Fabrication of 3D bi-functional binder-free electrode by hydrothermal growth of MIL-101(Fe) framework on nickel foam: A supersensitive electrochemical sensor and highly stable supercapacitor

[1]  M. Shirsat,et al.  Chromium-Benzenedicarboxylates Metal Organic Framework for Supersensitive and Selective Electrochemical Sensor of Toxic Cd2+, Pb2+, and Hg2+ Metal Ions: Study of their Interactive Mechanism , 2023, Journal of The Electrochemical Society.

[2]  M. Shirsat,et al.  A nickel -metal–organic framework for an efficient and stable electrode for the oxygen evolution reaction and energy storage , 2023, Materials Today: Proceedings.

[3]  H. Pang,et al.  Metal-organic framework (MOF) composites as promising materials for energy storage applications. , 2022, Advances in colloid and interface science.

[4]  Mohammad Khalid,et al.  A review on the recent advances in binder-free electrodes for electrochemical energy storage application , 2022, Journal of Energy Storage.

[5]  Hong Dong,et al.  Modification of phosphorus-doped carbon coating enhances the electrochemical performance of LiFe0.8Mn0.2PO4 cathode material , 2021 .

[6]  S. Yuan,et al.  Fabrication of 3D Amino-Functionalized Metal–Organic Framework on Porous Nickel Foam Skeleton to Combinate Follicle Stimulating Hormone Antibody for Specific Recognition of Follicle-Stimulating Hormone , 2021, JACS Au.

[7]  Xiaojun Han,et al.  UiO-66 based electrochemical sensor for simultaneous detection of Cd(II) and Pb(II) , 2021 .

[8]  Chunyang Liao,et al.  Adsorption removal of ibuprofen and naproxen from aqueous solution with Cu-doped Mil-101(Fe). , 2021, The Science of the total environment.

[9]  A. Raja,et al.  Fabrication of ZnO/NiO:rGO coated Ni foam binder-free electrode via hydrothermal method for supercapacitor application , 2021 .

[10]  Jongsung Kim,et al.  Ag metal organic frameworks nanocomposite modified electrode for simultaneous electrochemical detection of copper (II) and lead (II) , 2021, Journal of Applied Electrochemistry.

[11]  Gajanan A. Bodkhe,et al.  L-Cysteine peptide-functionalized PEDOT-PSS/rGO nanocomposite for selective electrochemical detection of lead Pb(II) ions , 2021, Applied Physics A.

[12]  Zhangxu Chen,et al.  Carbon paste electrode modified with fern leave-like MIL-47(as) for electrochemical simultaneous detection of Pb(II), Cu(II) and Hg(II) , 2021 .

[13]  Zhuan-nian Liu,et al.  Preparation of a GO/MIL-101(Fe) Composite for the Removal of Methyl Orange from Aqueous Solution , 2021, ACS omega.

[14]  Qiang Ru,et al.  Recent Progress in Binder‐Free Electrodes Synthesis for Electrochemical Energy Storage Application , 2021 .

[15]  Gajanan A. Bodkhe,et al.  Sensitive and selective detection of Cu2+ and Pb2+ ions using Field Effect Transistor (FET) based on L-Cysteine anchored PEDOT:PSS/rGO composite , 2020 .

[16]  K. K. Pandey,et al.  Detection of Pb(II): Au Nanoparticle Incorporated CuBTC MOFs , 2020, Frontiers in Chemistry.

[17]  N. R. Khalid,et al.  Hydrothermal synthesis of cerium‐doped Co3O4 nanoflakes as electrode for supercapacitor application , 2020, International Journal of Energy Research.

[18]  K. Shi,et al.  Controllable synthesis of an intercalated ZIF-67/EG structure for the detection of ultratrace Cd2+, Cu2+, Hg2+ and Pb2+ ions , 2020 .

[19]  Jun Zhou,et al.  Fabrication of Ordered Macro‐Microporous Single‐Crystalline MOF and Its Derivative Carbon Material for Supercapacitor , 2020, Advanced Energy Materials.

[20]  Yan Wang,et al.  A label-free fluorescence biosensor based on a bifunctional MIL-101(Fe) nanozyme for sensitive detection of choline and acetylcholine at nanomolar level , 2020 .

[21]  Harshada K. Patil,et al.  EDTA Modified PANI/GO Composite Based Detection of Hg (II) Ions , 2020, Frontiers in Materials.

[22]  Gajanan A. Bodkhe,et al.  Electrochemical Sensor: L-Cysteine Induced Selectivity Enhancement of Electrochemically Reduced Graphene Oxide–Multiwalled Carbon Nanotubes Hybrid for Detection of Lead (Pb2+) Ions , 2020, Frontiers in Materials.

[23]  Yanhui Sun,et al.  A ratiometric electrochemical sensor for simultaneous detection of multiple heavy metal ions based on ferrocene-functionalized metal-organic framework , 2020, Sensors and Actuators B: Chemical.

[24]  P. Moreira,et al.  Links between Cognitive Status and Trace Element Levels in Hair for an Environmentally Exposed Population: A Case Study in the Surroundings of the Estarreja Industrial Area , 2019, International journal of environmental research and public health.

[25]  Kilaru Harsha Vardhan,et al.  A review on heavy metal pollution, toxicity and remedial measures: Current trends and future perspectives , 2019, Journal of Molecular Liquids.

[26]  F. Qu,et al.  The incorporation of bismuth(III) into metal-organic frameworks for electrochemical detection of trace cadmium(II) and lead(II) , 2019, Microchimica Acta.

[27]  Y. Liu,et al.  Nanocomposites of Zr(IV)-Based Metal–Organic Frameworks and Reduced Graphene Oxide for Electrochemically Sensing Ciprofloxacin in Water , 2019, ACS Applied Nano Materials.

[28]  Lifang Jiao,et al.  Binder‐Free Electrodes for Advanced Sodium‐Ion Batteries , 2019, Advanced materials.

[29]  F. Gao,et al.  Enhanced stripping voltammetric response of Hg2+, Cu2+, Pb2+ and Cd2+ by ZIF-8 and its electrochemical analytical application , 2019, Journal of Electroanalytical Chemistry.

[30]  Tianbao Li,et al.  Graphene Aerogel-Metal-Organic Framework-Based Electrochemical Method for Simultaneous Detection of Multiple Heavy-Metal Ions. , 2018, Analytical chemistry.

[31]  F. Stadler,et al.  Impact of heavy metals and nanoparticles on aquatic biota , 2018, Environmental Chemistry Letters.

[32]  K. Cai,et al.  Design and synthesis of nanoporous carbon materials using Cd-based homochiral metal–organic frameworks as precursors for supercapacitor application , 2018 .

[33]  P. Koinkar,et al.  EDTA-modified PANI/SWNTs nanocomposite for differential pulse voltammetry based determination of Cu(II) ions , 2018 .

[34]  H. Ali,et al.  Bioaccumulation of non-essential hazardous heavy metals and metalloids in freshwater fish. Risk to human health , 2018, Environmental Chemistry Letters.

[35]  Jianming Xu,et al.  A review of the identification and detection of heavy metal ions in the environment by voltammetry. , 2018, Talanta.

[36]  Y. Sui,et al.  Facile synthesis of cuboid Ni-MOF for high-performance supercapacitors , 2018, Journal of Materials Science.

[37]  Weiwei Qiu,et al.  Selective binding of Pb2+ with manganese-terephthalic acid MOF/SWCNTs: Theoretical modeling, experimental study and electroanalytical application. , 2017, Biosensors & bioelectronics.

[38]  Yanhui Zhang,et al.  Highly selective detection of Pb2+ by a nanoscale Ni-based metal–organic framework fabricated through one-pot hydrothermal reaction , 2017 .

[39]  S. Magdassi,et al.  Hydrothermal Synthesis of VO2 Polymorphs: Advantages, Challenges and Prospects for the Application of Energy Efficient Smart Windows. , 2017, Small.

[40]  P. S. Kumar,et al.  Efficient techniques for the removal of toxic heavy metals from aquatic environment: A review , 2017 .

[41]  Gang Xu,et al.  Conductive Metal–Organic Framework Nanowire Array Electrodes for High‐Performance Solid‐State Supercapacitors , 2017 .

[42]  Joseph S. Elias,et al.  Conductive MOF electrodes for stable supercapacitors with high areal capacitance. , 2017, Nature materials.

[43]  M. Rezakazemi,et al.  Removal of Heavy Metals from Industrial Wastewaters: A Review , 2017 .

[44]  Yaqing Liu,et al.  Ag Nanoparticles-Modified 3D Graphene Foam for Binder-Free Electrodes of Electrochemical Sensors , 2017, Nanomaterials.

[45]  G. Rajeshkhanna,et al.  In situ grown nano-architectures of Co3O4 on Ni-foam for charge storage application , 2017, Journal of Chemical Sciences.

[46]  O. Babalola,et al.  Environmental Research and Public Health a New Strategy for Heavy Metal Polluted Environments: a Review of Microbial Biosorbents , 2022 .

[47]  I. Pavlović,et al.  Removal of heavy metals from simulated wastewater by in situ formation of layered double hydroxides , 2016 .

[48]  Shiquan Xiong,et al.  Electrochemical Detection of Ultra-trace Cu(II) and Interaction Mechanism Analysis Between Amine-Groups Functionalized CoFe2O4/Reduced Graphene Oxide Composites and Metal Ion , 2016 .

[49]  Jian-ming Liu,et al.  Selectivity Adsorptive Mechanism of Different Nitrophenols on UIO-66 and UIO-66-NH2 in Aqueous Solution , 2016 .

[50]  Nirav P. Raval,et al.  Adsorptive removal of nickel(II) ions from aqueous environment: A review. , 2016, Journal of environmental management.

[51]  Wen Weng,et al.  Simple fabrication of flake-like NH2-MIL-53(Cr) and its application as an electrochemical sensor for the detection of Pb2+ , 2016 .

[52]  Bo Wang,et al.  Metal–organic frameworks for energy storage: Batteries and supercapacitors , 2016 .

[53]  Wen Weng,et al.  Facile fabrication of cauliflower-like MIL-100(Cr) and its simultaneous determination of Cd2+, Pb2+, Cu2+ and Hg2+ from aqueous solution , 2015 .

[54]  G. March,et al.  Modified Electrodes Used for Electrochemical Detection of Metal Ions in Environmental Analysis , 2015, Biosensors.

[55]  B. Heidari,et al.  Synthesis, characterization and application of poly(acrylamide-co-methylenbisacrylamide) nanocomposite as a colorimetric chemosensor for visual detection of trace levels of Hg and Pb ions. , 2015, Journal of hazardous materials.

[56]  Mojtaba Shamsipur,et al.  A new label free colorimetric chemosensor for detection of mercury ion with tunable dynamic range using carbon nanodots as enzyme mimics , 2014 .

[57]  K. Krishnamoorthy,et al.  One pot hydrothermal growth of hierarchical nanostructured Ni3S2 on Ni foam for supercapacitor application , 2014 .

[58]  J. Fransaer,et al.  A Hybrid Supercapacitor based on Porous Carbon and the Metal‐Organic Framework MIL‐100(Fe) , 2014 .

[59]  T. Mallouk,et al.  Microporous brookite-phase titania made by replication of a metal-organic framework. , 2013, Journal of the American Chemical Society.

[60]  R. Banerjee,et al.  Porous Carbons from Nonporous MOFs: Influence of Ligand Characteristics on Intrinsic Properties of End Carbon , 2013 .

[61]  G. Hota,et al.  Electrospun Fe2O3-Al2O3 nanocomposite fibers as efficient adsorbent for removal of heavy metal ions from aqueous solution. , 2013, Journal of hazardous materials.

[62]  Xiaogang Zhang,et al.  Facile growth of mesoporous Co3O4 nanowire arrays on Ni foam for high performance electrochemical capacitors , 2012 .

[63]  J. Botas,et al.  Co8-MOF-5 as electrode for supercapacitors , 2012 .

[64]  J. Long,et al.  Introduction to metal-organic frameworks. , 2012, Chemical reviews.

[65]  Lei Zhang,et al.  A review of electrode materials for electrochemical supercapacitors. , 2012, Chemical Society reviews.

[66]  R. Wuana,et al.  Heavy Metals in Contaminated Soils: A Review of Sources, Chemistry, Risks and Best Available Strategies for Remediation , 2011 .

[67]  T. Duong,et al.  Fluoro- and chromogenic chemodosimeters for heavy metal ion detection in solution and biospecimens. , 2010, Chemical reviews.

[68]  C. Quintelas,et al.  Biosorptive performance of an Escherichia coli biofilm supported on zeolite NaY for the removal of Cr(VI), Cd(II), Fe(III) and Ni(II) , 2009 .

[69]  M. Lai,et al.  Study on Li+-ion diffusion in nano-crystalline LiMn2O4 thin film cathode grown by pulsed laser deposition using CV, EIS and PITT techniques , 2008 .

[70]  M. Dinu,et al.  Heavy metals adsorption on some iminodiacetate chelating resins as a function of the adsorption parameters , 2008 .

[71]  V. I. Lyutin,et al.  Status of hydrothermal growth of bulk ZnO: Latest issues and advantages , 2008 .

[72]  C. Majumder,et al.  Novel biofiltration methods for the treatment of heavy metals from industrial wastewater. , 2008, Journal of hazardous materials.

[73]  Shaopeng Wang,et al.  Detection of heavy metal ions in water by high-resolution surface plasmon resonance spectroscopy combined with anodic stripping voltammetry. , 2007, Analytical chemistry.

[74]  Xiaolin Zhang,et al.  CeO2-modified MIL-101(Fe) for photocatalysis extraction oxidation desulfurization of model oil under visible light irradiation , 2021 .

[75]  Wei Huang,et al.  Carbon Nanoarrays Embedded with Metal Compounds for High‐Performance Flexible Supercapacitors , 2019 .

[76]  A. Ramanavičius,et al.  EDTA_PANI/SWCNTs nanocomposite modified electrode for electrochemical determination of copper (II), lead (II) and mercury (II) ions , 2018 .

[77]  Yongwen Ma,et al.  A novel catalyst of MIL-101(Fe) doped with Co and Cu as persulfate activator: synthesis, characterization, and catalytic performance , 2017, Chemical Papers.