Recent developments in nanomaterial optical sensors

The application of nanomaterials in the field of optical sensors has become a new, growing area of interest in recent years. We review chemical sensors that apply the optical principles of nanomaterials to the determination of chemical and biochemical analytes. We mainly focus on the changes of spectral absorbance, photoluminescence (PL) and chemiluminescence (CL) phenomena induced by the interaction between nanomaterials and various analytes.

[1]  Yoshiyuki Sato,et al.  Optical humidity sensitivity of plasma-oxidized nickel oxide films , 1999 .

[2]  M. S. El-shall,et al.  SEMICONDUCTOR NANOPARTICLES IN CONTACT : QUENCHING OF THE PHOTOLUMINESCENCE FROM SILICON NANOCRYSTALS BY WO3 NANOPARTICLES SUSPENDED IN SOLUTION , 1998 .

[3]  N. Koshizaki,et al.  X-ray photoelectron spectroscopy characterization of CoO/SiO2 nanocomposites and their optical transmittance change by nitrogen oxide , 1997 .

[4]  Chad A. Mirkin,et al.  One-Pot Colorimetric Differentiation of Polynucleotides with Single Base Imperfections Using Gold Nanoparticle Probes , 1998 .

[5]  Overview of optical sensors using porphyrins , 2002 .

[6]  Michael J. Sailor,et al.  Polymer Replicas of Photonic Porous Silicon for Sensing and Drug Delivery Applications , 2003, Science.

[7]  J. Aylott Optical nanosensors--an enabling technology for intracellular measurements. , 2003, The Analyst.

[8]  Chao Zhang,et al.  Development of a chemiluminescence ethanol sensor based on nanosized ZrO2. , 2002, The Analyst.

[9]  G. Gauglitz,et al.  Direct monitoring of antigen-antibody interactions by spectral interferometry , 1992 .

[10]  Jae Hee Song,et al.  Quenching of Photoluminescence from Porous Silicon by Aromatic Molecules , 1997 .

[11]  Kaushik Patel,et al.  Q-CdS Photoluminescence Activation on Zn2+ and Cd2+ Salt Introduction , 2001 .

[12]  Horst Weller,et al.  Photochemistry of colloidal semiconductors. 20. Surface modification and stability of strong luminescing CdS particles , 1987 .

[13]  T. Vo‐Dinh Nanobiosensors: Probing the sanctuary of individual living cells , 2002, Journal of cellular biochemistry. Supplement.

[14]  Phan T. Tran,et al.  Use of Luminescent CdSe–ZnS Nanocrystal Bioconjugates in Quantum Dot‐Based Nanosensors , 2002 .

[15]  C. Mirkin,et al.  A gold nanoparticle/latex microsphere-based colorimetric oligonucleotide detection method , 2000 .

[16]  M. Haruta,et al.  Humidity-sensitive optical absorption of Co3O4 film , 1996 .

[17]  M. Sailor,et al.  Luminescent Color Image Generation on Porous Silicon , 1992, Science.

[18]  Lorenzo Pavesi,et al.  Monitoring penetration of ethanol in a porous silicon microcavity by photoluminescence interferometry , 2001 .

[19]  Michael J. Sailor,et al.  A Porous Silicon Optical Biosensor: Detection of Reversible Binding of IgG to a Protein A-Modified Surface , 1999 .

[20]  A. Bard,et al.  Chemiluminescence of Anodized and Etched Silicon: Evidence for a Luminescent Siloxene-Like Layer on Porous Silicon , 1992, Science.

[21]  Kong,et al.  Nanotube molecular wires as chemical sensors , 2000, Science.

[22]  Ashutosh Chilkoti,et al.  A colorimetric gold nanoparticle sensor to interrogate biomolecular interactions in real time on a surface. , 2002, Analytical chemistry.

[23]  Koh Utsunomiya,et al.  An adsorption-luminescent Al2O3 sheet for determining vapor of odor substances in air , 1993 .

[24]  Jinjun Shi,et al.  Nanosized SrCO3-based chemiluminescence sensor for ethanol , 2002 .

[25]  Diffusion of copper in porous silicon , 1995 .

[26]  H. Lawless Oral chemical irritation: psychophysical properties , 1984 .

[27]  J. Storhoff,et al.  Selective colorimetric detection of polynucleotides based on the distance-dependent optical properties of gold nanoparticles. , 1997, Science.

[28]  Jinjun Shi,et al.  Development of a gas sensor utilizing chemiluminescence on nanosized titanium dioxide. , 2002, Analytical chemistry.

[29]  Koh Utsunomiya,et al.  An adsorption luminescence chemical sensor for the measurement of combustible gas mixtures. , 1990 .

[30]  O. Wolfbeis,et al.  Fluorescent Beads Coated with Polyaniline: A Novel Nanomaterial for Optical Sensing of pH , 2001 .

[31]  Naoto Koshizaki,et al.  Changes in optical property of ultrafine-particle-doped glass by gas atmosphere , 1992, Optics & Photonics.

[32]  Guo hong Liu,et al.  Chemiluminescence determination of chlorinated volatile organic compounds by conversion on nanometer TiO2. , 2002, Analytical chemistry.

[33]  Koh Utsunomiya,et al.  A new method for recognizing organic vapor by spectroscopic image on cataluminescence-based gas sensor , 1998 .

[34]  Masanori Ando,et al.  Optical hydrogen sensitivity of noble metal–tungsten oxide composite films prepared by sputtering deposition , 2001 .

[35]  Use of the silicon crystals photoluminescence to control immunocomplex formation , 1996 .

[36]  M. S. El-shall,et al.  Characterization of silicon nanocrystals and photoluminescence quenching in solution , 1999 .

[37]  M. Ghadiri,et al.  A porous silicon-based optical interferometric biosensor. , 1997, Science.

[38]  Koh Utsunomiya,et al.  Temperature-programmed chemiluminescence measurements for discrimination and determination of fragrance , 2001 .

[39]  N. Yamashita,et al.  High sensitive hydrocarbon gas sensor utilizing cataluminescence of γ-Al2O3 activated with Dy3+ , 2000 .

[40]  Jan Valenta,et al.  Determination of sensoric parameters of porous silicon in sensing of organic vapors , 2002 .

[41]  B. Claudel,et al.  Chemiluminescence as a means of revealing intermediate stages in adsorption and catalysis , 1978 .

[42]  Masanori Ando,et al.  Optical recognition of CO and H2 by use of gas-sensitiveAu–Co3O4 composite films , 1997 .

[43]  Effects of 9-cyanoanthracene and anthracene adsorption on the photoluminescence of porous silicon , 1998 .

[44]  Michael T. Kelly,et al.  Mechanisms of photoluminescent quenching of oxidized porous silicon applications to chemical sensing , 1998 .

[45]  Masuo Nakagawa,et al.  A new chemiluminescence-based sensor for discriminating and determining constituents in mixed gases , 1995 .

[46]  M. Nayfeh,et al.  Behavior of porous silicon emission spectra during quenching by immersion in metal ion solutions , 1994 .

[47]  Jun Gao,et al.  Vapor Sensors Based on Optical Interferometry from Oxidized Microporous Silicon Films , 2002 .

[48]  Yi Li,et al.  Nanoscale silicon microcavities for biosensing , 2001 .

[49]  Michael J. Sailor,et al.  Reversible luminescence quenching of porous silicon by solvents , 1992 .

[50]  Extremely sensitive optical sensing of ethanol using porous silicon , 2000 .

[51]  Alex V. Isarov and,et al.  Optical and Photochemical Properties of Nonstoichiometric Cadmium Sulfide Nanoparticles: Surface Modification with Copper(II) Ions , 1997 .

[52]  G. Meyer,et al.  Dynamic Quenching of Porous Silicon Photoluminescence by Anthracene and 10-Methylphenothiazine , 1995 .

[53]  C. Murphy Optical sensing with quantum dots. , 2002, Analytical chemistry.

[54]  C. Lieber,et al.  Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species , 2001, Science.

[55]  Nobuyoshi Koshida,et al.  Visible electroluminescence from porous silicon , 1992 .

[56]  Camilla Baratto,et al.  Fabrication and Characterization of a Sensing Device Based on Porous Silicon , 2000 .

[57]  D. L. Fisher,et al.  Energy Transfer Quenching of Porous Si Photoluminescence by Aromatic Molecules , 1995 .

[58]  T. Vo‐Dinh,et al.  Nanosensor for in vivo measurement of the carcinogen benzo[a]pyrene in a single cell. , 2002, Journal of nanoscience and nanotechnology.

[59]  Y. Amao,et al.  Optical oxygen sensor based on controlling the excimer formation of pyrene-1-butylic acid chemisorption layer onto nano-porous anodic oxidized aluminium plate by myristic acid , 2003 .

[60]  Michael J. Sailor,et al.  Photoluminescence Quenching and the Photochemical Oxidation of Porous Silicon by Molecular Oxygen , 1997 .

[61]  M. Sailor,et al.  Detection of nitric oxide and nitrogen dioxide with photoluminescent porous silicon. , 1996, Analytical chemistry.

[62]  Zettl,et al.  Extreme oxygen sensitivity of electronic properties of carbon nanotubes , 2000, Science.

[63]  M. Sailor,et al.  The Effects of Halogen Exposure on the Photoluminescence of Porous Silicon , 1993 .

[64]  M. Haruta,et al.  Enhancing effect of gold deposition in the optical detection of reducing gases in air by metal oxide thin films , 1993 .

[65]  M. Haruta,et al.  Optical CO detection by use of CuO/Au composite films , 1995 .

[66]  Ruoxue Yan,et al.  Determination of NH(3) gas by combination of nanosized LaCoO(3) converter with chemiluminescence detector. , 2003, Talanta.

[67]  L. Chau,et al.  Colloidal gold-modified optical fiber for chemical and biochemical sensing. , 2003, Analytical chemistry.

[68]  Jun Gao,et al.  Porous-silicon vapor sensor based on laser interferometry , 2000 .

[69]  M. Sailor,et al.  Detection of nitrobenzene, DNT, and TNT vapors by quenching of porous silicon photoluminescence , 2000, Chemistry.

[70]  Zeev Rosenzweig,et al.  Development of an aggregation-based immunoassay for anti-protein A using gold nanoparticles. , 2002, Analytical chemistry.

[71]  M. Nayfeh,et al.  Quenching of porous silicon photoluminescence by deposition of metal adsorbates , 1993 .

[72]  G. Di Francia,et al.  Sensitivity of Porous Silicon Photoluminescence to Low Concentrations of CH4 and CO , 2000 .

[73]  Jeffery L. Coffer,et al.  Steric Considerations in the Amine-Induced Quenching of Luminescent Porous Silicon , 1995 .

[74]  R. F. Pinizzotto,et al.  A Comparison of Porous Silicon and Silicon Nanocrystallite Photoluminescence Quenching with Amines , 1996 .

[75]  U. Kreibig,et al.  OPTICAL ABSORPTION OF SMALL METALLIC PARTICLES , 1985 .

[76]  M. Haruta,et al.  Enhancement in the optical CO sensitivity of NiO film by the deposition of ultrafine gold particles , 1994 .

[77]  G. Gauglitz,et al.  Observation of spectral interferences for the determination of volume and surface effects of thin films , 1991 .

[78]  A. Bocarsly,et al.  A silicon sensor for SO2 , 1996, Nature.

[79]  M. Sailor,et al.  Chemical Modification of the Photoluminescence Quenching of Porous Silicon , 1993, Science.

[80]  M. S. El-shall,et al.  Decay Dynamics and Quenching of Photoluminescence from Silicon Nanocrystals by Aromatic Nitro Compounds , 2001 .

[81]  N. Koshizaki,et al.  Mechanism of optical transmittance change by NOx in CoO/SiO2 nanocomposites films , 2000 .

[82]  Yanase Akihisa,et al.  In situ optical observation of oxygen-adsorption-induced reversible change in the shape of small supported silver particles , 1992 .

[83]  C. Mirkin,et al.  Homogeneous, Nanoparticle-Based Quantitative Colorimetric Detection of Oligonucleotides , 2000 .

[84]  Reversible Luminescence Quenching of Porous Si by Solvents , 1991 .

[85]  L. Faure,et al.  Chemiluminescence during the catalysis of carbon monoxide oxidation on a thoria surface , 1976 .

[86]  V. M. Starodub,et al.  Control of myoglobin level in a solution by an immune sensor based on the photoluminescence of porous silicon , 1999 .

[87]  J. Lakowicz,et al.  Time-resolved spectral observations of cadmium-enriched cadmium sulfide nanoparticles and the effects of DNA oligomer binding. , 2000, Analytical biochemistry.

[88]  L. Canham Silicon quantum wire array fabrication by electrochemical and chemical dissolution of wafers , 1990 .

[89]  G. Schatz,et al.  Discrete dipole approximation for calculating extinction and Raman intensities for small particles with arbitrary shapes , 1995 .

[90]  N. Koshizaki,et al.  Characterization of CoO-Doped SiO2 Nanocomposite Films and Their Optical Transmittance Change by Nitrogen Oxide , 1995 .

[91]  F. Favier,et al.  Hydrogen Sensors and Switches from Electrodeposited Palladium Mesowire Arrays , 2001, Science.

[92]  Andreas Janshoff,et al.  Macroporous p-Type Silicon Fabry−Perot Layers. Fabrication, Characterization, and Applications in Biosensing , 1998 .

[93]  P. Fauchet,et al.  Conduction and Valence Band Edges of Porous Silicon Determined by Electron Transfer , 1996 .