Self-organized patterning on azo molecular glass film via optical near-field effect

[1]  Xiaogong Wang,et al.  Laser‐Induced Transitions of Azo Molecular Glass Pillar Arrays: A New Way to Fabricate Periodic Complex Surface Patterns upon Linearly Polarized Radiation , 2022, Advanced Optical Materials.

[2]  Xiaogong Wang,et al.  Azo Molecular Glass Patterning from Chiral Submicron Pillar Array to Self‐Organized Topographic Transition via Irradiation with Circularly Polarized Light , 2021, Advanced Optical Materials.

[3]  D. Norris,et al.  Optical Fourier surfaces , 2019, 2020 Conference on Lasers and Electro-Optics (CLEO).

[4]  N. Giuseppone,et al.  Design of Collective Motions from Synthetic Molecular Switches, Rotors, and Motors. , 2019, Chemical reviews.

[5]  K. Hölz,et al.  Multi-level patterning nucleic acid photolithography , 2019, Nature Communications.

[6]  Chih‐Hao Chang,et al.  Recent progress in near-field nanolithography using light interactions with colloidal particles: from nanospheres to three-dimensional nanostructures , 2019, Nanotechnology.

[7]  M. Hong,et al.  Microsphere enhanced optical imaging and patterning: From physics to applications , 2019, Applied Physics Reviews.

[8]  Antonio Ambrosio,et al.  From nanoscopic to macroscopic photo-driven motion in azobenzene-containing materials , 2018, Nanophotonics.

[9]  Federico Capasso,et al.  Metalenses: Versatile multifunctional photonic components , 2017, Science.

[10]  Xiaogong Wang,et al.  Janus and Strawberry-like Particles from Azo Molecular Glass and Polydimethylsiloxane Oligomer. , 2017, Langmuir : the ACS journal of surfaces and colloids.

[11]  G. Yi,et al.  Photofluidic Near-Field Mapping of Electric-Field Resonance in Plasmonic Metasurface Assembled with Gold Nanoparticles. , 2017, The journal of physical chemistry letters.

[12]  Xiangming Li,et al.  Toward Scalable Flexible Nanomanufacturing for Photonic Structures and Devices , 2016, Advanced materials.

[13]  Chih‐Hao Chang,et al.  Sculpting asymmetric, hollow-core, three-dimensional nanostructures using colloidal particles. , 2015, Small.

[14]  Arri Priimagi,et al.  Azopolymer‐based micro‐ and nanopatterning for photonic applications , 2014 .

[15]  Chih‐Hao Chang,et al.  Three-dimensional nanolithography using light scattering from colloidal particles. , 2013, ACS nano.

[16]  Audrey M. Bowen,et al.  Transfer Printing Techniques for Materials Assembly and Micro/Nanodevice Fabrication , 2012, Advanced materials.

[17]  Anne M Andrews,et al.  Subtractive Patterning via Chemical Lift-Off Lithography , 2012, Science.

[18]  Jung-Ki Park,et al.  Directional Photofluidization Lithography: Micro/Nanostructural Evolution by Photofluidic Motions of Azobenzene Materials , 2012, Advanced materials.

[19]  George C. Schatz,et al.  Spatial confinement of electromagnetic hot and cold spots in gold nanocubes. , 2012, ACS nano.

[20]  Lorenzo Marrucci,et al.  Light-induced spiral mass transport in azo-polymer films under vortex-beam illumination , 2012, Nature Communications.

[21]  Xiaogong Wang,et al.  Photoinduced self-structured surface pattern on a molecular azo glass film: structure-property relationship and wavelength correlation. , 2011, Langmuir : the ACS journal of surfaces and colloids.

[22]  Xiaogong Wang,et al.  Self-Structured Surface Patterns on Epoxy-Based Azo Polymer Films Induced by Laser Light Irradiation , 2011 .

[23]  Xiaogong Wang,et al.  Epoxy-based polymers functionalized with bisazo chromophores: Synthesis, characterization and photoresponsive behavior , 2011 .

[24]  Xiaogong Wang,et al.  Self-structured surface patterns on molecular azo glass films induced by laser light irradiation. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[25]  Hubert Audorff,et al.  Synthesis and Structure–Property Relations of a Series of Photochromic Molecular Glasses for Controlled and Efficient Formation of Surface Relief Nanostructures , 2009 .

[26]  F J García de Abajo,et al.  Imprinting the optical near field of microstructures with nanometer resolution. , 2009, Small.

[27]  Xiaogong Wang,et al.  Photofabrication of two-dimensional quasi-crystal patterns on UV-curable molecular azo glass films. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[28]  Euan McLeod,et al.  Subwavelength direct-write nanopatterning using optically trapped microspheres. , 2008, Nature nanotechnology.

[29]  Dong‐Yu Kim,et al.  Control of Photodynamic Motions of Azobenzene‐Derivative Polymers by Laser Excitation Wavelength , 2007 .

[30]  Theo Rasing,et al.  Macroscopic Hierarchical Surface Patterning of Porphyrin Trimers via Self-Assembly and Dewetting , 2006, Science.

[31]  Yang Yang,et al.  Patterning organic single-crystal transistor arrays , 2006, Nature.

[32]  Luping P. Shi,et al.  Direct femtosecond laser nanopatterning of glass substrate by particle-assisted near-field enhancement , 2006 .

[33]  T. Ikeda,et al.  Enhancement of Surface‐Relief Gratings Recorded on Amphiphilic Liquid‐Crystalline Diblock Copolymer by Nanoscale Phase Separation , 2005 .

[34]  G. Wiederrecht,et al.  Near-field photochemical imaging of noble metal nanostructures. , 2005, Nano letters.

[35]  M. Hara,et al.  Phototactic Mass Transport in Polymer Films for Micropatterning and Alignment of Functional Materials , 2004 .

[36]  L. Bouteiller,et al.  Versatile synthesis of small NLO-active molecules forming amorphous materials with spontaneous second-order NLO response. , 2003, Journal of the American Chemical Society.

[37]  Dong‐Yu Kim,et al.  Photodynamic properties of azobenzene molecular films with triphenylamines , 2003 .

[38]  T. Ikawa,et al.  Photodeformation behavior of photodynamic polymers bearing azobenzene moieties in their main and/or side chain , 2003 .

[39]  Paul Rochon,et al.  Photoinduced motions in azo-containing polymers. , 2002, Chemical reviews.

[40]  T. Chong,et al.  Pulsed laser-assisted surface structuring with optical near-field enhanced effects , 2002 .

[41]  Klaus Piglmayer,et al.  Laser-induced surface patterning by means of microspheres , 2002 .

[42]  G. Whitesides,et al.  Fabrication of a Cylindrical Display by Patterned Assembly , 2002, Science.

[43]  T. Ikawa,et al.  Topographical nanostructure patterning on the surface of a thin film of polyurethane containing azobenzene moiety using the optical near field around polystyrene spheres , 2001 .

[44]  Yongfeng Lu,et al.  Dry laser cleaning of particles from solid substrates: Experiments and theory , 2001 .

[45]  P. Leiderer,et al.  Local field enhancement effects for nanostructuring of surfaces , 2001, Journal of microscopy.

[46]  Shinji Okazaki,et al.  Pushing the limits of lithography , 2000, Nature.

[47]  Yongfeng Lu,et al.  Laser cleaning of solid surface: optical resonance and near-field effects , 2000, SPIE High-Power Laser Ablation.

[48]  Jayant Kumar,et al.  Photoinduced surface deformations on azobenzene polymer films , 1999 .

[49]  Nirmal K. Viswanathan,et al.  Surface relief structures on azo polymer films , 1999 .

[50]  Jayant Kumar,et al.  Gradient force: The mechanism for surface relief grating formation in azobenzene functionalized polymers , 1998 .

[51]  J. Kumar,et al.  Laser‐induced holographic surface relief gratings on nonlinear optical polymer films , 1995 .

[52]  Paul Rochon,et al.  Optically induced surface gratings on azoaromatic polymer films , 1995 .