All Stories

  1. Electrochemical CO2 reduction on few-atomic-layer bismuth nanosheets

    Article • Materials Today Physics, June 2023, Elsevier

    Dr Mingkui Wang

  2. Confinement of SnCuxO2+x Nanoclusters in Zeolites for High‐Efficient Electrochemical Carbon Dioxide Reduction

    Article • Advanced Energy Materials, May 2023, Wiley

    Dr Mingkui Wang

  3. Single‐Crystal Nanowire Cesium Tin Triiodide Perovskite Solar Cell

    Article • Small, March 2023, Wiley

    Dr Mingkui Wang

  4. Achieving High Responsivity and Detectivity in a Quantum-Dot-in-Perovskite Photodetector

    Article • Nano Letters, February 2023, American Chemical Society (ACS)

    Dr Mingkui Wang

  5. Hydrophobic polymer interlayer for highly efficient and stable perovskite solar cells

    Article • Chemical Engineering Journal, February 2023, Elsevier

    Dr Mingkui Wang

  6. Stitching Perovskite Grains with Perhydropoly(Silazane) Anti‐Template‐Agent for High‐Efficiency and Stable Solar Cells Fabricated in Ambient Air

    Article • Energy & Environmental Materials, January 2023, Wiley

    Dr Mingkui Wang

  7. A residual strain regulation strategy based on quantum dots for efficient perovskite solar cells

    Article • Journal of Materials Chemistry A, January 2023, Royal Society of Chemistry

    Dr Mingkui Wang

  8. A single crystal derived precursor for improving the performance of CsSnI3 perovskite solar cells

    Article • Journal of Materials Chemistry A, January 2023, Royal Society of Chemistry

    Dr Mingkui Wang

  9. Molecular interaction modulating Ruddlesden–Popper tin-based perovskite crystallization

    Article • Journal of Materials Chemistry A, January 2023, Royal Society of Chemistry

    Dr Mingkui Wang

  10. Organic iodides in efficient and stable perovskite solar cells: strong surface passivation and interaction

    Article • Energy & Environmental Science, January 2023, Royal Society of Chemistry

    Dr Mingkui Wang

  11. Fabrication of High‐Quality CsPbI3 Perovskite Films with Phosphorus Pentachloride Additive for Highly Stable Solar Cells

    Article • ChemSusChem, December 2022, Wiley

    Dr Mingkui Wang

  12. Efficient and Stable Mesoporous CsSnI3 Perovskite Solar Cells via Imidazolium‐Based Ionic Liquid Additive

    Article • Solar RRL, November 2022, Wiley

    Dr Mingkui Wang

  13. Integrated 4-Terminal All-Inorganic Perovskite Tandem Solar Cell with Open-Circuit Voltage Exceeding 2.1 V for Water Splitting

    Article • ACS Energy Letters, October 2022, American Chemical Society (ACS)

    Dr Mingkui Wang

  14. A multifunctional subassembly of carbon nanotube paper for stable lithium metal anodes

    Article • Materials Today Energy, October 2022, Elsevier

    Dr Mingkui Wang

  15. KTi8O16.5 Nanobelt Array with the Zero Strain Property for High-Performance Lithium-Ion Batteries with Enhanced Capacity and Rate Capability

    Article • ACS Applied Energy Materials, July 2022, American Chemical Society (ACS)

    Dr Mingkui Wang

  16. Constructing two-dimensional heterojunction through decorating covalent organic framework with MoS2 for enhanced photoelectrochemical water oxidation

    Article • Journal of Environmental Chemical Engineering, February 2022, Elsevier

    Dr Mingkui Wang

  17. Preventing inhomogeneous elemental distribution and phase segregation in mixed Pb-Sn inorganic perovskites via incorporating PbS quantum dots

    Article • Journal of Energy Chemistry, February 2022, Elsevier

    Dr Mingkui Wang

  18. A stable self-powered ultraviolet photodetector using CH3NH3PbCl3 with weak-light detection capacity under working conditions

    Article • Journal of Materials Chemistry C, January 2022, Royal Society of Chemistry

    Dr Mingkui Wang

  19. Achieving efficient and stable inorganic CsSnI3 mesoporous perovskite solar cells via galvanic displacement reaction

    Article • Journal of Materials Chemistry A, January 2022, Royal Society of Chemistry

    Dr Mingkui Wang

  20. CoTe2–NiTe2 heterojunction directly grown on CoNi alloy foam for efficient oxygen evolution reaction

    Article • Inorganic Chemistry Frontiers, January 2022, Royal Society of Chemistry

    Dr Mingkui Wang

  21. Heterointerface engineering of tetragonal CsPbCl3 based ultraviolet photodetectors with pentacene for enhancing the photoelectric performance

    Article • Journal of Materials Chemistry C, January 2022, Royal Society of Chemistry

    Dr Mingkui Wang

  22. Over 8% efficient CsSnI3-based mesoporous perovskite solar cells enabled by two-step thermal annealing and surface cationic coordination dual treatment

    Article • Journal of Materials Chemistry A, January 2022, Royal Society of Chemistry

    Dr Mingkui Wang

  23. Recent progress in inorganic tin perovskite solar cells

    Article • Materials Today Energy, January 2022, Elsevier

    Dr Mingkui Wang

  24. Two-dimensional hetero-nanostructured electrocatalyst of Ni/NiFe-layered double oxide for highly efficient hydrogen evolution reaction in alkaline medium

    Article • Chemical Engineering Journal, December 2021, Elsevier

    Dr Mingkui Wang

  25. Controlling Quantum-Well Width Distribution and Crystal Orientation in Two-Dimensional Tin Halide Perovskites via a Strong Interlayer Electrostatic Interaction

    Article • ACS Applied Materials & Interfaces, October 2021, American Chemical Society (ACS)

    Dr Mingkui Wang

  26. Effect of a Cocatalyst on a Photoanode in Water Splitting: A Study of Scanning Electrochemical Microscopy

    Article • Analytical Chemistry, August 2021, American Chemical Society (ACS)

    Dr Mingkui Wang

  27. Realizing Compact Lithium Deposition via Elaborative Nucleation and Growth Regulation for Stable Lithium-Metal Batteries

    Article • ACS Applied Materials & Interfaces, July 2021, American Chemical Society (ACS)

    Dr Mingkui Wang

  28. Fully Inorganic CsSnI 3 Mesoporous Perovskite Solar Cells with High Efficiency and Stability via Coadditive Engineering

    Article • Solar RRL, April 2021, Wiley

    Dr Mingkui Wang

  29. Interface engineering for high-efficiency perovskite solar cells

    Article • Journal of Applied Physics, April 2021, American Institute of Physics

    Dr Mingkui Wang

  30. Is the strain responsible to instability of inorganic perovskites and their photovoltaic devices?

    Article • Materials Today Energy, March 2021, Elsevier

    Dr Mingkui Wang

  31. Efficient Activation and Electroreduction of Carbon Dioxide on an Electrocatalyst Cadmium Carbonate

    Article • ACS Applied Energy Materials, February 2021, American Chemical Society (ACS)

    Dr Mingkui Wang

  32. Minimizing energy loss in two-dimensional tin halide perovskite solar cells—A perspective

    Article • APL Materials, February 2021, American Institute of Physics

    Dr Mingkui Wang

  33. Efficient and Stable Large-Area Perovskite Solar Cells with Inorganic Perovskite/Carbon Quantum Dot-Graded Heterojunction

    Article • Research, January 2021, American Association for the Advancement of Science

    Dr Mingkui Wang

  34. Modulated growth of high-quality CsPbI3perovskite film using a molybdenum modified SnO2layer for highly efficient solar cells

    Article • Journal of Materials Chemistry A, January 2021, Royal Society of Chemistry

    Dr Mingkui Wang

  35. 2D Materials as Electron Transport Layer for Low‐Temperature Solution‐Processed Perovskite Solar Cells

    Article • Solar RRL, December 2020, Wiley

    Dr Mingkui Wang

  36. Interfacial engineering of bismuth with reduced graphene oxide hybrid for improving CO2 electroreduction performance

    Article • Electrochimica Acta, October 2020, Elsevier

    Dr Mingkui Wang

  37. Stable and efficient full-printable solar cells using inorganic metal oxide framework and inorganic perovskites

    Article • Applied Materials Today, September 2020, Elsevier

    Dr Mingkui Wang

  38. AgBi3I10 rudorffite for photovoltaic application

    Article • Solar Energy, August 2020, Elsevier

    Dr Mingkui Wang

  39. Sn/Pb binary metal inorganic perovskite: a true material worthy of trust for efficient and stable photovoltaic application

    Article • Science Bulletin, August 2020, Elsevier

    Dr Mingkui Wang

  40. Surfactant-Modified Hydrothermal Synthesis of Ca-Doped CuCoO2 Nanosheets with Abundant Active Sites for Enhanced Electrocatalytic Oxygen Evolution

    Article • Inorganic Chemistry, July 2020, American Chemical Society (ACS)

    Dr Mingkui Wang

  41. Nanostructured Ni2SeS on Porous-Carbon Skeletons as Highly Efficient Electrocatalyst for Hydrogen Evolution in Acidic Medium

    Article • Inorganic Chemistry, April 2020, American Chemical Society (ACS)

    Dr Mingkui Wang

  42. Black phosphorus quantum dots in inorganic perovskite thin films for efficient photovoltaic application

    Article • Science Advances, April 2020, American Association for the Advancement of Science

    Dr Mingkui Wang

  43. Investigation on In–TiO2 composites as highly efficient elecctrocatalyst for CO2 reduction

    Article • Electrochimica Acta, April 2020, Elsevier

    Dr Mingkui Wang

  44. Advances in nanostructured homojunction solar cells and photovoltaic materials

    Article • Materials Science in Semiconductor Processing, March 2020, Elsevier

    Dr Mingkui Wang

  45. Bismuth selenide nanocrystalline array electrodes for high-performance sodium-ion batteries

    Article • Applied Materials Today, March 2020, Elsevier

    Dr Mingkui Wang

  46. In Situ Growth of Ru Nanoparticles on (Fe,Ni)(OH) 2 to Boost Hydrogen Evolution Activity at High Current Density in Alkaline Media

    Article • Small Methods, January 2020, Wiley

    Dr Mingkui Wang

  47. Advances in design engineering and merits of electron transporting layers in perovskite solar cells

    Article • Materials Horizons, January 2020, Royal Society of Chemistry

    Dr Mingkui Wang

  48. Controlling layered Ruddlesden–Popper perovskites via solvent additives

    Article • Nanoscale, January 2020, Royal Society of Chemistry

    Dr Mingkui Wang

  49. Efficient CsSnI3-based inorganic perovskite solar cells based on a mesoscopic metal oxide framework via incorporating a donor element

    Article • Journal of Materials Chemistry A, January 2020, Royal Society of Chemistry

    Dr Mingkui Wang

  50. Effective Magnetic Field Regulation of the Radical Pair Spin States in Electrocatalytic CO2 Reduction

    Article • The Journal of Physical Chemistry Letters, December 2019, American Chemical Society (ACS)

    Dr Mingkui Wang

  51. Stabilization of Inorganic CsPb 0.5 Sn 0.5 I 2 Br Perovskite Compounds by Antioxidant Tea Polyphenol

    Article • Solar RRL, December 2019, Wiley

    Dr Mingkui Wang

  52. Stability Issue of Perovskite Solar Cells under Real‐World Operating Conditions

    Article • Energy Technology, December 2019, Wiley

    Dr Mingkui Wang

  53. A highly selective tin-copper bimetallic electrocatalyst for the electrochemical reduction of aqueous CO2 to formate

    Article • Applied Catalysis B Environment and Energy, December 2019, Elsevier

    Dr Mingkui Wang

  54. Interface engineering gifts CsPbI2.25Br0.75 solar cells high performance

    Article • Science Bulletin, December 2019, Elsevier

    Dr Mingkui Wang

  55. Red-emitting CsPbBrI2/PbSe heterojunction nanocrystals with high luminescent efficiency and stability for bright light-emitting diodes

    Article • Nano Energy, December 2019, Elsevier

    Dr Mingkui Wang

  56. Toward Phase Stability: Dion–Jacobson Layered Perovskite for Solar Cells

    Article • ACS Energy Letters, November 2019, American Chemical Society (ACS)

    Dr Mingkui Wang

  57. CsPb(I Br1−)3 solar cells

    Article • Science Bulletin, October 2019, Elsevier

    Dr Mingkui Wang

  58. Surface modification of NiCo2Te4 nanoclusters: a highly efficient electrocatalyst for overall water-splitting in neutral solution

    Article • Applied Catalysis B Environment and Energy, October 2019, Elsevier

    Dr Mingkui Wang

  59. High-rate and stable iron phosphide nanorods anode for sodium-ion battery

    Article • Electrochimica Acta, August 2019, Elsevier

    Dr Mingkui Wang

  60. Interconnected SnO 2 Nanocrystals Electron Transport Layer for Highly Efficient Flexible Perovskite Solar Cells

    Article • Solar RRL, July 2019, Wiley

    Dr Mingkui Wang

  61. Design strategies in metal chalcogenides anode materials for high-performance sodium-ion battery

    Article • Materials Today Energy, June 2019, Elsevier

    Dr Mingkui Wang

  62. Iron incorporation affecting the structure and boosting catalytic activity of Cox-Fey-P for efficient hydrogen evolution

    Article • Applied Surface Science, June 2019, Elsevier

    Dr Mingkui Wang

  63. Layered Ruddlesden–Popper Efficient Perovskite Solar Cells with Controlled Quantum and Dielectric Confinement Introduced via Doping

    Article • Advanced Functional Materials, May 2019, Wiley

    Dr Mingkui Wang

  64. Effect of the acceptor and alkyl length in benzotriazole-based donor-acceptor-donor type hole transport materials on the photovoltaic performance of PSCs

    Article • Dyes and Pigments, May 2019, Elsevier

    Dr Mingkui Wang

  65. Novel donor-acceptor-donor structured small molecular hole transporting materials for planar perovskite solar cells

    Article • Journal of Energy Chemistry, May 2019, Elsevier

    Dr Mingkui Wang

  66. Atomic-Scale Tailoring of Organic Cation of Layered Ruddlesden–Popper Perovskite Compounds

    Article • The Journal of Physical Chemistry Letters, April 2019, American Chemical Society (ACS)

    Dr Mingkui Wang

  67. Promises and challenges of alloy-type and conversion-type anode materials for sodium–ion batteries

    Article • Materials Today Energy, March 2019, Elsevier

    Dr Mingkui Wang

  68. Hybridizing NiCo2O4 and Amorphous NixCoy Layered Double Hydroxides with Remarkably Improved Activity toward Efficient Overall Water Splitting

    Article • ACS Sustainable Chemistry & Engineering, January 2019, American Chemical Society (ACS)

    Dr Mingkui Wang

  69. Highly Efficient Hydrogen Production Using a Reformed Electrolysis System Driven by a Single Perovskite Solar Cell

    Article • ChemSusChem, January 2019, Wiley

    Dr Mingkui Wang

  70. Graphene oxide wrapped CH3NH3PbBr3 perovskite quantum dots hybrid for photoelectrochemical CO2 reduction in organic solvents

    Article • Applied Surface Science, January 2019, Elsevier

    Dr Mingkui Wang

  71. Advances in designs and mechanisms of semiconducting metal oxide nanostructures for high-precision gas sensors operated at room temperature

    Article • Materials Horizons, January 2019, Royal Society of Chemistry

    Dr Mingkui Wang

  72. CsPbI2.69Br0.31 solar cells from low-temperature fabrication

    Article • Materials Chemistry Frontiers, January 2019, Royal Society of Chemistry

    Dr Mingkui Wang

  73. Will organic–inorganic hybrid halide lead perovskites be eliminated from optoelectronic applications?

    Article • Nanoscale Advances, January 2019, Royal Society of Chemistry

    Dr Mingkui Wang

  74. Low-Temperature Stable α-Phase Inorganic Perovskite Compounds via Crystal Cross-Linking

    Article • The Journal of Physical Chemistry Letters, December 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  75. 20% Efficient Perovskite Solar Cells with 2D Electron Transporting Layer

    Article • Advanced Functional Materials, December 2018, Wiley

    Dr Mingkui Wang

  76. High Efficiency Non-fullerene Organic Tandem Photovoltaics Based on Ternary Blend Subcells

    Article • Nano Letters, November 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  77. Push-Pull Zinc Porphyrins as Light-Harvesters for Efficient Dye-Sensitized Solar Cells

    Article • Frontiers in Chemistry, November 2018, Frontiers

    Dr Mingkui Wang

  78. Carbon–Oxygen‐Bridged Ladder‐Type Building Blocks for Highly Efficient Nonfullerene Acceptors

    Article • Advanced Materials, October 2018, Wiley

    Dr Mingkui Wang

  79. Highly Efficient Perovskite Solar Cells via Nickel Passivation

    Article • Advanced Functional Materials, October 2018, Wiley

    Dr Mingkui Wang

  80. Direct formation of I3- ions in organic cation solution for efficient perovskite solar cells

    Article • Solar Energy Materials and Solar Cells, October 2018, Elsevier

    Dr Mingkui Wang

  81. High Mobility Indium Oxide Electron Transport Layer for an Efficient Charge Extraction and Optimized Nanomorphology in Organic Photovoltaics

    Article • Nano Letters, August 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  82. Core-Shell Structured NiCo2 O4 @FeOOH Nanowire Arrays as Bifunctional Electrocatalysts for Efficient Overall Water Splitting

    Article • ChemCatChem, August 2018, Wiley

    Dr Mingkui Wang

  83. Large Magneto-Current Effect in the Electrochemical Detection of Oxalate in Aqueous Solution

    Article • The Journal of Physical Chemistry C, August 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  84. Phosphorus-doped TiO2-B nanowire arrays boosting robust pseudocapacitive properties for lithium storage

    Article • Journal of Power Sources, August 2018, Elsevier

    Dr Mingkui Wang

  85. Cation-Assisted Restraint of a Wide Quantum Well and Interfacial Charge Accumulation in Two-Dimensional Perovskites

    Article • ACS Energy Letters, July 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  86. Achieving ordered and stable binary metal perovskite via strain engineering

    Article • Nano Energy, June 2018, Elsevier

    Dr Mingkui Wang

  87. Investigation on Charge Carrier Recombination of Hybrid Organic-Inorganic Perovskites Doped with Aggregation-Induced Emission Luminogen under High Photon Flux Excitation

    Article • Advanced Optical Materials, May 2018, Wiley

    Dr Mingkui Wang

  88. Highly Efficient Perovskite Solar Cells with Gradient Bilayer Electron Transport Materials

    Article • Nano Letters, May 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  89. Efficient carbon dots/NiFe-layered double hydroxide/BiVO4 photoanodes for photoelectrochemical water splitting

    Article • Applied Surface Science, May 2018, Elsevier

    Dr Mingkui Wang

  90. Hierarchical MnO2 Located on Carbon Nanotubes for Enhanced Electrochemical Performance

    Article • ChemElectroChem, April 2018, Wiley

    Dr Mingkui Wang

  91. Efficient Planar Perovskite Solar Cells with Improved Fill Factor via Interface Engineering with Graphene

    Article • Nano Letters, March 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  92. Organic hole-transporting materials for efficient perovskite solar cells

    Article • Materials Today Energy, March 2018, Elsevier

    Dr Mingkui Wang

  93. Three-dimensional TiO2 nanowire@NiMoO4 ultrathin nanosheet core-shell arrays for lithium ion batteries

    Article • Applied Surface Science, March 2018, Elsevier

    Dr Mingkui Wang

  94. Enhancing photoelectrochemical water oxidation efficiency via self-catalyzed oxygen evolution: A case study on TiO2

    Article • Nano Energy, February 2018, Elsevier

    Dr Mingkui Wang

  95. Engineering NiS/Ni2P Heterostructures for Efficient Electrocatalytic Water Splitting

    Article • ACS Applied Materials & Interfaces, January 2018, American Chemical Society (ACS)

    Dr Mingkui Wang

  96. Electronic modulation of transition metal phosphideviadoping as efficient and pH-universal electrocatalysts for hydrogen evolution reaction

    Article • Chemical Science, January 2018, Royal Society of Chemistry

    Dr Mingkui Wang

  97. Sea coral-like NiCo2O4@(Ni, Co)OOH heterojunctions for enhancing overall water-splitting

    Article • Catalysis Science & Technology, January 2018, Royal Society of Chemistry

    Dr Mingkui Wang

  98. A New Method for Fitting Current–Voltage Curves of Planar Heterojunction Perovskite Solar Cells

    Article • Nano-Micro Letters, October 2017, Springer Science + Business Media

    Dr Mingkui Wang

  99. A Bifunctional Lewis Base Additive for Microscopic Homogeneity in Perovskite Solar Cells

    Article • Chem, August 2017, Elsevier

    Dr Mingkui Wang

  100. 17% efficient printable mesoscopic PIN metal oxide framework perovskite solar cells using cesium-containing triple cation perovskite

    Article • Journal of Materials Chemistry A, January 2017, Royal Society of Chemistry

    Dr Mingkui Wang

  101. Surface Plasmon Resonance Effect in Inverted Perovskite Solar Cells

    Article • Advanced Science, January 2016, Wiley

    Dr Mingkui Wang

  102. Modification on ITO to Fabricate Low Work Function Electrode in Inverted Organic Photovoltaics

    Article • Advanced Materials Research, February 2015, Trans Tech Publications

    Dr Mingkui Wang

  103. Hydrogen peroxide biosensor based on microperoxidase-11 immobilized on flexible MWCNTs-BC nanocomposite film

    Article • Talanta, January 2015, Elsevier

    Dr Mingkui Wang

  104. p-Type mesoscopic NiO as an active interfacial layer for carbon counter electrode based perovskite solar cells

    Article • Dalton Transactions, January 2015, Royal Society of Chemistry

    Professor Hongshan He, Dr Mingkui Wang

  105. Efficient mesoscopic perovskite solar cells based on the CH3NH3PbI2Br light absorber

    Article • Journal of Materials Chemistry A, January 2015, Royal Society of Chemistry

    Dr Mingkui Wang

  106. Photovoltaic behaviour of lead methylammonium triiodide perovskite solar cells down to 80 K

    Article • Journal of Materials Chemistry A, January 2015, Royal Society of Chemistry

    Dr Mingkui Wang

  107. Efficient dye-sensitized solar cells using mesoporous submicrometer TiO2 beads

    Article • RSC Advances, January 2015, Royal Society of Chemistry

    Dr Mingkui Wang

  108. Rutile-TiO2 decorated Li4Ti5O12 nanosheet arrays with 3D interconnected architecture as anodes for high performance hybrid supercapacitors

    Article • Journal of Materials Chemistry A, January 2015, Royal Society of Chemistry

    Dr Mingkui Wang

  109. Investigation of Regeneration Kinetics in Quantum-Dots-Sensitized Solar Cells with Scanning Electrochemical Microscopy

    Article • ACS Applied Materials & Interfaces, December 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  110. TiO 2 nanotubes modified with electrochemically reduced graphene oxide for photoelectrochemical water splitting

    Article • Carbon, December 2014, Elsevier

    Dr Mingkui Wang

  111. Freestanding bacterial cellulose–polypyrrole nanofibres paper electrodes for advanced energy storage devices

    Article • Nano Energy, October 2014, Elsevier

    Dr Mingkui Wang

  112. Lead Methylammonium Triiodide Perovskite‐Based Solar Cells: An Interfacial Charge‐Transfer Investigation

    Article • ChemSusChem, September 2014, Wiley

    Dr Mingkui Wang

  113. Mn3O4/Carbon Nanotube Nanocomposites as Electrocatalysts for the Oxygen Reduction Reaction in Alkaline Solution

    Article • ChemElectroChem, July 2014, Wiley

    Dr Mingkui Wang

  114. Esterification of Indoline-Based Small-Molecule Donors for Efficient Co-evaporated Organic Photovoltaics

    Article • The Journal of Physical Chemistry C, July 2014, American Chemical Society (ACS)

    Professor Xiao-Feng Wang, Dr Mingkui Wang

  115. Boosting the Photocurrent Density of p-Type Solar Cells Based on Organometal Halide Perovskite-Sensitized Mesoporous NiO Photocathodes

    Article • ACS Applied Materials & Interfaces, July 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  116. INVESTIGATION OF DYE-REGENERATION KINETICS AT DYE-SENSITIZED p-TYPE CuCrO2 FILM/ELECTROLYTES INTERFACE WITH SCANNING ELECTROCHEMICAL MICROSCOPY

    Article • NANO, July 2014, World Scientific Pub Co Pte Lt

    Dr Mingkui Wang

  117. Electrodes: Flexible Supercapacitors Based on Bacterial Cellulose Paper Electrodes (Adv. Energy Mater. 10/2014)

    Article • Advanced Energy Materials, July 2014, Wiley

    Dr Mingkui Wang

  118. D−π–A Porphyrin Sensitizers with π-Extended Conjugation for Mesoscopic Solar Cells

    Article • The Journal of Physical Chemistry C, June 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  119. Fine Tuning of Fluorene-Based Dye Structures for High-Efficiency p-Type Dye-Sensitized Solar Cells

    Article • ACS Applied Materials & Interfaces, June 2014, American Chemical Society (ACS)

    Dr Mingkui Wang, Professor Hongshan He

  120. A Comparative Study of Composition and Morphology Effect of NixCo1–x(OH)2 on Oxygen Evolution/Reduction Reaction

    Article • ACS Applied Materials & Interfaces, June 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  121. Active catalysts based on cobalt oxide@cobalt/N-C nanocomposites for oxygen reduction reaction in alkaline solutions

    Article • Nano Research, June 2014, Tsinghua University Press

    Dr Mingkui Wang

  122. Fabrication of Cobalt Porphyrin. Electrochemically Reduced Graphene Oxide Hybrid Films for Electrocatalytic Hydrogen Evolution in Aqueous Solution

    Article • Langmuir, June 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  123. Pt Catalyst Supported within TiO2 Mesoporous Films for Oxygen Reduction Reaction

    Article • Electrochimica Acta, June 2014, Elsevier

    Dr Mingkui Wang

  124. TiO2 Nanorods: A Facile Size- and Shape-Tunable Synthesis and Effective Improvement of Charge Collection Kinetics for Dye-Sensitized Solar Cells

    Article • ACS Applied Materials & Interfaces, May 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  125. Investigation of Dye Regeneration Kinetics in Sensitized Solar Cells by Scanning Electrochemical Microscopy

    Article • ChemPhysChem, April 2014, Wiley

    Dr Mingkui Wang

  126. Flexible Supercapacitors Based on Bacterial Cellulose Paper Electrodes

    Article • Advanced Energy Materials, March 2014, Wiley

    Dr Mingkui Wang

  127. Modulated Charge Injection in p-Type Dye-Sensitized Solar Cells Using Fluorene-Based Light Absorbers

    Article • ACS Applied Materials & Interfaces, February 2014, American Chemical Society (ACS)

    Dr Mingkui Wang, Professor Hongshan He

  128. Near Field Enhanced Photocurrent Generation in P-type Dye-Sensitized Solar Cells

    Article • Scientific Reports, February 2014, Springer Science + Business Media

    Dr Mingkui Wang

  129. Organic Sensitizers with Pyridine Ring Anchoring Group for p-Type Dye-Sensitized Solar Cells

    Article • The Journal of Physical Chemistry C, January 2014, American Chemical Society (ACS)

    Dr Mingkui Wang

  130. Remarkable photocurrent of p-type dye-sensitized solar cell achieved by size controlled CuGaO2 nanoplates

    Article • Journal of Materials Chemistry A, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang, Wei CHEN

  131. Highly efficient light harvesting ruthenium sensitizers for dye-sensitized solar cells featuring triphenylamine donor antennas

    Article • Journal of Materials Chemistry A, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang

  132. Selective laser sintering of TiO2 nanoparticle film on plastic conductive substrate for highly efficient flexible dye-sensitized solar cell application

    Article • Journal of Materials Chemistry A, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang

  133. Pyrene-conjugated porphyrins for efficient mesoscopic solar cells: the role of the spacer

    Article • Journal of Materials Chemistry A, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang

  134. Investigation of the regeneration kinetics of organic dyes with pyridine ring anchoring groups by scanning electrochemical microscopy

    Article • RSC Advances, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang

  135. Enhanced performance of p-type dye sensitized solar cells based on mesoporous Ni1−xMgxO ternary oxide films

    Article • RSC Advances, January 2014, Royal Society of Chemistry

    Wei CHEN, Dr Mingkui Wang

  136. A cyclopenta[1,2-b:5,4-b′]dithiophene–porphyrin conjugate for mesoscopic solar cells: a D–π–D–A approach

    Article • Physical Chemistry Chemical Physics, January 2014, Royal Society of Chemistry

    Dr Mingkui Wang

  137. Ionic Liquid–Sulfolane Composite Electrolytes for High‐Performance and Stable Dye‐Sensitized Solar Cells

    Article • Advanced Energy Materials, November 2013, Wiley

    Dr Mingkui Wang

  138. Preparation of hybrid films containing gold nanoparticles and cobalt porphyrin with flexible electrochemical properties

    Article • Thin Solid Films, October 2013, Elsevier

    Dr Mingkui Wang

  139. Recent developments in sensitizers for mesoporous sensitized solar cells

    Article • Frontiers of Optoelectronics, August 2013, Springer Science + Business Media

    Dr Mingkui Wang

  140. Enhanced Performance of p-Type Dye-Sensitized Solar Cells Based on Ultrasmall Mg-Doped CuCrO2Nanocrystals

    Article • ChemSusChem, June 2013, Wiley

    Dr Mingkui Wang

  141. Electrochemically Reduced Graphene Oxide Multilayer Films as Efficient Counter Electrode for Dye-Sensitized Solar Cells

    Article • Scientific Reports, March 2013, Springer Science + Business Media

    Dr Mingkui Wang

  142. Potassium‐Doped Zinc Oxide as Photocathode Material in Dye‐Sensitized Solar Cells

    Article • ChemSusChem, March 2013, Wiley

    Dr Mingkui Wang

  143. Low-cost porous Cu2ZnSnSe4 film remarkably superior to noble Pt as counter electrode in quantum dot-sensitized solar cell system

    Article • Journal of Power Sources, March 2013, Elsevier

    Dr Mingkui Wang

  144. Zinc Porphyrins with a Pyridine‐Ring‐Anchoring Group for Dye‐Sensitized Solar Cells

    Article • Chemistry - An Asian Journal, February 2013, Wiley

    Dr Mingkui Wang

  145. Simultaneous electrochemical determination of ascorbic acid, dopamine and uric acid with helical carbon nanotubes

    Article • Electrochimica Acta, February 2013, Elsevier

    Dr Mingkui Wang

  146. Efficient p-type dye-sensitized solar cells based on disulfide/thiolate electrolytes

    Article • Nanoscale, January 2013, Royal Society of Chemistry

    Dr Mingkui Wang, Wei CHEN

  147. D–π–A structured porphyrins for efficient dye-sensitized solar cells

    Article • Journal of Materials Chemistry A, January 2013, Royal Society of Chemistry

    Dr Mingkui Wang

  148. Electrochemically reduced graphene oxide multilayer films as metal-free electrocatalysts for oxygen reduction

    Article • Journal of Materials Chemistry A, January 2013, Royal Society of Chemistry

    Dr Mingkui Wang

  149. Effect of the molecular weight of poly(3-hexylthiophene) on the performance of solid-state dye-sensitized solar cells

    Article • RSC Advances, January 2013, Royal Society of Chemistry

    Dr Mingkui Wang

  150. Spray deposition of water-soluble multiwall carbon nanotube and Cu2ZnSnSe4 nanoparticle composites as highly efficient counter electrodes in a quantum dot-sensitized solar cell system

    Article • Nanoscale, January 2013, Royal Society of Chemistry

    Dr Mingkui Wang

  151. Electrochemically Deposited CoS Films as Counter Electrodes for Efficient Quantum Dot-Sensitized Solar Cells

    Article • Journal of The Electrochemical Society, January 2013, The Electrochemical Society

    Dr Mingkui Wang

  152. Disulfide/Thiolate Based Redox Shuttle for Dye-Sensitized Solar Cells: An Impedance Spectroscopy Study

    Article • The Journal of Physical Chemistry C, November 2012, American Chemical Society (ACS)

    Dr Mingkui Wang

  153. Alternate redox electrolytes in dye-sensitized solar cells

    Article • Chinese Science Bulletin, November 2012, Springer Science + Business Media

    Dr Mingkui Wang

  154. Solid-State Dye-Sensitized Solar Cells using Ordered TiO2 Nanorods on Transparent Conductive Oxide as Photoanodes

    Article • The Journal of Physical Chemistry C, January 2012, American Chemical Society (ACS)

    Dr Mingkui Wang

  155. Inside Cover: Molecular Engineering of Zinc Phthalocyanines with Phosphinic Acid Anchoring Groups (Angew. Chem. Int. Ed. 8/2012)

    Article • Angewandte Chemie International Edition, January 2012, Wiley

    Dr Mingkui Wang

  156. Innentitelbild: Molecular Engineering of Zinc Phthalocyanines with Phosphinic Acid Anchoring Groups (Angew. Chem. 8/2012)

    Article • Angewandte Chemie, January 2012, Wiley

    Dr Mingkui Wang

  157. Molecular‐Scale Interface Engineering of Nanocrystalline Titania by Co‐adsorbents for Solar Energy Conversion

    Article • ChemSusChem, January 2012, Wiley

    Dr Mingkui Wang

  158. Recent developments in redox electrolytes for dye-sensitized solar cells

    Article • Energy & Environmental Science, January 2012, Royal Society of Chemistry

    Dr Mingkui Wang

  159. Hydrothermal synthesis of ultrasmall CuCrO2 nanocrystal alternatives to NiO nanoparticles in efficient p-type dye-sensitized solar cells

    Article • Journal of Materials Chemistry, January 2012, Royal Society of Chemistry

    Dr Mingkui Wang

  160. Molecular Engineering of Zinc Phthalocyanines with Phosphinic Acid Anchoring Groups

    Article • Angewandte Chemie, November 2011, Wiley

    Dr Mingkui Wang

  161. Molecular Engineering of Zinc Phthalocyanines with Phosphinic Acid Anchoring Groups

    Article • Angewandte Chemie International Edition, November 2011, Wiley

    Dr Mingkui Wang

  162. A Thiophene‐Based Anchoring Ligand and Its Heteroleptic Ru(II)‐Complex for Efficient Thin‐Film Dye‐Sensitized Solar Cells

    Article • Advanced Functional Materials, January 2011, Wiley

    Dr Mingkui Wang

  163. High-performance dye-sensitized solar cells based on solvent-free electrolytes produced from eutectic melts

    Article • October 2010, World Scientific Pub Co Pte Lt

    Dr Mingkui Wang

  164. High efficiency solid-state sensitized heterojunction photovoltaic device

    Article • Nano Today, June 2010, Elsevier

    Dr Mingkui Wang, Professor Jacques E. Moser

  165. Enhanced‐Light‐Harvesting Amphiphilic Ruthenium Dye for Efficient Solid‐State Dye‐Sensitized Solar Cells

    Article • Advanced Functional Materials, May 2010, Wiley

    Dr Mingkui Wang

  166. An organic redox electrolyte to rival triiodide/iodide in dye-sensitized solar cells

    Article • Nature Chemistry, April 2010, Springer Science + Business Media

    Dr Mingkui Wang, Professor Jacques E. Moser

  167. D-π-A Sensitizers for Dye-Sensitized Solar Cells: Linear vs Branched Oligothiophenes

    Article • Chemistry of Materials, January 2010, American Chemical Society (ACS)

    Dr Mingkui Wang

  168. Efficient and Stable Solid‐State Dye‐Sensitized Solar Cells Based on a High‐Molar‐Extinction‐Coefficient Sensitizer

    Article • Small, January 2010, Wiley

    Dr Mingkui Wang

  169. Molecular design of metal-free D–π-A substituted sensitizers for dye-sensitized solar cells

    Article • Energy & Environmental Science, January 2010, Royal Society of Chemistry

    Professor Jacques E. Moser, Dr Mingkui Wang

  170. Application of Cu(ii) and Zn(ii) coproporphyrins as sensitizers for thin film dye sensitized solar cells

    Article • Energy & Environmental Science, January 2010, Royal Society of Chemistry

    Dr Mingkui Wang, Professor Jacques E. Moser, Dr Rita Giovannetti

  171. Improving the Electrochemical Activity of LiMnPO[sub 4] Via Mn-Site Substitution

    Article • Journal of The Electrochemical Society, January 2010, The Electrochemical Society

    Dr Mingkui Wang

  172. A new family of substituted triethoxysilyl iodides as organic iodide sources for dye-sensitised solar cells

    Article • Journal of Materials Chemistry, January 2010, Royal Society of Chemistry

    Dr Mingkui Wang, Professor Leone Spiccia

  173. Efficient CdSe Quantum Dot-Sensitized Solar Cells Prepared by an Improved Successive Ionic Layer Adsorption and Reaction Process

    Article • Nano Letters, November 2009, American Chemical Society (ACS)

    Dr Mingkui Wang

  174. New Ruthenium Sensitizer with Carbazole Antennas for Efficient and Stable Thin-Film Dye-Sensitized Solar Cells

    Article • The Journal of Physical Chemistry C, November 2009, American Chemical Society (ACS)

    Dr Mingkui Wang

  175. CoS Supersedes Pt as Efficient Electrocatalyst for Triiodide Reduction in Dye-Sensitized Solar Cells

    Article • Journal of the American Chemical Society, October 2009, American Chemical Society (ACS)

    Dr Mingkui Wang

  176. Highly Efficient Light-Harvesting Ruthenium Sensitizer for Thin-Film Dye-Sensitized Solar Cells

    Article • ACS Nano, September 2009, American Chemical Society (ACS)

    Dr Mingkui Wang

  177. Surface Design in Solid‐State Dye Sensitized Solar Cells: Effects of Zwitterionic Co‐adsorbents on Photovoltaic Performance

    Article • Advanced Functional Materials, July 2009, Wiley

    Dr Mingkui Wang

  178. Tetraalkylammonium Salts of Weakly Coordinating Aluminates: Ionic Liquids, Materials for Electrochemical Applications and Useful Compounds for Anion Investigation

    Article • Chemistry - A European Journal, February 2009, Wiley

    Dr Mingkui Wang

  179. The Influence of Charge Transport and Recombination on the Performance of Dye‐Sensitized Solar Cells

    Article • ChemPhysChem, January 2009, Wiley

    Dr Mingkui Wang

  180. Passivation of nanocrystalline TiO2 junctions by surface adsorbed phosphinate amphiphiles enhances the photovoltaic performance of dye sensitized solar cells

    Article • Dalton Transactions, January 2009, Royal Society of Chemistry

    Dr Mingkui Wang

  181. Electron Transport and Recombination in Solid-State Dye Solar Cell with Spiro-OMeTAD as Hole Conductor

    Article • Journal of the American Chemical Society, December 2008, American Chemical Society (ACS)

    Dr Mingkui Wang

  182. High‐Performance Liquid and Solid Dye‐Sensitized Solar Cells Based on a Novel Metal‐Free Organic Sensitizer

    Article • Advanced Materials, December 2008, Wiley

    Dr Mingkui Wang

  183. ChemInform Abstract: A New Heteroleptic Ruthenium Sensitizer Enhances the Absorptivity of Mesoporous Titania Film for a High Efficiency Dye‐Sensitized Solar Cell.

    Article • ChemInform, August 2008, Wiley

    Dr Mingkui Wang

  184. Probing Single Flavoprotein Molecules on Graphite in Aqueous Solution with Scanning Tunneling Microscopy

    Article • Small, July 2008, Wiley

    Dr Mingkui Wang

  185. Enhance the Optical Absorptivity of Nanocrystalline TiO2 Film with High Molar Extinction Coefficient Ruthenium Sensitizers for High Performance Dye-Sensitized Solar Cells

    Article • Journal of the American Chemical Society, July 2008, American Chemical Society (ACS)

    Dr Mingkui Wang

  186. High-performance dye-sensitized solar cells based on solvent-free electrolytes produced from eutectic melts

    Article • Nature Materials, June 2008, Springer Science + Business Media

    Dr Mingkui Wang

  187. Tetrahydrothiophenium-Based Ionic Liquids for High Efficiency Dye-Sensitized Solar Cells

    Article • The Journal of Physical Chemistry C, June 2008, American Chemical Society (ACS)

    Dr Mingkui Wang

  188. Topological and Electron-Transfer Properties of Glucose Oxidase Adsorbed on Highly Oriented Pyrolytic Graphite Electrodes

    Article • The Journal of Physical Chemistry C, March 2008, American Chemical Society (ACS)

    Dr Mingkui Wang

  189. A new triterpenoid saponin from Anemone raddeana

    Article • Chinese Chemical Letters, March 2008, Elsevier

    Dr Mingkui Wang

  190. A new heteroleptic ruthenium sensitizer enhances the absorptivity of mesoporous titania film for a high efficiency dye-sensitized solar cell

    Article • Chemical Communications, January 2008, Royal Society of Chemistry

    Dr Mingkui Wang

  191. Enhanced electrochemical properties of nanocomposite polymer electrolyte based on copolymer with exfoliated clays

    Article • Journal of Power Sources, July 2007, Elsevier

    Dr Mingkui Wang

  192. Assembly of 12-tungstosilicic acid and 4-aminobenzo-15-crown-5 ether based on the electrostatic attraction through bridging of oxonium ions on different substrates

    Article • Journal of Electroanalytical Chemistry, February 2007, Elsevier

    Dr Mingkui Wang

  193. Copper hexacyanoferrate multilayer films on glassy carbon electrode modified with 4-aminobenzoic acid in aqueous solution

    Article • Talanta, January 2006, Elsevier

    Dr Mingkui Wang

  194. The direct electron transfer of glucose oxidase and glucose biosensor based on carbon nanotubes/chitosan matrix

    Article • Biosensors and Bioelectronics, December 2005, Elsevier

    Dr Mingkui Wang

  195. Parallel Alignment of Carbon Nanotubes Induced with Inorganic Molecules

    Article • Langmuir, November 2005, American Chemical Society (ACS)

    Dr Mingkui Wang

  196. A Low‐Cost Biofuel Cell with pH‐Dependent Power Output Based on Porous Carbon as Matrix

    Article • Chemistry - A European Journal, August 2005, Wiley

    Dr Mingkui Wang

  197. Direct electrochemistry of microperoxidase at Pt microelectrodes modified with carbon nanotubes

    Article • Biosensors and Bioelectronics, July 2005, Elsevier

    Dr Mingkui Wang

  198. Direct electron transfer and electrocatalysis of microperoxidase immobilized on nanohybrid film

    Article • Journal of Electroanalytical Chemistry, July 2005, Elsevier

    Dr Mingkui Wang

  199. Direct electrochemistry of microperoxidase 11 using carbon nanotube modified electrodes

    Article • Journal of Electroanalytical Chemistry, April 2005, Elsevier

    Dr Mingkui Wang

  200. A novel comb-like copolymer based polymer electrolyte for Li batteries

    Article • Journal of Power Sources, January 2005, Elsevier

    Dr Mingkui Wang

  201. Polyaniline-coated carbon particles and their electrode behavior in organic carbonate electrolyte

    Article • Journal of Electroanalytical Chemistry, September 2004, Elsevier

    Dr Mingkui Wang

  202. Poly(vinylidene fluoride-hexafluoropropylene)/organo-montmorillonite clays nanocomposite lithium polymer electrolytes

    Article • Electrochimica Acta, September 2004, Elsevier

    Dr Mingkui Wang

  203. Electrochemical and Bioelectrochemistry Properties of Room-Temperature Ionic Liquids and Carbon Composite Materials

    Article • Analytical Chemistry, August 2004, American Chemical Society (ACS)

    Dr Mingkui Wang

  204. Properties of a nanocomposite polymer electrolyte from an amorphous comb-branch polymer and nanoparticles

    Article • Journal of Solid State Electrochemistry, April 2004, Springer Science + Business Media

    Dr Mingkui Wang

  205. Electrochemical and electrogenerated chemiluminescence of clay nanoparticles/Ru(bpy)32+ multilayer films on ITO electrodes

    Article • The Analyst, January 2004, Royal Society of Chemistry

    Dr Mingkui Wang

  206. Conductive Property of Multiwall Carbon Nanotubes-PEO-Salt Nanocomposite Film

    Article • Electrochemical and Solid-State Letters, January 2004, The Electrochemical Society

    Dr Mingkui Wang

  207. A Single Ionic Conductor Based on Nafion and Its Electrochemical Properties Used As Lithium Polymer Electrolyte

    Article • The Journal of Physical Chemistry B, December 2003, American Chemical Society (ACS)

    Dr Mingkui Wang

  208. Electrochemistry and Electrogenerated Chemiluminescence of SiO2Nanoparticles/Tris(2,2‘-bipyridyl)ruthenium(ΙΙ) Multilayer Films on Indium Tin Oxide Electrodes

    Article • Analytical Chemistry, November 2003, American Chemical Society (ACS)

    Dr Mingkui Wang

  209. Electrochemical behavior of α-Keggin-type nanoparticles, Co(en)3(PMo12O40), in polyethylene glycol

    Article • Journal of Solid State Electrochemistry, June 2003, Springer Science + Business Media

    Dr Mingkui Wang