , 1997 .

[200]  Katsuhiko Ariga,et al.  Mesoporous Alumina as an Effective Adsorbent for Molybdenum (Mo) toward Instant Production of Radioisotope for Medical Use , 2017 .

[201]  Katsuhiko Ariga,et al.  Nanoarchitectonics: a conceptual paradigm for design and synthesis of dimension-controlled functional nanomaterials. , 2011, Journal of nanoscience and nanotechnology.

[202]  Thimmaiah Govindaraju,et al.  Nanoarchitectonics of biomolecular assemblies for functional applications. , 2014, Nanoscale.

[203]  Satoshi Takahashi,et al.  DNA Garden: A Simple Method for Producing Arrays of Stretchable DNA for Single-Molecule Fluorescence Imaging of DNA-Binding Proteins , 2017 .

[204]  N. Chatani,et al.  The Use of a Rhodium Catalyst/8-Aminoquinoline Directing Group in the C-H Alkylation of Aromatic Amides with Alkenes: Possible Generation of a Carbene Intermediate from an Alkene , 2017 .

[205]  Takeshi Serizawa,et al.  Filamentous Viruses as Building Blocks for Hierarchical Self-Assembly toward Functional Soft Materials , 2018 .

[206]  Katsuhiko Ariga,et al.  Porphyrin-based sensor nanoarchitectonics in diverse physical detection modes. , 2014, Physical chemistry chemical physics : PCCP.

[207]  Katsuhiko Ariga,et al.  Supramolecular Differentiation for Construction of Anisotropic Fullerene Nanostructures by Time-Programmed Control of Interfacial Growth. , 2016, ACS nano.

[208]  Caruso,et al.  Nanoengineering of inorganic and hybrid hollow spheres by colloidal templating , 1998, Science.

[209]  Katsuhiko Ariga,et al.  Nanoarchitectonics for Hybrid and Related Materials for Bio‐Oriented Applications , 2018 .

[210]  Rekha Goswami Shrestha,et al.  Nonionic amphiphile nanoarchitectonics: self-assembly into micelles and lyotropic liquid crystals , 2015, Nanotechnology.

[211]  Junbai Li,et al.  Langmuir Nanoarchitectonics from Basic to Frontier. , 2018, Langmuir : the ACS journal of surfaces and colloids.

[212]  Zhiqun Lin,et al.  Noble metal–metal oxide nanohybrids with tailored nanostructures for efficient solar energy conversion, photocatalysis and environmental remediation , 2017 .

[213]  K. Ariga,et al.  Effect of Melamine-Amphiphile Structure on the Extent of Two-Dimensional Hydrogen-Bonded Networks Incorporating Barbituric Acid , 1997 .

[214]  Katsuhiko Ariga,et al.  Hierarchically Structured Fullerene C70 Cube for Sensing Volatile Aromatic Solvent Vapors. , 2016, ACS nano.

[215]  Katsuhiko Ariga,et al.  Directing Assembly and Disassembly of 2D MoS2 Nanosheets with DNA for Drug Delivery. , 2017, ACS applied materials & interfaces.

[216]  Katsuhiko Ariga,et al.  Templated Synthesis for Nanoarchitectured Porous Materials , 2015 .

[217]  Katsuhiko Ariga,et al.  Enhanced Activity of Alcohol Dehydrogenase in Porous Silica Nanosheets with Wide Size Distributed Mesopores , 2019, Bulletin of the Chemical Society of Japan.

[218]  Xue Li,et al.  Stimuli-responsive polymers and their applications , 2017 .

[219]  Rekha Goswami Shrestha,et al.  Cobalt Oxide/Reduced Graphene Oxide Composite with Enhanced Electrochemical Supercapacitance Performance , 2017 .

[220]  Hal S. Alper,et al.  Thermodynamic and first-principles biomolecular simulations applied to synthetic biology: promoter and aptamer designs , 2018 .

[221]  Y. Niidome,et al.  Colloidal Dispersion of Gold Nanorods and Gold-Silver Core-Shell Nanorods in Polar Organic Solvents , 2017 .

[222]  M. Komiyama,et al.  Chemistry Can Make Strict and Fuzzy Controls for Bio-Systems: DNA Nanoarchitectonics and Cell-Macromolecular Nanoarchitectonics , 2017 .

[223]  Shintaro Fujii,et al.  Governing the Metal–Molecule Interface: Towards New Functionality in Single-Molecule Junctions , 2017 .

[224]  Katsuhiko Ariga,et al.  Materials Nanoarchitectonics for Mechanical Tools in Chemical and Biological Sensing. , 2018, Chemistry, an Asian journal.

[225]  Masateru Taniguchi,et al.  Single-Molecule Analysis Methods Using Nanogap Electrodes and Their Application to DNA Sequencing Technologies , 2017 .

[226]  Katsuhiko Ariga,et al.  Mechanically Induced Opening-Closing Action of Binaphthyl Molecular Pliers: Digital Phase Transition versus Continuous Conformational Change. , 2017, Chemphyschem : a European journal of chemical physics and physical chemistry.

[227]  Katsuhiko Ariga,et al.  Suppression of Myogenic Differentiation of Mammalian Cells Caused by Fluidity of a Liquid-Liquid Interface. , 2017, ACS applied materials & interfaces.

[228]  Katsuhiko Ariga,et al.  Molybdenum adsorption properties of alumina-embedded mesoporous silica for medical radioisotope production , 2017 .

[229]  Katsuhiko Ariga,et al.  Nanoarchitectonic-Based Material Platforms for Environmental and Bioprocessing Applications. , 2018, Chemical record.

[230]  Toshimi Shimizu,et al.  Self-Assembly of Discrete Organic Nanotubes , 2018 .

[231]  T. Kondo,et al.  Active sites of nitrogen-doped carbon materials for oxygen reduction reaction clarified using model catalysts , 2016, Science.

[232]  A. Schroeder,et al.  Anti-viral RNAi nanoparticles protect shrimp against white spot disease , 2018 .

[233]  X. Lou,et al.  Self-Templated Formation of Hollow Structures for Electrochemical Energy Applications. , 2017, Accounts of chemical research.

[234]  Katsuhiko Ariga,et al.  Advances in Biomimetic and Nanostructured Biohybrid Materials , 2010, Advanced materials.

[235]  Thimmaiah Govindaraju,et al.  Architectonics: Design of Molecular Architecture for Functional Applications. , 2018, Accounts of chemical research.

[236]  Kentaro Tanaka,et al.  Programmable Arrangement of Heterometal Ions in a Supramolecular Array of Porphyrin and Phthalocyanine , 2017 .

[237]  Y. Einaga Development of Electrochemical Applications of Boron-Doped Diamond Electrodes , 2018, Bulletin of the Chemical Society of Japan.

[238]  Kazue Kurihara,et al.  Molecular Recognition of Sugars by Monolayers of Resorcinol-Dodecanal Cyclotetramer , 1991 .

[239]  Katsuhiko Ariga,et al.  Visual Detection of Cesium Ions in Domestic Water Supply or Seawater using a Nano-optode , 2017 .

[240]  Katsuhiko Ariga,et al.  Recognition of aqueous flavin mononucleotide on the surface ofbinary monolayers of guanidinium and melamine amphiphiles , 1997 .

[241]  Bing Xu,et al.  Instructed-Assembly (iA): A Molecular Process for Controlling Cell Fate. , 2018, Bulletin of the Chemical Society of Japan.

[242]  Kenji Hanabusa,et al.  Detection of Amine Vapors using Luminescent Xerogels from Supramolecular Metal-Containing Gelator , 2018 .

[243]  J. Gautrot,et al.  Protein Nanosheet Mechanics Controls Cell Adhesion and Expansion on Low-Viscosity Liquids. , 2018, Nano letters.

[244]  Katsuhiko Ariga,et al.  Interfaces Working for Biology: Solving Biological Mysteries and Opening Up Future Nanoarchitectonics , 2016 .

[245]  Vladimir V. Tsukruk,et al.  Self-Assembly of Hyperbranched Protic Poly(ionic liquid)s with Variable Peripheral Amphiphilicity , 2017 .

[246]  K. Kataoka,et al.  Polyion complex micelle formation from double-hydrophilic block copolymers composed of charged and non-charged segments in aqueous media , 2018 .

[247]  Katsuhiko Ariga,et al.  Two-dimensional nanoarchitectonics based on self-assembly. , 2010, Advances in colloid and interface science.

[248]  Yuka Kobayashi,et al.  Pure Organic Conductors Based on Protonic-Defect Induction: From Semiconductors to Organic Metals , 2018 .

[249]  P. Kantoff,et al.  Cancer nanomedicine: progress, challenges and opportunities , 2016, Nature Reviews Cancer.

[250]  Katsuhiko Ariga,et al.  Nano Trek Beyond: Driving Nanocars/Molecular Machines at Interfaces. , 2018, Chemistry, an Asian journal.

[251]  Kaoru Dokko,et al.  From Ionic Liquids to Solvate Ionic Liquids: Challenges and Opportunities for Next Generation Battery Electrolytes , 2018, Bulletin of the Chemical Society of Japan.

[252]  Katsuhiko Ariga,et al.  Molecular Recognition of Aqueous Dipeptides by Noncovalently Aligned Oligoglycine Units at the Air/Water Interface , 1995 .

[253]  Gero Decher,et al.  Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites , 1997 .

[254]  Shinya Yamanaka,et al.  Induced Pluripotent Stem Cells 10 Years Later: For Cardiac Applications , 2017, Circulation research.

[255]  Katsuhiko Ariga,et al.  Molecular Patterning of a Guanidinium/Orotate Mixed Monolayer through Molecular Recognition with Flavin Adenine Dinucleotide , 1997 .