[Skip to Content]
 
 
  • Departments
  • Quick Links
  • A-Z
 
  •  
  • My Account
  • Profiles
  • Webmail
  • About Us

    About Us

      1. About CU
      2. Mission
      3. Our Core Values
      4. Our History
      5. Inside Covenant
      6. Focus
      7. The Chancellor
      8. The Vice Chancellor
      9. The Deputy Vice Chancellor
      10. The Registrar
      1. Chaplaincy
      2. Academic Affairs Office
      3. Centre for Systems and Information Services (CSIS)
      4. Media and Corporate Affairs Directorate
      5. Unique Programmes
      6. Student Affairs
      7. Campus Security
      8. Financial Services
      9. Community Impact
      10. Academic Planning
      1. Counselling Centre
      2. Covenant University Medical Centre
      3. Centre for Entrepreneurial Development Studies
      4. International Office and Linkages
  • Admissions

    Admissions

      1. Undergraduate Admission
      2. Postgraduate Admission
      3. Foreign Students Admission
  • Colleges

    Colleges

      1. College of Business and Social Sciences
      2. College of Engineering
      3. College of Leadership Development Studies
      4. College of Science and Technology
      5. School of Postgraduate Studies
  • Library
  • News
  • Publications
  • Research
  • Covenant Journals
  • Academic Calendar
  • Covenant OER
An Enhanced Mangiferaindica For Dye Sensitized Solar Cell Application
  • Home
  • »
  • Profiles
  • »
  • Emetere Moses
  • »
  • An Enhanced Mangiferaindica For Dye Sensitized Solar Cell Appl...

An Enhanced Mangiferaindica For Dye Sensitized Solar Cell Application

Titanium dioxide (T1O2) is preferred to Zinc oxide as mesoporous oxide layer because it raised the efficiency of DSSCs from 1% to 7%. The chemistry of the process however seem rigorous to allow the light induced electron injection from the adsorbed dye into the nanocrystallites i.e. which renders the TiO2 conductive. The DSSC fabricated consist of 2.25 cm2 active area of titanium dioxide coated...
 
Published at AIP conference proceedings
Published in 2015
 
Download 20.55 kB
 
 
 
Uno, U.E1, Emetere, M.E2, Fadipe, L.A. 3 & Oluranti Jonathan4
Emetere Moses » Emetere, Moses Eterigho is a seasoned researcher. He was awarded the prestigious African Union (AU) & The World Academic of Science (TWAS) award for his numerous research accomplishments- 2015 AU/TWAS Young Scientist National Award. He has published over one hundred and fifty peered reviewed papers and textbooks. His research work has attracted international collaboration from Malaysia,... view full profile
Emetere Moses
 
Other publications by this author (view profile)
 
 
Mean-Field Analysis Of The Layering Transitions Of The Spin- 12 Ising Model In A Transverse Magnetic Field
 
Isotope Effect On Cuprates Component In Determining Experimental Critical Temperature
 
The Physics Of Remodeling The Transmitting Loop Antenna Using The Schrodinger-Maxwell Equation
 
Analysis Of The High Temperature Superconducting Magnetic Penetration Depth Using The Bloch NMR Equations
 
Simulated Analysis of soil heat flux using temperature deviation model
 
Simulated Analysis of Soil Heat Flux Using Temperature Deviation Model
 
Monitoring and Prediction of Earthquakes using Simulated Temperature Deviation Curve Model Model
 
Analysing the Impact of Soil Parameters on the Sensible Heat Flux Using Simulated Temperature Curve Model
 
On the Effect Of Electron-Hole Recombination In Disordered GaAs-AA1-XAlAs Multi-quantum Well Structure
 
Mathematical Modeling of Bloch NMR to Explain the Rashba Energy Features
 
Mathematical Modeling of Bloch NMR to Solve the Schrodinger Time Dependent Equation
 
Modeling the Non-Single Exponential photoluminescence Decay Using the Boubaker Polynomial Expansion Scheme
 
Quantum Information Technology Based On Magnetic Excitation Of Single Spin Dynamics
 
Parametric Analysis Of Ground Temperature Profile In Bwari-North Central Nigeria
 
Modeling Of Generic Air Pollution Dispersion Analysis From Cement Factory
 
Determination of Characteristic Relaxation Times And Their Significance In Copper Oxide Thin Film
 
Modeling Of Particulate Radionuclide Dispersion And Deposition From A Cement Factory
 
Profiling Laser Induced Temperature Fields for Superconducting Materials Using Mathematical Experimentation.
 
Theoretical Forecast of the Health Implications of Citing Nuclear Power Plant in Nigeria
 
Lightning Threat Forecast Simulation Using the Schrodinger-Electrostatic Algorithm.
 
Lightning a Fundamental in Atmospheric Electricity
 
Presence Of Pseudo-Path In The Inter-Plane Penetration Depth Of Layered YBa2Cu3Oy
 
Effects of Tunable Bloch Inspired Spin Orbit Interaction in the Electronic State Of Sr2RuO4
 
Crystalline Grain Size Effects On The Conductivity Of The Doped Tin Dioxide (SnO2) With Zinc (Zn)
 
Femtosecond Spin Dynamics Mechanism Probed By the Bloch NMR -Schrödinger Mainframe
 
Modeling The Stress Complexities Of Teaching And Learning Of School Physics In Nigeria
 
Magnetically Controlled Quantum Teleportation of Multiple Arbitrary States Using The Bloch Catalyst
 
Evidence Of Positional Doping Effects On The Optical Properties Of Doped Tin Dioxide (SnO2) With Zinc (Zn).
 
Forecasting Hydrological Disaster Using Environmental Thermographic Modeling
 
Characteristic Significance of Magnetic Relaxations on Copper Oxide Thin Film Using the Bloch NMR
 
Modeling the Behavioral Complexities towards the Teaching and Learning of School Physics
 
A Remodeled Stretched Exponential – Decay Formula for complex systems
 
Volcanic Eruption Trends in the Five-Years Pre-Eruption Era
 
Magnetic Field Effect on the Electronic Structure of Doped GaAs Quantum Well and Superlattices
 
Investigations of the Sheath Effect on the Resultant Magnetic Field of a Cylindrical Monopole Plasma Antenna
 
On the Determination of Agricultural Prospects Using Remote Sensing and Field Technique
 
Theoretical Design of Lightning Panel
 
A Novel Technique for Estimating Aerosol Optical Thickness Trends Using Meteorological Parameters
 
Mathematical Investigations of Gas Flare Constituents in Oil Producing Regions of Malaysia
 
A Mathematical Model for Improving the Mechanism of Satellite Antenna
 
Modeling of Magnetic Loop Antenna for an Improved Rockets/Spacecraft Communication Operation
 
First Kind Plume Analysis of Volcanic Blast: Application of an Indigenous Model
 
The Physics of the Shealth Effects in Monopole Plasma Antenna or Helix Plasma Antenna
 
Computational Analysis of Aerosol Dispersion Trends From Cement Factory
 
A Tropical Model for Analyzing Radio Refractivity: Selected Locations in North Central, Nigeria
 
A Model for Resolving Flow Parameters for MRI- Neuroimaging Application
 
Parametric retrieval model for estimating aerosol size distribution via the AERONET, LAGOS station
 
Prospects of Solar Energy in the Coastal Areas of Nigeria
 
Theoretical Aid for Improving Measuring Instruments Efficiency within the Meteorological Space of Lagos-Nigeria
 
A Review On The Comparative Roles Of Mathematical Softwares
 
Effects of Band Superposition on the Satellite Imagery of Aerosol Optical Depth over West Africa
 
A New Electromagnetic Codes Design for a Functional Antenna Technology
 
Application Of Unified Number To Temperature Profiles Of Pipe Walls And Fluids Using Mathematical Experimentation
 
Improving the Transmitting Loop Antenna: An Applied Model to Satellite Technology
 
Weather Effect on Photovoltaic Module Adaptation in Coastal Areas
 
Computerized Modeling of Aerosol Effects on the Thermal Comfort in the Urban Climate of Ilorin-Nigeria
 
Natural Approach towards Mitigating Noise Pollution: A Case Study of Covenant University
 
Analysis of Noise Pollution in Selected Areas of Ota, Nigeria,
 
Mathematical projections of air pollutants effects over Niger Delta region using remotely sensed satellite data
 
Statistical Analysis of the Thermal Comfort In The Urban Climate Of Ilorin-Nigeria: A Three Decade Event
 
Analytical solutions of a three dimensional time-dependent Schrodinger equation using the Bloch NMR approach for NMR studies
 
Parametric Investigation Of Soil Susceptibility To Compaction Using Temperature Deviation Curves
 
A Model for Analyzing Temperature Profiles in Pipe Walls and Fluids Using Mathematical Experimentation
 
Fast Fourier Computational Analysis of the Optical Properties of Lead Sulphide Thin Film
 
Fast Fourier Computational Analysis of the Optical Properties of Lead Sulphide Thin Film
 
Theoretical Study of Sand Entrainment and Deposits in Horizontal Oil Transport
  • ©2018 Covenant University | Sitemap | Contact Us
    •  
    •  
    •  
    •  
    •  
    •  
    •