All Stories

  1. Oceans Are Warming Faster Than Expected. Quantum Physics Shows Why
  2. Partial coherence and amplified internal energy when thermal radiation is sourced within matter
  3. Designing better paint with a simple model that tracks light absorption and scattering
  4. The importance of surface finish to energy performance
  5. AZO/Ag/AZO anode for resonant cavity red, blue, and yellow organic light emitting diodes
  6. Is enhanced radiative cooling of solar cell modules worth pursuing?
  7. Nanophotonics-enabled smart windows, buildings and wearables
  8. Plasmonic response in nanoporous metal: dependence on network topology
  9. Optical properties of refractory TiN, AlN and (Ti,Al)N coatings
  10. A Subambient Open Roof Surface under the Mid-Summer Sun
  11. A method to measure total atmospheric long-wave down-welling radiation using a low cost infrared thermometer tilted to the vertical
  12. Procedure for measuring simultaneously the solar and visible properties of glazing with complex internal or external structures
  13. Optimized multilayer indium-free electrodes for organic photovoltaics
  14. Discharge amplified photo-emission from ultra-thin films applied to tuning work function of transparent electrodes in organic opto-electronic devices
  15. A critical hurdle to widespread use of polymer based luminescent solar concentrators
  16. Modes of interaction between nanostructured metal and a conducting mirror as a function of separation and incident polarization
  17. Polymeric mesh for durable infra-red transparent convection shields: Applications in cool roofs and sky cooling
  18. The insulator to correlated metal phase transition in molybdenum oxides
  19. Multi-parameter sensitivity analysis: A design methodology applied to energy efficiency in temperate climate houses
  20. Green nanophotonics
  21. Optimized cool roofs: Integrating albedo and thermal emittance with R-value
  22. Green nanotechnology
  23. Evolution of plasmonic response in growing silver thin films with pre-percolation non-local conduction and emittance drop
  24. Surface reflectance and conversion efficiency dependence of technologies for mitigating global warming
  25. Absorption tails and extinction in luminescent solar concentrators
  26. Green Nanotechnology: Solutions for Sustainability and Energy in the Built Environment
  27. Commentary: Environmental nanophotonics and energy
  28. Green Nanotechnology
  29. Metal nanoparticle plasmonics inside reflecting metal films
  30. Optimized infra-red spectral response of surfaces for sub-ambient sky cooling as a function of humidity and operating temperature
  31. Radiative Heat Pumping from the Earth Using Surface Phonon Resonant Nanoparticles
  32. Perylene dye photodegradation due to ketones and singlet oxygen
  33. Metal-in-metal localized surface plasmon resonance
  34. Amplified radiative cooling via optimised combinations of aperture geometry and spectral emittance profiles of surfaces and the atmosphere
  35. Angular selectivity: impact on optimised coatings for night sky radiative cooling
  36. Comparisons of enhanced absorption in closely-coupled grating-mirror and random particle-mirror systems
  37. Front Matter: Volume 7404
  38. The preparation of a plasmonically resonant VO2thermochromic pigment
  39. Guest Editorial: Nanostructured Thin Films
  40. Frequency and percolation dependence of the observed phase transition in nanostructured and doped VO2 thin films
  41. Percolation in nanoporous gold and the principle of universality for two-dimensional to hyperdimensional networks
  42. Frequency and percolation dependence of the observed phase transition in nanostructured and doped VO 2 thin films
  43. Front Matter: Volume 7041
  44. Rectangular-section mirror light pipes
  45. Five layer narrow band position variable filters for sharp colours and ultra low emittance
  46. Temperature dependence of optical and transport properties in VO2 with high temperature anomalies
  47. Dual metal–insulator and insulator–insulator switching in nanoscale and Al doped VO2
  48. Nanoporous plasmonic coatings
  49. Optical and electrical switching in nanostructured coatings of VO 2
  50. Front Matter: Volume 6647
  51. Simplified BRDF of a Non-Lambertian Diffuse Surface
  52. Bulk and surface plasmons in highly nanoporous gold films
  53. Mesoporous gold sponge as a prototype ‘metamaterial’
  54. Homogenized Lorentz–Drude optical response in highly nanoporous conducting gold layers produced by de-alloying
  55. Metal-insulator nanocomposites which act optically like homogeneous conductors
  56. Nanograin VO2 in the metal phase: a plasmonic system with falling dc resistivity as temperature rises
  57. Lighting simulations using smoothed LED profiles compared with measured profiles
  58. Monte Carlo ray-tracing in particle-doped light guides
  59. Nanoscale coatings of AuAlx and PtAlx and their mesoporous elemental derivatives
  60. Tuning plasma frequency for improved solar control glazing using mesoporous nanostructures
  61. Hotspots in cylindrical mirror light pipes: description and removal
  62. Optical properties and applications to production of plasmonic thin film nanostructures of self-ordered columnar alumina arrays on glass
  63. Effective optical constants of nanostructured thin silver films and impact of an insulator coating
  64. Evaluation of the limits of resonance tunability in metallic nanoshells with a spectral averaging method
  65. Tuning the surface-plasmon resonance in nanoparticles for glazing applications
  66. Optical properties of mesoporous gold films
  67. Directional and angle-resolved optical scattering of high-performance translucent polymer sheets for energy-efficient lighting and skylights
  68. Plasmonic heating of gold nanoparticles and its exploitation
  69. Internal Electric Field Densities of Metal Nanoshells
  70. Optical response in nanostructured thin metal films with dielectric over-layers
  71. Uniform white light distribution with low loss from colored LEDs using polymer-doped polymer mixing rods
  72. Angle-dependent light scattering in materials with controlled diffuse solar optical properties
  73. Experimental and Monte Carlo analysis of isotropic multiple Mie scattering
  74. Materials and systems for efficient lighting and delivery of daylight
  75. Optimisation of a three-colour luminescent solar concentrator daylighting system
  76. Field profiles for spherical conductive nanoparticles and metallic-shell/dielectric-core nanocomposites
  77. Optical response of nanostructured metal/dielectric composites and multilayers
  78. Energy-efficient coatings in the NanohouseTM Initiative
  79. Double Effective Medium Model for the Optical Properties of Self-Assembled Gold Nanoparticle Films Cross-Linked with Alkane Dithiols
  80. Colour mixing LEDs with short microsphere doped acrylic rods
  81. Maximising the light output of a Luminescent Solar Concentrator
  82. Light trapping in translucent samples and its effect on the hemispherical transmittance obtained by an integrating sphere
  83. Optical properties of dense self-assembled gold nanoparticle layers with organic linker molecules
  84. Coloured paints based on coated flakes of metal as the pigment, for enhanced solar reflectance and cooler interiors: description and theory
  85. Coloured paints based on iron oxide and silicon oxide coated flakes of aluminium as the pigment, for energy efficient paint: optical and thermal experiments
  86. Dilute LaB6 nanoparticles in polymer as optimized clear solar control glazing
  87. Coupled multipolar interactions in clusters of nanoparticles with metal shells
  88. Nanostructured thin films: a critical review
  89. Novel high-performance scattering materials for use in energy-saving light fittings and skylights based on polymer pigmented with polymer
  90. Plasmon-mediated visible and near-infrared transmission through sub-30-nm holes in metal films: potential in solar energy applications
  91. Near infra-red radiation squeezing through 20 nm voids in obliquely deposited metal films
  92. A new type of TiN coating combining broad band visible transparency and solar control
  93. Optical characterisation of materials and systems for daylighting
  94. Plasma deposition of tribological and optical thin film materials with a filtered cathodic arc source
  95. Ellipsometric studies of nanocomposite cermets
  96. Normal mode analysis of optical polarisation response in nanocomposite particles
  97. Thin film angular selective glazing
  98. Large refractive index and interparticle-interaction-induced nonlinear modulation in densely doped composite materials
  99. The mechanical and structural properties of Ti films prepared by filtered arc deposition
  100. Spectral switching of the preferred transmission direction in absorbing anisotropic composites
  101. Vagov, Radchik, and Smith Reply
  102. New effective medium models and their applications
  103. The Polarisability of Cylinder Arrays in Two Dimensions
  104. Daylighting enhancement with light pipes coupled to laser-cut light-deflecting panels
  105. Optical properties of a pair of spheres: comparison of different theories
  106. Cylindrical mirror light pipes
  107. Polarization and resonant absorption in intersecting cylinders and spheres
  108. Optical response of arrays of spheres from the theory of hypercomplex variables
  109. Polarization of intersecting particles
  110. In situ deposition of high Tc materials using vacuum arc ablation with macroparticle filter
  111. The polarizability of chains of touching cylinder pairs
  112. Quasistatic optical response of pairs of touching spheres with arbitrary dielectric permeability
  113. Erratum: Quasistatic optical response of separate, touching, and intersecting cylinder pairs
  114. Quasistatic optical response of separate, touching, and intersecting cylinder pairs
  115. Cathodic arc ablation as a new method of high-Tc superconductor deposition
  116. Simple computer‐controlled potentiostat for the characterization of electrochromic films
  117. A model for the optical response of obliquely deposited thin films
  118. Cermets for angular selective transmittance
  119. Anomalous voltage-current characteristics in the sputtering of YBaCuO
  120. Useful angular selectivity in oblique columnar aluminum
  121. Aspects of annealing and free surface crystallization of YBCO thin films
  122. Spatial variations in the stoichiometry of sputtered YBaCuO thin films: theory and experiment
  123. Phase slippage in a magnetic field at intra- and intergranular Josephson junctions in high-Tc superconductors
  124. Angular Selective Window Coatings: Theory And Experiment
  125. Temperature, field and grain size dependence of flux pinning in high Tc superconductors
  126. Effective medium theory and angular dispersion of optical constants in films with oblique columnar structure
  127. High resolution studies of columnar growth in obliquely deposited metal films on glass
  128. Properties of powders deposited by silane/hydrogen and silane/methane plasmas
  129. Angular‐selective optical properties of Cr films made by oblique‐angle evaporation
  130. Optical properties of chemically ordereda‐Si1−xCx: H alloys
  131. Electron energy‐loss study of bonding in amorphous silicon‐carbon alloy films prepared with hydrogen dilution
  132. Electron-diffraction study of chemical ordering in glow-dischargea-Si1−xCx:H
  133. Photoresponse in amorphous semiconductors as dark conductivity varies
  134. Blood Flow Assessment With Magnetic Resonance Imaging
  135. Noble-metal-based transparent infrared-reflectors
  136. Steady-state photoconductivity in a-Si:H prepared by d.c. magnetron methods
  137. Analysis of carbon content and distribution in a-Si1−xCx:H films by resonant scattering
  138. Depth profiles of hydrogen and oxygen in hydrogenated amorphous silicon thin films
  139. Noble‐metal‐based transparent infrared reflectors: Experiments and theoretical analyses for very thin gold films
  140. Noble-metal-based transparent infrared-reflectors : Preparation and analysis of thin gold films.
  141. Very thin gold films produced with ion plating for improved transparent infrared reflectors
  142. DC magnetron glow discharge amorphous silicon
  143. An immersion coated molybdenum based selective absorber
  144. Depth profiles and microtopology
  145. Ranking solar absorber structural parameters in terms of impact on performance and stability
  146. An introduction and overview of two studies of substrate influence on selective absorber structure and stability
  147. The substrate impact on the structure and thermal stability of solar selective black chrome
  148. High Resolution Large Area Modular Array Of Reflectors (LAMAR) Wolter Type I X-Ray Telescope For Spacelab
  149. Surface composition of solar selective black chrome films as determined by SIMS
  150. High flux photochemical changes in Black Chrome solar absorbing coatings
  151. Photodesorption studies of CO and CO2 from the solar absorber black chrome
  152. Black chromium-molybdenum: A new stable solar absorber
  153. A new transient temperature emissometer
  154. Solar selective black cobalt: preparation, structure, and thermal stability
  155. The relative merits of black cobalt and black chrome as high temperature selective absorbers
  156. Refinement of solar absorbing black chrome microstructure and its relationship to optical degradation mechanisms
  157. The scope of effective medium theory for fine metal particle solar absorbers
  158. Calorimetric emissivities for solar-selective coatings on flat sheet
  159. The effect of a self consistent effective ambient temperature on collector efficiency parameters
  160. The unusual and useful optical properties of electrodeposited chrome-black films
  161. Dielectric constants for mixed media
  162. The critical concentration for magnetic order in solid solutions of UO2with Th02and Zr02
  163. Magnetization of nearly magnetic dilute alloys
  164. The high temperature properties of transition metal alloys