Aerosol-Assisted Deposition for TiO2 Immobilization on Photocatalytic Fibrous Filters for VOC Degradation

Atomization and spraying are well-established methods for the production of submicrometer- and micrometer- sized powders. In addition, they could be of interest to the immobilization of photocatalytic nanoparticles onto supports because they enable the formation of microporous films with photocatalytic activity. Here, we provide a comparison of aerosol-assisted immobilization methods, such as spray-drying (SD), spray atomization (SA), and spray gun (SG), which were used for the deposition of TiO2 dispersions onto fibrous filter media. The morphology, microstructure, and electronic properties of the structures with deposited TiO2 were characterized by SEM and TEM, BET and USAXS, and UV-Vis spectrometry, respectively. The photocatalytic performances of the functionalized filters were evaluated and compared to the benchmark dip-coating method. Our results showed that the SG and SA immobilization methods led to the best photocatalytic and operational performance for the degradation of toluene, whereas the SD method showed the lowest degradation efficiency and poor stability of coating. We demonstrated that TiO2 sprays using the SG and SA methods with direct deposition onto filter media involving dispersed colloidal droplets revealed to be promising alternatives to the dip-coating method owing to the ability to uniformly cover the filter fibers. In addition, the SA method allowed for fast and simple control of the coating thickness as the dispersed particles were continuously directed onto the filter media without the need for repetitive coatings, which is common for the SG and dip-coating methods. Our study highlighted the importance of the proper immobilization method for the efficient photocatalytic degradation of VOCs.

[1]  Ying Zhou,et al.  Photocatalytic reaction mechanisms at a gas–solid interface for typical air pollutant decomposition , 2021, Journal of Materials Chemistry A.

[2]  Yongcai Qiu,et al.  Recent Progress of Thermocatalytic and Photo/Thermocatalytic Oxidation for VOCs Purification over Manganese-based Oxide Catalysts. , 2021, Environmental science & technology.

[3]  Guohui Dong,et al.  Photocatalytic Reactive Oxygen Species Generation Activity of TiO2 Improved by The Modification of Persistent Free Radicals , 2021, Environmental Science: Nano.

[4]  A. Bonnin,et al.  Additive manufacturing of silica aerogels , 2020, Nature.

[5]  Xiaoming Peng,et al.  In situ growth of carbon nitride on titanium dioxide/hemp stem biochar toward 2D heterostructured photocatalysts for highly photocatalytic activity , 2020, Environmental Science and Pollution Research.

[6]  O. Crosby,et al.  nanotubes , 2020, Catalysis from A to Z.

[7]  Jianyong Yu,et al.  Study on the Moisture Absorption and Thermal Properties of Hygroscopic Exothermic Fibers and Related Interactions with Water Molecules , 2020, Polymers.

[8]  Kanak Roy,et al.  Disordered Adsorbed Water Layers on TiO2 Nanoparticles Under Subsaturated Humidity Conditions at 235 K. , 2019, The journal of physical chemistry letters.

[9]  W. Anderson,et al.  A review of the influence of humidity on photocatalytic decomposition of gaseous pollutants on TiO 2 ‐based catalysts , 2019, The Canadian Journal of Chemical Engineering.

[10]  Jianwu Sun,et al.  Enhancing Photocatalytic Activity of NO Removal through an In Situ Control of Oxygen Vacancies in Growth of TiO2 , 2019, Advanced Materials Interfaces.

[11]  M. Thommes,et al.  Preparation of spray dried submicron particles: Part A – Particle generation by aerosol conditioning , 2018, International journal of pharmaceutics.

[12]  A. Selloni,et al.  Defects, Adsorbates, and Photoactivity of Rutile TiO2 (110): Insight by First-Principles Calculations. , 2018, The journal of physical chemistry letters.

[13]  W. Cao,et al.  Modification to L-H Kinetics Model and Its Application in the Investigation on Photodegradation of Gaseous Benzene by Nitrogen-Doped TiO2 , 2018, Catalysts.

[14]  M. Knobel,et al.  Small-Angle X-Ray Scattering to Analyze the Morphological Properties of Nanoparticulated Systems , 2018 .

[15]  W. Choi,et al.  Dual-components modified TiO2 with Pt and fluoride as deactivation-resistant photocatalyst for the degradation of volatile organic compound , 2018 .

[16]  Vasile-Dan Hodoroaba,et al.  Influence of Agglomeration and Aggregation on the Photocatalytic Activity of TiO2 Nanoparticles , 2017 .

[17]  Chunying Chen,et al.  Effect of relative humidity on the deposition and coagulation of aerosolized SiO 2 nanoparticles , 2017 .

[18]  Chung-Yi Wu,et al.  Markedly Enhanced Surface Hydroxyl Groups of TiO2 Nanoparticles with Superior Water-Dispersibility for Photocatalysis , 2017, Materials.

[19]  M. Zerdaoui,et al.  Photocatalytic activities of TiO2 layers immobilized on glass substrates by dip-coating technique toward the decolorization of methyl orange as a model organic pollutant , 2017 .

[20]  Alireza Haghighat Mamaghani,et al.  Photocatalytic oxidation technology for indoor environment air purification: The state-of-the-art , 2017 .

[21]  I. Tranca,et al.  Role of Adsorbed Water on Charge Carrier Dynamics in Photoexcited TiO2 , 2017, The journal of physical chemistry. C, Nanomaterials and interfaces.

[22]  Richard Zepp,et al.  NanoRelease: Pilot interlaboratory comparison of a weathering protocol applied to resilient and labile polymers with and without embedded carbon nanotubes , 2017, Carbon.

[23]  Wei Zhou,et al.  Insight into the electronic and magnetic properties of TiO2 (1 0 1) surfaces with adsorbed water and ethanol molecules , 2016 .

[24]  Shun-cheng Lee,et al.  Removal of Indoor Volatile Organic Compounds via Photocatalytic Oxidation: A Short Review and Prospect , 2016, Molecules.

[25]  A. Kwade,et al.  Influence of TiO2 agglomerate and aggregate sizes on photocatalytic activity , 2016, Journal of Materials Science.

[26]  S. Triwahyono,et al.  New insights into self-modification of mesoporous titania nanoparticles for enhanced photoactivity: effect of microwave power density on formation of oxygen vacancies and Ti3+ defects , 2015 .

[27]  F. Sirotti,et al.  Water adsorption on TiO2 surfaces probed by soft X-ray spectroscopies: bulk materials vs. isolated nanoparticles , 2015, Scientific Reports.

[28]  G. Han,et al.  Effects of pore size on the photocatalytic activity of mesoporous TiO2 prepared by a sol–gel process , 2015, Journal of Sol-Gel Science and Technology.

[29]  E. Mäder,et al.  Controlled synthesis of hierarchical TiO2 nanoparticles on glass fibres and their photocatalytic performance. , 2014, Dalton transactions.

[30]  A. Naldoni,et al.  Photocatalytic degradation of acetone, acetaldehyde and toluene in gas-phase: Comparison between nano and micro-sized TiO2 , 2014 .

[31]  M. Gardon,et al.  Milestones in Functional Titanium Dioxide Thermal Spray Coatings: A Review , 2014, Journal of Thermal Spray Technology.

[32]  Tao Li,et al.  Solvothermal synthesis of mesoporous TiO2: The effect of morphology, size and calcination progress on photocatalytic activity in the degradation of gaseous benzene , 2014 .

[33]  T. Lind,et al.  Break-Up and Bounce of TiO2 Agglomerates by Impaction , 2014 .

[34]  L. Palmisano,et al.  Influence of crystallinity and OH surface density on the photocatalytic activity of TiO2 powders , 2013 .

[35]  J. M. Coronado,et al.  Design of Advanced Photocatalytic Materials for Energy and Environmental Applications , 2013 .

[36]  Myung-Geun Jeong,et al.  Humidity effect on photocatalytic activity of TiO2 and regeneration of deactivated photocatalysts , 2013 .

[37]  V. Chang,et al.  Experimental study on visible-light induced photocatalytic oxidation of gaseous formaldehyde by polyester fiber supported photocatalysts , 2013 .

[38]  M. Rȩkas,et al.  Spectroscopic assessment of the role of hydrogen in surface defects, in the electronic structure and transport properties of TiO2, ZnO and SnO2 nanoparticles. , 2013, Physical chemistry chemical physics : PCCP.

[39]  Seungkwan Hong,et al.  Antibacterial and water purification activities of self-assembled honeycomb structure of aerosol deposited titania film. , 2012, Environmental science & technology.

[40]  M. Rȩkas,et al.  Effect of Nb doping on structural, optical and photocatalytic properties of flame-made TiO2 nanopowder , 2012, Environmental Science and Pollution Research.

[41]  Yong‐Mook Kang,et al.  Photocatalytic characteristics of immobilized SrBi2Nb2O9 film for degradation of organic pollutants , 2012 .

[42]  W. Skinner,et al.  Direct Measurement of van der Waals and Diffuse Double-Layer Forces between Titanium Dioxide Surfaces Produced by Atomic Layer Deposition , 2012 .

[43]  Pete R. Jemian,et al.  Ultra-Small-Angle X-ray Scattering Instrument at the Advanced Photon Source: History, Recent Development, and Current Status , 2012, Metallurgical and Materials Transactions A.

[44]  V. Chang,et al.  Preparation of TiO2-Coated Polyester Fiber Filter by Spray-Coating and Its Photocatalytic Degradation of Gaseous Formaldehyde , 2012 .

[45]  Do Yeon Kim,et al.  Optimization of supersonic nozzle flow for titanium dioxide thin-film coating by aerosol deposition , 2011 .

[46]  N. Locoge,et al.  Toluene photocatalytic oxidation at ppbv levels: Kinetic investigation and carbon balance determination , 2011 .

[47]  Anders Sandell,et al.  Mixed Dissociative and Molecular Water Adsorption on Anatase TiO2(101) , 2011 .

[48]  K. Okuyama,et al.  Formation of highly ordered nanostructures by drying micrometer colloidal droplets. , 2010, ACS nano.

[49]  D. Pui,et al.  Integrated photocatalytic filtration array for indoor air quality control. , 2010, Environmental science & technology.

[50]  N. Veronovski,et al.  Stable TiO2 dispersions for nanocoating preparation , 2010 .

[51]  Pete R. Jemian,et al.  Irena: tool suite for modeling and analysis of small‐angle scattering , 2009 .

[52]  S. F. D’souza,et al.  Evaporation driven self-assembly of a colloidal dispersion during spray drying: volume fraction dependent morphological transition. , 2009, Langmuir : the ACS journal of surfaces and colloids.

[53]  Mohamad Sleiman,et al.  Photocatalytic oxidation of toluene at indoor air levels (ppbv): Towards a better assessment of conversion, reaction intermediates and mineralization , 2009 .

[54]  Anders Sandell,et al.  Water Dissociation on Single Crystalline Anatase TiO2(001) Studied by Photoelectron Spectroscopy , 2008 .

[55]  Jing Wang,et al.  Figure of Merit of Composite Filters with Micrometer and Nanometer Fibers , 2008 .

[56]  D. Wolbert,et al.  Gas phase photocatalysis and liquid phase photocatalysis: Interdependence and influence of substrate concentration and photon flow on degradation reaction kinetics , 2008 .

[57]  Ming Liu,et al.  Review of research on air-conditioning systems and indoor air quality control for human health , 2007 .

[58]  I. Bertóti,et al.  Surface and bulk composition, structure, and photocatalytic activity of phosphate-modified TiO2 , 2007 .

[59]  C. Domain,et al.  Combined investigation of water sorption on TiO2 rutile (110) single crystal face: XPS vs. periodic DFT , 2007 .

[60]  C. Ni,et al.  Size dependency of nanocrystalline TiO2 on its optical property and photocatalytic reactivity exemplified by 2-chlorophenol , 2006 .

[61]  Shinhao Yang,et al.  Effectiveness of Photocatalytic Filter for Removing Volatile Organic Compounds in the Heating, Ventilation, and Air Conditioning System , 2006, Journal of the Air & Waste Management Association.

[62]  K. Okuyama,et al.  Dispersion and aggregation of nanoparticles derived from colloidal droplets under low-pressure conditions. , 2005, Journal of colloid and interface science.

[63]  Z. Lian,et al.  Kinetic analysis of photocatalytic oxidation of gas-phase formaldehyde over titanium dioxide. , 2005, Chemosphere.

[64]  K. Sing,et al.  Physisorption Hysteresis Loops and the Characterization of Nanoporous Materials , 2004 .

[65]  Artur Braun,et al.  Size-range analysis of diesel soot with ultra-small angle X-ray scattering , 2004 .

[66]  Gianmario Martra,et al.  Photocatalytic oxidation of toluene on irradiated TiO2: comparison of degradation performance in humidified air, in water and in water containing a zwitterionic surfactant , 2003 .

[67]  M. Zorn,et al.  Photocatalytic oxidation of ketones in the gas phase over TiO2 thin films: a kinetic study on the influence of water vapor , 2003 .

[68]  Antonio F. Miguel,et al.  Effect of air humidity on the evolution of permeability and performance of a fibrous filter during loading with hygroscopic and non-hygroscopic particles , 2003 .

[69]  Xudong Yang,et al.  Photocatalytic oxidation for indoor air purification: a literature review , 2003 .

[70]  I. Kornhauser,et al.  On comparing BJH and NLDFT pore-size distributions determined from N2 sorption on SBA-15 substrata , 2003 .

[71]  G. Kasper,et al.  Impact fragmentation of nanoparticle agglomerates , 2003 .

[72]  Frank E. Osterloh,et al.  Heterogeneous Photocatalysis , 2021 .

[73]  Andrew P. Jones,et al.  Indoor air quality and health , 1999 .

[74]  J. Herrmann,et al.  Heterogeneous photocatalysis: fundamentals and applications to the removal of various types of aqueous pollutants , 1999 .

[75]  Sotiris E. Pratsinis,et al.  Fractal Analysis of Flame-Synthesized Nanostructured Silica and Titania Powders Using Small-Angle X-ray Scattering , 1998 .

[76]  A. Neimark,et al.  Density functional theory model for calculating pore size distributions: pore structure of nanoporous catalysts , 1998 .

[77]  H. Amenitsch,et al.  Small-angle X-ray scattering studies of nanophase TiO2 thin films , 1998 .

[78]  G. Beaucage,et al.  Persistence Length of Isotactic Poly(hydroxy butyrate) , 1997 .

[79]  Michael A. Henderson,et al.  Structural Sensitivity in the Dissociation of Water on TiO2 Single-Crystal Surfaces , 1996 .

[80]  D. Blake,et al.  Heterogeneous Photocatalysis for Control of Volatile Organic Compounds in Indoor Air. , 1996, Journal of the Air & Waste Management Association.

[81]  G. Beaucage Small-Angle Scattering from Polymeric Mass Fractals of Arbitrary Mass-Fractal Dimension , 1996 .

[82]  Gregory Beaucage,et al.  Approximations Leading to a Unified Exponential/Power-Law Approach to Small-Angle Scattering , 1995 .

[83]  Stephen K. Brown,et al.  Concentrations of Volatile Organic Compounds in Indoor Air – A Review , 1994 .

[84]  Pete R. Jemian,et al.  Characterization of 9Cr-1MoVNb steel by anomalous small-angle X-ray scattering , 1991 .

[85]  A. Lefebvre Atomization and Sprays , 1988 .

[86]  C A Pickering,et al.  The sick building syndrome: prevalence studies. , 1984, British medical journal.