Maria Ibáñez

Ibáñez Group

95 Publications

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[95]
2024 | Journal Article | IST-REx-ID: 15182 | OA
Kleinhanns, Tobias, et al. “A Route to High Thermoelectric Performance: Solution‐based Control of Microstructure and Composition in Ag2Se.” Advanced Energy Materials, 2400408, Wiley, 2024, doi:10.1002/aenm.202400408.
[Published Version] View | DOI | Download Published Version (ext.)
 
[94]
2024 | Journal Article | IST-REx-ID: 15166
Jakhar, Navita, and Maria Ibáñez. “Electron Highways Are Cooler.” Science, vol. 383, no. 6688, American Association for the Advancement of Science, 2024, p. 1184, doi:10.1126/science.ado4077.
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[93]
2023 | Journal Article | IST-REx-ID: 12832
He, Ren, et al. “A CrMnFeCoNi High Entropy Alloy Boosting Oxygen Evolution/Reduction Reactions and Zinc-Air Battery Performance.” Energy Storage Materials, vol. 58, no. 4, Elsevier, 2023, pp. 287–98, doi:10.1016/j.ensm.2023.03.022.
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[92]
2023 | Journal Article | IST-REx-ID: 13092 | OA
Nan, Bingfei, et al. “Bottom-up Synthesis of SnTe-Based Thermoelectric Composites.” ACS Applied Materials and Interfaces, vol. 15, no. 19, American Chemical Society, 2023, pp. 23380–23389, doi:10.1021/acsami.3c00625.
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[91]
2023 | Journal Article | IST-REx-ID: 13093 | OA
Nan, Bingfei, et al. “Engineering of Thermoelectric Composites Based on Silver Selenide in Aqueous Solution and Ambient Temperature.” ACS Applied Electronic Materials, American Chemical Society, 2023, doi:10.1021/acsaelm.3c00055.
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[90]
2023 | Journal Article | IST-REx-ID: 13235
Liu, Yu, et al. “Surface Chemistry and Band Engineering in AgSbSe₂: Toward High Thermoelectric Performance.” ACS Nano, vol. 17, no. 12, American Chemical Society, 2023, pp. 11923–11934, doi:10.1021/acsnano.3c03541.
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[89]
2023 | Journal Article | IST-REx-ID: 12915
Xing, Congcong, et al. “Thermoelectric Performance of Surface-Engineered Cu1.5–XTe–Cu2Se Nanocomposites.” ACS Nano, vol. 17, no. 9, American Chemical Society, 2023, pp. 8442–52, doi:10.1021/acsnano.3c00495.
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[88]
2023 | Journal Article | IST-REx-ID: 12829
Montaña-Mora, Guillem, et al. “Phosphorous Incorporation into Palladium Tin Nanoparticles for the Electrocatalytic Formate Oxidation Reaction.” Journal of Electroanalytical Chemistry, vol. 936, 117369, Elsevier, 2023, doi:10.1016/j.jelechem.2023.117369.
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[87]
2023 | Journal Article | IST-REx-ID: 14404
Balazs, Daniel, and Maria Ibáñez. “Widening the Use of 3D Printing.” Science, vol. 381, no. 6665, AAAS, 2023, pp. 1413–14, doi:10.1126/science.adk3070.
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[86]
2023 | Journal Article | IST-REx-ID: 13968 | OA
Hasler, Roger, et al. “Optical and Electronic Signal Stabilization of Plasmonic Fiber Optic Gate Electrodes: Towards Improved Real-Time Dual-Mode Biosensing.” Frontiers in Physics, vol. 11, 1202132, Frontiers, 2023, doi:10.3389/fphy.2023.1202132.
[Published Version] View | Files available | DOI | WoS
 
[85]
2023 | Journal Article | IST-REx-ID: 14434
He, Ren, et al. “A 3d‐4d‐5d High Entropy Alloy as a Bifunctional Oxygen Catalyst for Robust Aqueous Zinc–Air Batteries.” Advanced Materials, 2303719, Wiley, 2023, doi:10.1002/adma.202303719.
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[84]
2023 | Journal Article | IST-REx-ID: 14435
Zeng, Guifang, et al. “A Layered Bi2Te3@PPy Cathode for Aqueous Zinc Ion Batteries: Mechanism and Application in Printed Flexible Batteries.” Advanced Materials, 2305128, Wiley, doi:10.1002/adma.202305128.
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[83]
2023 | Journal Article | IST-REx-ID: 14719
Mollania, Hamid, et al. “Nanostructured Li₂S Cathodes for Silicon-Sulfur Batteries.” ACS Applied Materials and Interfaces, vol. 15, no. 50, American Chemical Society, 2023, pp. 58462–58475, doi:10.1021/acsami.3c14072.
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[82]
2023 | Journal Article | IST-REx-ID: 14734
Wan, Shanhong, et al. “Band Engineering through Pb-Doping of Nanocrystal Building Blocks to Enhance Thermoelectric Performance in Cu3SbSe4.” Small Methods, Wiley, 2023, doi:10.1002/smtd.202301377.
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[81]
2022 | Journal Article | IST-REx-ID: 10042 | OA
Liu, Yu, et al. “Defect Engineering in Solution-Processed Polycrystalline SnSe Leads to High Thermoelectric Performance.” ACS Nano, vol. 16, no. 1, American Chemical Society , 2022, pp. 78–88, doi:10.1021/acsnano.1c06720.
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[80]
2022 | Journal Article | IST-REx-ID: 10829 | OA
Hasler, Roger, et al. “Field-Effect Transistor with a Plasmonic Fiber Optic Gate Electrode as a Multivariable Biosensor Device.” ACS Sensors, vol. 7, no. 2, American Chemical Society, 2022, pp. 504–12, doi:10.1021/acssensors.1c02313.
[Published Version] View | Files available | DOI | WoS
 
[79]
2022 | Research Data Reference | IST-REx-ID: 10833 | OA
Hasler, Roger, et al. Field-Effect Transistor with a Plasmonic Fiber Optic Gate Electrode as a Multivariable Biosensor Device. Zenodo, 2022, doi:10.5281/ZENODO.5500360.
[Published Version] View | Files available | DOI | Download Published Version (ext.)
 
[78]
2022 | Journal Article | IST-REx-ID: 11451 | OA
Parvizian, Mahsa, et al. “The Chemistry of Cu₃N and Cu₃PdN Nanocrystals.” Angewandte Chemie - International Edition, vol. 61, no. 31, e202207013, Wiley, 2022, doi:10.1002/anie.202207013.
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[77]
2022 | Research Data Reference | IST-REx-ID: 11695 | OA
Parvizian, Mahsa, et al. Data for “The Chemistry of Cu3N and Cu3PdN Nanocrystals.” Zenodo, 2022, doi:10.5281/ZENODO.6542908.
[Published Version] View | Files available | DOI | Download Published Version (ext.)
 
[76]
2022 | Journal Article | IST-REx-ID: 11705 | OA
Chang, Cheng, et al. “Surface Functionalization of Surfactant-Free Particles: A Strategy to Tailor the Properties of Nanocomposites for Enhanced Thermoelectric Performance.” Angewandte Chemie - International Edition, vol. 61, no. 35, e202207002, Wiley, 2022, doi:10.1002/anie.202207002.
[Published Version] View | Files available | DOI | WoS
 
[75]
2022 | Journal Article | IST-REx-ID: 12237 | OA
Fiedler, Christine, et al. “Solution-Processed Inorganic Thermoelectric Materials: Opportunities and Challenges.” Chemistry of Materials, vol. 34, no. 19, American Chemical Society, 2022, pp. 8471–89, doi:10.1021/acs.chemmater.2c01967.
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[74]
2022 | Journal Article | IST-REx-ID: 10566 | OA
Li, Mengyao, et al. “Room Temperature Aqueous-Based Synthesis of Copper-Doped Lead Sulfide Nanoparticles for Thermoelectric Application.” Chemical Engineering Journal, vol. 433, 133837, Elsevier, 2022, doi:10.1016/j.cej.2021.133837.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[73]
2022 | Journal Article | IST-REx-ID: 12236
Wang, Xiang, et al. “CoFeNiMnZnB as a High-Entropy Metal Boride to Boost the Oxygen Evolution Reaction.” ACS Applied Materials & Interfaces, vol. 14, no. 42, American Chemical Society, 2022, pp. 48212–19, doi:10.1021/acsami.2c11627.
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[72]
2022 | Journal Article | IST-REx-ID: 14437
Utzat, Hendrik, and Maria Ibáñez. “Molecular Engineering Enables Bright Blue LEDs.” Nature, vol. 612, no. 7941, Springer Nature, 2022, pp. 638–39, doi:10.1038/d41586-022-04447-0.
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[71]
2021 | Journal Article | IST-REx-ID: 10806 | OA
Calcabrini, Mariano, et al. “Ligand Conversion in Nanocrystal Synthesis: The Oxidation of Alkylamines to Fatty Acids by Nitrate.” JACS Au, vol. 1, no. 11, American Chemical Society, 2021, pp. 1898–903, doi:10.1021/jacsau.1c00349.
[Published Version] View | Files available | DOI
 
[70]
2021 | Journal Article | IST-REx-ID: 9118 | OA
Calcabrini, Mariano, et al. “Exploiting the Lability of Metal Halide Perovskites for Doping Semiconductor Nanocomposites.” ACS Energy Letters, vol. 6, no. 2, American Chemical Society, 2021, pp. 581–87, doi:10.1021/acsenergylett.0c02448.
[Published Version] View | Files available | DOI | WoS
 
[69]
2021 | Journal Article | IST-REx-ID: 9206 | OA
Cadavid, Doris, et al. “Synthesis, Bottom up Assembly and Thermoelectric Properties of Sb-Doped PbS Nanocrystal Building Blocks.” Materials, vol. 14, no. 4, 853, MDPI, 2021, doi:10.3390/ma14040853.
[Published Version] View | Files available | DOI | WoS
 
[68]
2021 | Journal Article | IST-REx-ID: 10123 | OA
Liu, Yu, et al. “The Importance of Surface Adsorbates in Solution‐processed Thermoelectric Materials: The Case of SnSe.” Advanced Materials, vol. 33, no. 52, 2106858, Wiley, 2021, doi:10.1002/adma.202106858.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[67]
2021 | Journal Article | IST-REx-ID: 10073 | OA
Chang, Cheng, and Maria Ibáñez. “Enhanced Thermoelectric Performance by Surface Engineering in SnTe-PbS Nanocomposites.” Materials, vol. 14, no. 18, 5416, MDPI, 2021, doi:10.3390/ma14185416.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[66]
2021 | Journal Article | IST-REx-ID: 10809
Liu, Yu, and Maria Ibáñez. “Tidying up the Mess.” Science, vol. 371, no. 6530, American Association for the Advancement of Science, 2021, pp. 678–79, doi:10.1126/science.abg0886.
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[65]
2021 | Journal Article | IST-REx-ID: 9304 | OA
Zhang, Yu, et al. “Influence of Copper Telluride Nanodomains on the Transport Properties of N-Type Bismuth Telluride.” Chemical Engineering Journal, vol. 418, no. 8, 129374, Elsevier, 2021, doi:10.1016/j.cej.2021.129374.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[64]
2021 | Journal Article | IST-REx-ID: 9305 | OA
Zhang, Yu, et al. “Doping-Mediated Stabilization of Copper Vacancies to Promote Thermoelectric Properties of Cu2-XS.” Nano Energy, vol. 85, no. 7, 105991, Elsevier, 2021, doi:10.1016/j.nanoen.2021.105991.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[63]
2021 | Journal Article | IST-REx-ID: 10327 | OA
Li, Mengyao, et al. “PbS–Pb–CuxS Composites for Thermoelectric Application.” ACS Applied Materials and Interfaces, vol. 13, no. 43, American Chemical Society , 2021, pp. 51373–51382, doi:10.1021/acsami.1c15609.
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[62]
2021 | Journal Article | IST-REx-ID: 9235 | OA
Li, Mengyao, et al. “Effect of the Annealing Atmosphere on Crystal Phase and Thermoelectric Properties of Copper Sulfide.” ACS Nano, vol. 15, no. 3, American Chemical Society , 2021, pp. 4967–4978, doi:10.1021/acsnano.0c09866.
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[61]
2021 | Conference Abstract | IST-REx-ID: 15280 | OA
Balazs, Daniel, et al. “Controlled Reactive Assembly of Colloidal Nanocrystal Superlattices: Mechanism and Kinetics.” Proceedings of the Internet NanoGe Conference on Nanocrystals, 050, Fundació Scito, 2021, doi:10.29363/nanoge.incnc.2021.050.
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[60]
2020 | Journal Article | IST-REx-ID: 7467 | OA
Cadavid, Doris, et al. “Influence of the Ligand Stripping on the Transport Properties of Nanoparticle-Based PbSe Nanomaterials.” ACS Applied Energy Materials, vol. 3, no. 3, American Chemical Society, 2020, pp. 2120–29, doi:10.1021/acsaem.9b02137.
[Submitted Version] View | Files available | DOI | WoS
 
[59]
2020 | Journal Article | IST-REx-ID: 7634
Miranti, Retno, et al. “Exclusive Electron Transport in Core@Shell PbTe@PbS Colloidal Semiconductor Nanocrystal Assemblies.” ACS Nano, vol. 14, no. 3, American Chemical Society, 2020, pp. 3242–50, doi:10.1021/acsnano.9b08687.
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[58]
2020 | Journal Article | IST-REx-ID: 8039
Zhang, Yu, et al. “Tin Selenide Molecular Precursor for the Solution Processing of Thermoelectric Materials and Devices.” ACS Applied Materials and Interfaces, vol. 12, no. 24, American Chemical Society, 2020, pp. 27104–11, doi:10.1021/acsami.0c04331.
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[57]
2020 | Journal Article | IST-REx-ID: 8747
Zhang, Yu, et al. “Bismuth Telluride-Copper Telluride Nanocomposites from Heterostructured Building Blocks.” Journal of Materials Chemistry C, vol. 8, no. 40, Royal Society of Chemistry, 2020, pp. 14092–99, doi:10.1039/D0TC02182B.
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[56]
2020 | Journal Article | IST-REx-ID: 8926
Irtem, Erdem, et al. “Ligand-Mode Directed Selectivity in Cu-Ag Core-Shell Based Gas Diffusion Electrodes for CO2 Electroreduction.” ACS Catalysis, vol. 10, no. 22, American Chemical Society, 2020, pp. 13468–78, doi:10.1021/acscatal.0c03210.
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[55]
2020 | Journal Article | IST-REx-ID: 8746 | OA
Miranti, Retno, et al. “Electron Transport in Iodide-Capped Core@shell PbTe@PbS Colloidal Nanocrystal Solids.” Applied Physics Letters, vol. 117, no. 17, 173101, AIP Publishing, 2020, doi:10.1063/5.0025965.
[Published Version] View | DOI | Download Published Version (ext.) | WoS
 
[54]
2019 | Journal Article | IST-REx-ID: 6566 | OA
Ibáñez, Maria, et al. “Tuning Transport Properties in Thermoelectric Nanocomposites through Inorganic Ligands and Heterostructured Building Blocks.” ACS Nano, vol. 13, no. 6, American Chemical Society, 2019, pp. 6572–80, doi:10.1021/acsnano.9b00346.
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[53]
2019 | Journal Article | IST-REx-ID: 6586 | OA
Ibáñez, Maria, et al. “Ligand-Mediated Band Engineering in Bottom-up Assembled SnTe Nanocomposites for Thermoelectric Energy Conversion.” Journal of the American Chemical Society, vol. 141, no. 20, American Chemical Society, 2019, pp. 8025–29, doi:10.1021/jacs.9b01394.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[52]
2018 | Journal Article | IST-REx-ID: 5982 | OA
Zhang, Yu, et al. “Tin Diselenide Molecular Precursor for Solution-Processable Thermoelectric Materials.” Angewandte Chemie International Edition, vol. 57, no. 52, Wiley, 2018, pp. 17063–68, doi:10.1002/anie.201809847.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[51]
2017 | Journal Article | IST-REx-ID: 375
Berestok, Taisiia, et al. “Tuning Branching in Ceria Nanocrystals.” Chemistry of Materials, vol. 29, no. 10, American Chemical Society, 2017, pp. 4418–24, doi:10.1021/acs.chemmater.7b00896.
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[50]
2017 | Journal Article | IST-REx-ID: 373
Coughlan, Claudia, et al. “Compound Copper Chalcogenide Nanocrystals.” Chemical Reviews, vol. 117, no. 9, American Chemical Society, 2017, pp. 5865–6109, doi:10.1021/acs.chemrev.6b00376.
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[49]
2017 | Journal Article | IST-REx-ID: 374
Ortega, Silvia, et al. “Bottom up Engineering of Thermoelectric Nanomaterials and Devices from Solution Processed Nanoparticle Building Blocks.” Chemical Society Reviews, vol. 46, no. 12, Royal Society of Chemistry, 2017, pp. 3510–28, doi:10.1039/c6cs00567e.
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[48]
2016 | Journal Article | IST-REx-ID: 364
Luo, Zhishan, et al. “Pd2Sn [010] Nanorods as a Highly Active and Stable Ethanol Oxidation Catalyst.” Journal of Materials Chemistry A, vol. 4, no. 42, Royal Society of Chemistry, 2016, pp. 16706–13, doi:10.1039/c6ta06430b.
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[47]
2016 | Journal Article | IST-REx-ID: 367
Ibáñez, Maria, et al. “Phosphonic Acids Aid Composition Adjustment in the Synthesis of Cu2+xZn1−xSnSe4−y Nanoparticles.” Journal of Nanoparticle Research, vol. 18, no. 8, Springer, 2016, doi:10.1007/s11051-016-3545-4.
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[46]
2016 | Journal Article | IST-REx-ID: 369
Ibáñez, Maria, et al. “High Performance Thermoelectric Nanocomposites from Nanocrystal Building Blocks.” Nature Communications, vol. 7, Nature Publishing Group, 2016, doi:doi:10.1038/ncomms10766.
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[45]
2016 | Journal Article | IST-REx-ID: 372
Dalmases, Mariona, et al. “Synthesis and Thermoelectric Properties of Noble Metal Ternary Chalcogenide Systems of Ag Au Se in the Forms of Alloyed Nanoparticles and Colloidal Nanoheterostructures.” Chemistry of Materials, vol. 28, no. 19, American Chemical Society, 2016, pp. 7017–28, doi:10.1021/acs.chemmater.6b02845.
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[44]
2016 | Journal Article | IST-REx-ID: 380
Bertolotti, Federica, et al. “Crystal Symmetry Breaking and Role of Vacancies in Colloidal Lead Chalcogenide Quantum Dots.” Nature Materials, vol. 15, Nature Publishing Group, 2016, pp. 987–94, doi:10.1038/NMAT4661.
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[43]
2016 | Journal Article | IST-REx-ID: 381
Liu, Yu, et al. “Colloidal AgSbSe2 Nanocrystals: Surface Analysis, Electronic Doping and Processing into Thermoelectric Nanomaterials.” Journal of Materials Chemistry C, vol. 4, Royal Society of Chemistry, 2016, pp. 4756–62, doi:10.1039/c6tc00893c.
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[42]
2016 | Journal Article | IST-REx-ID: 383
Liu, Yu, et al. “Thermoelectric Properties of Semiconductor-Metal Composites Produced by Particle Blending.” Applied Physics Letters, vol. 4, American Institute of Physics, 2016, doi:https://doi.org/10.1063/1.4961679.
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[41]
2016 | Journal Article | IST-REx-ID: 363
De Roo, Jonathan, et al. “Highly Dynamic Ligand Binding and Light Absorption Coefficient of Cesium Lead Bromide Perovskite Nanocrystals.” ACS Nano, vol. 10, no. 2, American Chemical Society, 2016, pp. 2071–81, doi:10.1021/acsnano.5b06295.
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[40]
2016 | Journal Article | IST-REx-ID: 366 | OA
Meyn, Michaela, et al. “Polymer Enhanced Stability of Inorganic Perovskite Nanocrystals and Their Application in Color Conversion LEDs.” ACS Applied Materials and Interfaces, vol. 8, no. 30, American Chemical Society, 2016, pp. 19579–86, doi:10.1021/acsami.6b02529.
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[39]
2016 | Journal Article | IST-REx-ID: 368
Nafria, Raquel, et al. “Co Cu Nanoparticles Synthesis by Galvanic Replacement and Phase Rearrangement during Catalytic Activation.” Langmuir, vol. 32, no. 9, American Chemical Society, 2016, pp. 2267–76, doi:10.1021/acs.langmuir.5b04622.
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[38]
2016 | Journal Article | IST-REx-ID: 371
Luo, Zhishan, et al. “Fe3O4@NiFexOy Nanoparticles with Enhanced Electrocatalytic Properties for Oxygen Evolution in Carbonate Electrolyte.” ACS Applied Materials and Interfaces, vol. 8, no. 43, American Chemical Society, 2016, pp. 29461–69, doi:10.1021/acsami.6b09888.
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[37]
2016 | Journal Article | IST-REx-ID: 379
Shavel, Alexey, et al. “Scalable Heating-up Synthesis of Monodisperse Cu2ZnSnS4 Nanocrystals.” Chemistry of Materials, vol. 28, no. 3, American Chemical Society, 2016, pp. 720–26, doi:10.1021/acs.chemmater.5b03417.
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[36]
2015 | Journal Article | IST-REx-ID: 333
Walter, Marc, et al. “Efficient and Inexpensive Sodium Magnesium Hybrid Battery.” Chemistry of Materials, vol. 27, no. 21, ACS, 2015, pp. 7452–58, doi:10.1021/acs.chemmater.5b03531.
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[35]
2015 | Journal Article | IST-REx-ID: 354
Ibáñez, Maria, et al. “Electron Doping in Bottom up Engineered Thermoelectric Nanomaterials through HCl Mediated Ligand Displacement.” Journal of the American Chemical Society, vol. 137, no. 12, American Chemical Society, 2015, pp. 4046–49, doi:10.1021/jacs.5b00091.
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[34]
2015 | Journal Article | IST-REx-ID: 360
Yu, Xuelian, et al. “Cu2ZnSnS4-Ag2S Nanoscale p-n Heterostructures as Sensitizers for Photoelectrochemical Water Splitting.” Langmuir, vol. 31, no. 38, American Chemical Society, 2015, pp. 10555–61, doi:10.1021/acs.langmuir.5b02490.
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[33]
2015 | Journal Article | IST-REx-ID: 362
Lu, Zhishan, et al. “Size and Aspect Ratio Control of Pd Inf 2 Inf Sn Nanorods and Their Water Denitration Properties.” Langmuir, vol. 31, no. 13, American Chemical Society, 2015, pp. 3952–57, doi:10.1021/la504906q.
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[32]
2015 | Journal Article | IST-REx-ID: 334
Yu, Xuelian, et al. “Cu2ZnSnS4–Ag2S Nanoscale p–n Heterostructures as Sensitizers for Photoelectrochemical Water Splitting.” Langmuir, vol. 31, no. 38, American Chemical Society, 2015, pp. 10555–61, doi:10.1021/acs.langmuir.5b02490.
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[31]
2015 | Journal Article | IST-REx-ID: 361
Yu, Xuelian, et al. “Cu2ZnSnS4–PtM (M = Co, Ni) Nanoheterostructures for Photocatalytic Hydrogen Evolution.” Journal of Physical Chemistry C, vol. 119, no. 38, American Chemical Society, 2015, pp. 21882–88, doi:10.1021/acs.jpcc.5b06199.
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[30]
2014 | Journal Article | IST-REx-ID: 332
Yu, Xuelian, et al. “Cu2ZnSnS4-Pt and Cu2ZnSnS4-Au Heterostructured Nanoparticles for Photocatalytic Water Splitting and Pollutant Degradation.” Journal of the American Chemical Society, vol. 136, no. 26, ACS, 2014, pp. 9236–39, doi:10.1021/ja502076b.
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[29]
2014 | Journal Article | IST-REx-ID: 349
Ortega, Silvia, et al. “Bottom up Processing of PbTe PbS Thermoelectric Nanocomposites.” International Journal of Nanotechnology, vol. 11, no. 9–11, Inderscience Enterprises Limited , 2014, pp. 955–70, doi:10.1504/IJNT.2014.063802.
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[28]
2014 | Journal Article | IST-REx-ID: 355
Yu, Xuelian, et al. “The Effect of the Ga Content on the Photocatalytic Hydrogen Evolution of CuIn1-XGaxS2 Nanocrystals.” Journal of Materials Chemistry A, vol. 2, no. 31, Royal Society of Chemistry, 2014, pp. 12317–22, doi:10.1039/c4ta01315h.
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[27]
2014 | Journal Article | IST-REx-ID: 357
Fairbrother, Andrew, et al. “ZnS Grain Size Effects on Near-Resonant Raman Scattering: Optical Non-Destructive Grain Size Estimation.” CrystEngComm, vol. 16, no. 20, Royal Society of Chemistry, 2014, pp. 4120–25, doi:10.1039/c3ce42578a.
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[26]
2014 | Journal Article | IST-REx-ID: 359
Zamani, Reza, et al. “Polarity-Driven Polytypic Branching in Cu-Based Quaternary Chalcogenide Nanostructures.” ACS Nano, vol. 8, no. 3, American Chemical Society, 2014, pp. 2290–301, doi:10.1021/nn405747h.
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[25]
2014 | Journal Article | IST-REx-ID: 348
Cadavid, Doris, et al. “Thermoelectric Properties of Bottom up Assembled Bi2S 3-XTex Nanocomposites.” International Journal of Nanotechnology, vol. 11, no. 9–11, Inderscience Enterprises Limited , 2014, pp. 773–84, doi:10.1504/IJNT.2014.063787.
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[24]
2014 | Journal Article | IST-REx-ID: 350 | OA
Li, Wenhua, et al. “Colloidal Synthesis and Functional Properties of Quaternary Cu Based Semiconductors: Cu2HgGeSe4.” Journal of Nanoparticle Research, vol. 16, no. 3, Kluwer, 2014, doi:10.1007/s11051-014-2297-2.
[Submitted Version] View | DOI | Download Submitted Version (ext.)
 
[23]
2014 | Journal Article | IST-REx-ID: 356
Yu, Xuelian, et al. “Cu2ZnSnS4-Pt and Cu2ZnSnS4-Au Heterostructured Nanoparticles for Photocatalytic Water Splitting and Pollutant Degradation.” Journal of the American Chemical Society, vol. 136, no. 26, American Chemical Society, 2014, pp. 9236–39, doi:10.1021/ja502076b.
View | DOI
 
[22]
2014 | Journal Article | IST-REx-ID: 358
Herranz, Tirma, et al. “In Situ Study of Ethanol Electrooxidation on Monodispersed Pt Inf 3 Inf Sn Nanoparticles.” ChemElectroChem, vol. 1, no. 5, Wiley-Blackwell, 2014, pp. 885–95, doi:10.1002/celc.201300254.
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[21]
2013 | Journal Article | IST-REx-ID: 344 | OA
Ibáñez, Maria, et al. “Colloidal Synthesis and Thermoelectric Properties of Cu 2SnSe3 Nanocrystals.” Journal of Materials Chemistry A, vol. 1, no. 4, Royal Society of Chemistry, 2013, pp. 1421–26, doi:10.1039/C2TA00419D.
[Submitted Version] View | DOI | Download Submitted Version (ext.)
 
[20]
2013 | Journal Article | IST-REx-ID: 352
Cadavid, Doris, et al. “Organic Ligand Displacement by Metal Salts to Enhance Nanoparticle Functionality: Thermoelectric Properties of Ag Inf 2 Inf Te.” Journal of Materials Chemistry A, vol. 1, no. 15, Royal Society of Chemistry, 2013, pp. 4864–70, doi:10.1039/C3TA01455J.
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[19]
2013 | Journal Article | IST-REx-ID: 378
Ibáñez, Maria, and Andreu Cabot. “All Change for Nanocrystals.” Science, vol. 340, no. 6135, American Association for the Advancement of Science, 2013, pp. 935–36, doi:10.1126/science.1239221.
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[18]
2013 | Journal Article | IST-REx-ID: 331
Li, Wenhua, et al. “CuTe Nanocrystals: Shape and Size Control, Plasmonic Properties, and Use as SERS Probes and Photothermal Agents.” Journal of the American Chemical Society, vol. 135, no. 19, ACS, 2013, pp. 7098–101, doi:10.1021/ja401428e.
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[17]
2013 | Journal Article | IST-REx-ID: 342
Li, Wenhua, et al. “Metal Ions to Control the Morphology of Semiconductor Nanoparticles: Copper Selenide Nanocubes.” Journal of the American Chemical Society, vol. 135, no. 12, American Chemical Society, 2013, pp. 4664–67, doi:10.1021/ja400472m.
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[16]
2013 | Journal Article | IST-REx-ID: 343
Ibáñez, Maria, et al. “Core Shell Nanoparticles as Building Blocks for the Bottom-up Production of Functional Nanocomposites: PbTe PbS Thermoelectric Properties.” ACS Nano, vol. 7, no. 3, American Chemical Society, 2013, pp. 2573–86, doi:10.1021/nn305971v.
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[15]
2013 | Journal Article | IST-REx-ID: 351
Carrete, Alex, et al. “Antimony-Based Ligand Exchange to Promote Crystallization in Spray-Deposited Cu2ZnSnSe4 Solar Cells.” Journal of the American Chemical Society, vol. 135, no. 43, American Chemical Society, 2013, pp. 15982–85, doi:10.1021/ja4068639.
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[14]
2013 | Journal Article | IST-REx-ID: 353
Li, Wenhua, et al. “CuTe Nanocrystals: Shape and Size Control, Plasmonic Properties, and Use as SERS Probes and Photothermal Agents.” Journal of the American Chemical Society, vol. 135, no. 19, American Chemical Society, 2013, pp. 7098–101, doi:10.1021/ja401428e.
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[13]
2013 | Journal Article | IST-REx-ID: 376
Li, Wenhua, et al. “Cu2HgSnSe4 Nanoparticles: Synthesis and Thermoelectric Properties.” CrystEngComm, vol. 44, Royal Society of Chemistry, 2013, pp. 8966–71, doi:10.1039/C3CE41583J.
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[12]
2012 | Journal Article | IST-REx-ID: 330
Shavel, Alexey, et al. “Continuous Production of Cu Inf 2 Inf ZnSnS Inf 4 Inf Nanocrystals in a Flow Reactor.” Journal of the American Chemical Society, vol. 134, no. 3, ACS, 2012, pp. 1438–41, doi:10.1021/ja209688a.
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[11]
2012 | Journal Article | IST-REx-ID: 346
Fan, Jiandong, et al. “Solution-Growth and Optoelectronic Performance of ZnO : Cl/TiO2 and ZnO : Cl/ZnxTiOy/TiO2 Core–Shell Nanowires with Tunable Shell Thickness.” Journal of Physics D: Applied Physics, vol. 45, no. 41, IOP Publishing Ltd., 2012, doi:10.1088/0022-3727/45/41/415301.
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[10]
2012 | Journal Article | IST-REx-ID: 377
Ibáñez, Maria, et al. “Crystallographic Control at the Nanoscale to Enhance Functionality: Polytypic Cu2GeSe3 Nanoparticles as Thermoelectric Materials.” Chemistry of Materials, vol. 24, no. 23, American Chemical Society, 2012, pp. 4615–22, doi:10.1021/cm303252q.
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[9]
2012 | Journal Article | IST-REx-ID: 338
Ibáñez, Maria, et al. “Extending the Nanocrystal Synthesis Control to Quaternary Compositions.” Crystal Growth and Design , vol. 12, no. 3, American Chemical Society (ACS), 2012, pp. 1085–90, doi:10.1021/cg201709c.
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[8]
2012 | Journal Article | IST-REx-ID: 339
Ibáñez, Maria, et al. “Composition Control and Thermoelectric Properties of Quaternary Chalcogenide Nanocrystals: The Case of Stannite Cu2CdSnSe4.” Chemistry of Materials, vol. 24, no. 3, American Chemical Society, 2012, pp. 562–70, doi:10.1021/cm2031812.
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[7]
2012 | Journal Article | IST-REx-ID: 340
Shavel, Alexey, et al. “Continuous Production of Cu Inf 2 Inf ZnSnS Inf 4 Inf Nanocrystals in a Flow Reactor.” Journal of the American Chemical Society, vol. 134, no. 3, ACS, 2012, pp. 1438–41, doi:10.1021/ja209688a.
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[6]
2012 | Journal Article | IST-REx-ID: 345
Cadavid, Doris, et al. “Bottom-up Processing of Thermoelectric Nanocomposites from Colloidal Nanocrystal Building Blocks: The Case of Ag2Te–PbTe.” Journal of Nanoparticle Research, vol. 14, no. 12, Kluwer, 2012, doi:10.1007/s11051-012-1328-0.
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[5]
2012 | Journal Article | IST-REx-ID: 347 | OA
Ibáñez, Maria, et al. “Cu 2ZnGeSe 4 Nanocrystals: Synthesis and Thermoelectric Properties.” Journal of the American Chemical Society, vol. 134, no. 9, ACS, 2012, pp. 4060–63, doi:10.1021/ja211952z.
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[4]
2011 | Journal Article | IST-REx-ID: 335
Ibáñez, Maria, et al. “Means and Limits of Control of the Shell Parameters in Hollow Nanoparticles Obtained by the Kirkendall Effect.” Chemistry of Materials, vol. 23, no. 12, American Chemical Society, 2011, pp. 3095–104, doi:10.1021/cm2006633.
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[3]
2011 | Journal Article | IST-REx-ID: 341
Li, Wenhua, et al. “Morphology Evolution of Cu2−xS Nanoparticles: From Spheres to Dodecahedrons.” Chemical Communications, vol. 47, no. 37, Royal Society of Chemistry (RSC) , 2011, pp. 10332–34, doi:10.1039/c1cc13803k.
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[2]
2011 | Journal Article | IST-REx-ID: 336
Ibáñez, Maria, et al. “Growth Kinetics of Asymmetric Bi2S3 Nanocrystals: Size Distribution Focusing in Nanorods.” Journal of Physical Chemistry C, vol. 115, no. 16, American Chemical Society, 2011, pp. 7947–55, doi:10.1021/jp2002904.
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[1]
2009 | Journal Article | IST-REx-ID: 337
Cabot, Andreu, et al. “Reaction Regimes on the Synthesis of Hollow Particles by the Kirkendall Effect.” Journal of the American Chemical Society, vol. 131, no. 32, ACS, 2009, pp. 11326–28, doi:10.1021/ja903751p.
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[95]
2024 | Journal Article | IST-REx-ID: 15182 | OA
Kleinhanns, Tobias, et al. “A Route to High Thermoelectric Performance: Solution‐based Control of Microstructure and Composition in Ag2Se.” Advanced Energy Materials, 2400408, Wiley, 2024, doi:10.1002/aenm.202400408.
[Published Version] View | DOI | Download Published Version (ext.)
 
[94]
2024 | Journal Article | IST-REx-ID: 15166
Jakhar, Navita, and Maria Ibáñez. “Electron Highways Are Cooler.” Science, vol. 383, no. 6688, American Association for the Advancement of Science, 2024, p. 1184, doi:10.1126/science.ado4077.
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[93]
2023 | Journal Article | IST-REx-ID: 12832
He, Ren, et al. “A CrMnFeCoNi High Entropy Alloy Boosting Oxygen Evolution/Reduction Reactions and Zinc-Air Battery Performance.” Energy Storage Materials, vol. 58, no. 4, Elsevier, 2023, pp. 287–98, doi:10.1016/j.ensm.2023.03.022.
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[92]
2023 | Journal Article | IST-REx-ID: 13092 | OA
Nan, Bingfei, et al. “Bottom-up Synthesis of SnTe-Based Thermoelectric Composites.” ACS Applied Materials and Interfaces, vol. 15, no. 19, American Chemical Society, 2023, pp. 23380–23389, doi:10.1021/acsami.3c00625.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[91]
2023 | Journal Article | IST-REx-ID: 13093 | OA
Nan, Bingfei, et al. “Engineering of Thermoelectric Composites Based on Silver Selenide in Aqueous Solution and Ambient Temperature.” ACS Applied Electronic Materials, American Chemical Society, 2023, doi:10.1021/acsaelm.3c00055.
[Published Version] View | DOI | Download Published Version (ext.) | WoS
 
[90]
2023 | Journal Article | IST-REx-ID: 13235
Liu, Yu, et al. “Surface Chemistry and Band Engineering in AgSbSe₂: Toward High Thermoelectric Performance.” ACS Nano, vol. 17, no. 12, American Chemical Society, 2023, pp. 11923–11934, doi:10.1021/acsnano.3c03541.
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[89]
2023 | Journal Article | IST-REx-ID: 12915
Xing, Congcong, et al. “Thermoelectric Performance of Surface-Engineered Cu1.5–XTe–Cu2Se Nanocomposites.” ACS Nano, vol. 17, no. 9, American Chemical Society, 2023, pp. 8442–52, doi:10.1021/acsnano.3c00495.
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[88]
2023 | Journal Article | IST-REx-ID: 12829
Montaña-Mora, Guillem, et al. “Phosphorous Incorporation into Palladium Tin Nanoparticles for the Electrocatalytic Formate Oxidation Reaction.” Journal of Electroanalytical Chemistry, vol. 936, 117369, Elsevier, 2023, doi:10.1016/j.jelechem.2023.117369.
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[87]
2023 | Journal Article | IST-REx-ID: 14404
Balazs, Daniel, and Maria Ibáñez. “Widening the Use of 3D Printing.” Science, vol. 381, no. 6665, AAAS, 2023, pp. 1413–14, doi:10.1126/science.adk3070.
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[86]
2023 | Journal Article | IST-REx-ID: 13968 | OA
Hasler, Roger, et al. “Optical and Electronic Signal Stabilization of Plasmonic Fiber Optic Gate Electrodes: Towards Improved Real-Time Dual-Mode Biosensing.” Frontiers in Physics, vol. 11, 1202132, Frontiers, 2023, doi:10.3389/fphy.2023.1202132.
[Published Version] View | Files available | DOI | WoS
 
[85]
2023 | Journal Article | IST-REx-ID: 14434
He, Ren, et al. “A 3d‐4d‐5d High Entropy Alloy as a Bifunctional Oxygen Catalyst for Robust Aqueous Zinc–Air Batteries.” Advanced Materials, 2303719, Wiley, 2023, doi:10.1002/adma.202303719.
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[84]
2023 | Journal Article | IST-REx-ID: 14435
Zeng, Guifang, et al. “A Layered Bi2Te3@PPy Cathode for Aqueous Zinc Ion Batteries: Mechanism and Application in Printed Flexible Batteries.” Advanced Materials, 2305128, Wiley, doi:10.1002/adma.202305128.
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[83]
2023 | Journal Article | IST-REx-ID: 14719
Mollania, Hamid, et al. “Nanostructured Li₂S Cathodes for Silicon-Sulfur Batteries.” ACS Applied Materials and Interfaces, vol. 15, no. 50, American Chemical Society, 2023, pp. 58462–58475, doi:10.1021/acsami.3c14072.
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[82]
2023 | Journal Article | IST-REx-ID: 14734
Wan, Shanhong, et al. “Band Engineering through Pb-Doping of Nanocrystal Building Blocks to Enhance Thermoelectric Performance in Cu3SbSe4.” Small Methods, Wiley, 2023, doi:10.1002/smtd.202301377.
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[81]
2022 | Journal Article | IST-REx-ID: 10042 | OA
Liu, Yu, et al. “Defect Engineering in Solution-Processed Polycrystalline SnSe Leads to High Thermoelectric Performance.” ACS Nano, vol. 16, no. 1, American Chemical Society , 2022, pp. 78–88, doi:10.1021/acsnano.1c06720.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[80]
2022 | Journal Article | IST-REx-ID: 10829 | OA
Hasler, Roger, et al. “Field-Effect Transistor with a Plasmonic Fiber Optic Gate Electrode as a Multivariable Biosensor Device.” ACS Sensors, vol. 7, no. 2, American Chemical Society, 2022, pp. 504–12, doi:10.1021/acssensors.1c02313.
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[79]
2022 | Research Data Reference | IST-REx-ID: 10833 | OA
Hasler, Roger, et al. Field-Effect Transistor with a Plasmonic Fiber Optic Gate Electrode as a Multivariable Biosensor Device. Zenodo, 2022, doi:10.5281/ZENODO.5500360.
[Published Version] View | Files available | DOI | Download Published Version (ext.)
 
[78]
2022 | Journal Article | IST-REx-ID: 11451 | OA
Parvizian, Mahsa, et al. “The Chemistry of Cu₃N and Cu₃PdN Nanocrystals.” Angewandte Chemie - International Edition, vol. 61, no. 31, e202207013, Wiley, 2022, doi:10.1002/anie.202207013.
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[77]
2022 | Research Data Reference | IST-REx-ID: 11695 | OA
Parvizian, Mahsa, et al. Data for “The Chemistry of Cu3N and Cu3PdN Nanocrystals.” Zenodo, 2022, doi:10.5281/ZENODO.6542908.
[Published Version] View | Files available | DOI | Download Published Version (ext.)
 
[76]
2022 | Journal Article | IST-REx-ID: 11705 | OA
Chang, Cheng, et al. “Surface Functionalization of Surfactant-Free Particles: A Strategy to Tailor the Properties of Nanocomposites for Enhanced Thermoelectric Performance.” Angewandte Chemie - International Edition, vol. 61, no. 35, e202207002, Wiley, 2022, doi:10.1002/anie.202207002.
[Published Version] View | Files available | DOI | WoS
 
[75]
2022 | Journal Article | IST-REx-ID: 12237 | OA
Fiedler, Christine, et al. “Solution-Processed Inorganic Thermoelectric Materials: Opportunities and Challenges.” Chemistry of Materials, vol. 34, no. 19, American Chemical Society, 2022, pp. 8471–89, doi:10.1021/acs.chemmater.2c01967.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[74]
2022 | Journal Article | IST-REx-ID: 10566 | OA
Li, Mengyao, et al. “Room Temperature Aqueous-Based Synthesis of Copper-Doped Lead Sulfide Nanoparticles for Thermoelectric Application.” Chemical Engineering Journal, vol. 433, 133837, Elsevier, 2022, doi:10.1016/j.cej.2021.133837.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[73]
2022 | Journal Article | IST-REx-ID: 12236
Wang, Xiang, et al. “CoFeNiMnZnB as a High-Entropy Metal Boride to Boost the Oxygen Evolution Reaction.” ACS Applied Materials & Interfaces, vol. 14, no. 42, American Chemical Society, 2022, pp. 48212–19, doi:10.1021/acsami.2c11627.
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[72]
2022 | Journal Article | IST-REx-ID: 14437
Utzat, Hendrik, and Maria Ibáñez. “Molecular Engineering Enables Bright Blue LEDs.” Nature, vol. 612, no. 7941, Springer Nature, 2022, pp. 638–39, doi:10.1038/d41586-022-04447-0.
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[71]
2021 | Journal Article | IST-REx-ID: 10806 | OA
Calcabrini, Mariano, et al. “Ligand Conversion in Nanocrystal Synthesis: The Oxidation of Alkylamines to Fatty Acids by Nitrate.” JACS Au, vol. 1, no. 11, American Chemical Society, 2021, pp. 1898–903, doi:10.1021/jacsau.1c00349.
[Published Version] View | Files available | DOI
 
[70]
2021 | Journal Article | IST-REx-ID: 9118 | OA
Calcabrini, Mariano, et al. “Exploiting the Lability of Metal Halide Perovskites for Doping Semiconductor Nanocomposites.” ACS Energy Letters, vol. 6, no. 2, American Chemical Society, 2021, pp. 581–87, doi:10.1021/acsenergylett.0c02448.
[Published Version] View | Files available | DOI | WoS
 
[69]
2021 | Journal Article | IST-REx-ID: 9206 | OA
Cadavid, Doris, et al. “Synthesis, Bottom up Assembly and Thermoelectric Properties of Sb-Doped PbS Nanocrystal Building Blocks.” Materials, vol. 14, no. 4, 853, MDPI, 2021, doi:10.3390/ma14040853.
[Published Version] View | Files available | DOI | WoS
 
[68]
2021 | Journal Article | IST-REx-ID: 10123 | OA
Liu, Yu, et al. “The Importance of Surface Adsorbates in Solution‐processed Thermoelectric Materials: The Case of SnSe.” Advanced Materials, vol. 33, no. 52, 2106858, Wiley, 2021, doi:10.1002/adma.202106858.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[67]
2021 | Journal Article | IST-REx-ID: 10073 | OA
Chang, Cheng, and Maria Ibáñez. “Enhanced Thermoelectric Performance by Surface Engineering in SnTe-PbS Nanocomposites.” Materials, vol. 14, no. 18, 5416, MDPI, 2021, doi:10.3390/ma14185416.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[66]
2021 | Journal Article | IST-REx-ID: 10809
Liu, Yu, and Maria Ibáñez. “Tidying up the Mess.” Science, vol. 371, no. 6530, American Association for the Advancement of Science, 2021, pp. 678–79, doi:10.1126/science.abg0886.
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[65]
2021 | Journal Article | IST-REx-ID: 9304 | OA
Zhang, Yu, et al. “Influence of Copper Telluride Nanodomains on the Transport Properties of N-Type Bismuth Telluride.” Chemical Engineering Journal, vol. 418, no. 8, 129374, Elsevier, 2021, doi:10.1016/j.cej.2021.129374.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[64]
2021 | Journal Article | IST-REx-ID: 9305 | OA
Zhang, Yu, et al. “Doping-Mediated Stabilization of Copper Vacancies to Promote Thermoelectric Properties of Cu2-XS.” Nano Energy, vol. 85, no. 7, 105991, Elsevier, 2021, doi:10.1016/j.nanoen.2021.105991.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[63]
2021 | Journal Article | IST-REx-ID: 10327 | OA
Li, Mengyao, et al. “PbS–Pb–CuxS Composites for Thermoelectric Application.” ACS Applied Materials and Interfaces, vol. 13, no. 43, American Chemical Society , 2021, pp. 51373–51382, doi:10.1021/acsami.1c15609.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS | PubMed | Europe PMC
 
[62]
2021 | Journal Article | IST-REx-ID: 9235 | OA
Li, Mengyao, et al. “Effect of the Annealing Atmosphere on Crystal Phase and Thermoelectric Properties of Copper Sulfide.” ACS Nano, vol. 15, no. 3, American Chemical Society , 2021, pp. 4967–4978, doi:10.1021/acsnano.0c09866.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS | PubMed | Europe PMC
 
[61]
2021 | Conference Abstract | IST-REx-ID: 15280 | OA
Balazs, Daniel, et al. “Controlled Reactive Assembly of Colloidal Nanocrystal Superlattices: Mechanism and Kinetics.” Proceedings of the Internet NanoGe Conference on Nanocrystals, 050, Fundació Scito, 2021, doi:10.29363/nanoge.incnc.2021.050.
[Published Version] View | DOI | Download Published Version (ext.)
 
[60]
2020 | Journal Article | IST-REx-ID: 7467 | OA
Cadavid, Doris, et al. “Influence of the Ligand Stripping on the Transport Properties of Nanoparticle-Based PbSe Nanomaterials.” ACS Applied Energy Materials, vol. 3, no. 3, American Chemical Society, 2020, pp. 2120–29, doi:10.1021/acsaem.9b02137.
[Submitted Version] View | Files available | DOI | WoS
 
[59]
2020 | Journal Article | IST-REx-ID: 7634
Miranti, Retno, et al. “Exclusive Electron Transport in Core@Shell PbTe@PbS Colloidal Semiconductor Nanocrystal Assemblies.” ACS Nano, vol. 14, no. 3, American Chemical Society, 2020, pp. 3242–50, doi:10.1021/acsnano.9b08687.
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[58]
2020 | Journal Article | IST-REx-ID: 8039
Zhang, Yu, et al. “Tin Selenide Molecular Precursor for the Solution Processing of Thermoelectric Materials and Devices.” ACS Applied Materials and Interfaces, vol. 12, no. 24, American Chemical Society, 2020, pp. 27104–11, doi:10.1021/acsami.0c04331.
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[57]
2020 | Journal Article | IST-REx-ID: 8747
Zhang, Yu, et al. “Bismuth Telluride-Copper Telluride Nanocomposites from Heterostructured Building Blocks.” Journal of Materials Chemistry C, vol. 8, no. 40, Royal Society of Chemistry, 2020, pp. 14092–99, doi:10.1039/D0TC02182B.
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[56]
2020 | Journal Article | IST-REx-ID: 8926
Irtem, Erdem, et al. “Ligand-Mode Directed Selectivity in Cu-Ag Core-Shell Based Gas Diffusion Electrodes for CO2 Electroreduction.” ACS Catalysis, vol. 10, no. 22, American Chemical Society, 2020, pp. 13468–78, doi:10.1021/acscatal.0c03210.
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[55]
2020 | Journal Article | IST-REx-ID: 8746 | OA
Miranti, Retno, et al. “Electron Transport in Iodide-Capped Core@shell PbTe@PbS Colloidal Nanocrystal Solids.” Applied Physics Letters, vol. 117, no. 17, 173101, AIP Publishing, 2020, doi:10.1063/5.0025965.
[Published Version] View | DOI | Download Published Version (ext.) | WoS
 
[54]
2019 | Journal Article | IST-REx-ID: 6566 | OA
Ibáñez, Maria, et al. “Tuning Transport Properties in Thermoelectric Nanocomposites through Inorganic Ligands and Heterostructured Building Blocks.” ACS Nano, vol. 13, no. 6, American Chemical Society, 2019, pp. 6572–80, doi:10.1021/acsnano.9b00346.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[53]
2019 | Journal Article | IST-REx-ID: 6586 | OA
Ibáñez, Maria, et al. “Ligand-Mediated Band Engineering in Bottom-up Assembled SnTe Nanocomposites for Thermoelectric Energy Conversion.” Journal of the American Chemical Society, vol. 141, no. 20, American Chemical Society, 2019, pp. 8025–29, doi:10.1021/jacs.9b01394.
[Published Version] View | Files available | DOI | WoS | PubMed | Europe PMC
 
[52]
2018 | Journal Article | IST-REx-ID: 5982 | OA
Zhang, Yu, et al. “Tin Diselenide Molecular Precursor for Solution-Processable Thermoelectric Materials.” Angewandte Chemie International Edition, vol. 57, no. 52, Wiley, 2018, pp. 17063–68, doi:10.1002/anie.201809847.
[Submitted Version] View | DOI | Download Submitted Version (ext.) | WoS
 
[51]
2017 | Journal Article | IST-REx-ID: 375
Berestok, Taisiia, et al. “Tuning Branching in Ceria Nanocrystals.” Chemistry of Materials, vol. 29, no. 10, American Chemical Society, 2017, pp. 4418–24, doi:10.1021/acs.chemmater.7b00896.
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[50]
2017 | Journal Article | IST-REx-ID: 373
Coughlan, Claudia, et al. “Compound Copper Chalcogenide Nanocrystals.” Chemical Reviews, vol. 117, no. 9, American Chemical Society, 2017, pp. 5865–6109, doi:10.1021/acs.chemrev.6b00376.
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[49]
2017 | Journal Article | IST-REx-ID: 374
Ortega, Silvia, et al. “Bottom up Engineering of Thermoelectric Nanomaterials and Devices from Solution Processed Nanoparticle Building Blocks.” Chemical Society Reviews, vol. 46, no. 12, Royal Society of Chemistry, 2017, pp. 3510–28, doi:10.1039/c6cs00567e.
View | DOI | PubMed | Europe PMC
 
[48]
2016 | Journal Article | IST-REx-ID: 364
Luo, Zhishan, et al. “Pd2Sn [010] Nanorods as a Highly Active and Stable Ethanol Oxidation Catalyst.” Journal of Materials Chemistry A, vol. 4, no. 42, Royal Society of Chemistry, 2016, pp. 16706–13, doi:10.1039/c6ta06430b.
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[47]
2016 | Journal Article | IST-REx-ID: 367
Ibáñez, Maria, et al. “Phosphonic Acids Aid Composition Adjustment in the Synthesis of Cu2+xZn1−xSnSe4−y Nanoparticles.” Journal of Nanoparticle Research, vol. 18, no. 8, Springer, 2016, doi:10.1007/s11051-016-3545-4.
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[46]
2016 | Journal Article | IST-REx-ID: 369
Ibáñez, Maria, et al. “High Performance Thermoelectric Nanocomposites from Nanocrystal Building Blocks.” Nature Communications, vol. 7, Nature Publishing Group, 2016, doi:doi:10.1038/ncomms10766.
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[45]
2016 | Journal Article | IST-REx-ID: 372
Dalmases, Mariona, et al. “Synthesis and Thermoelectric Properties of Noble Metal Ternary Chalcogenide Systems of Ag Au Se in the Forms of Alloyed Nanoparticles and Colloidal Nanoheterostructures.” Chemistry of Materials, vol. 28, no. 19, American Chemical Society, 2016, pp. 7017–28, doi:10.1021/acs.chemmater.6b02845.
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[44]
2016 | Journal Article | IST-REx-ID: 380
Bertolotti, Federica, et al. “Crystal Symmetry Breaking and Role of Vacancies in Colloidal Lead Chalcogenide Quantum Dots.” Nature Materials, vol. 15, Nature Publishing Group, 2016, pp. 987–94, doi:10.1038/NMAT4661.
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2016 | Journal Article | IST-REx-ID: 381
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Ibáñez, Maria, et al. “Composition Control and Thermoelectric Properties of Quaternary Chalcogenide Nanocrystals: The Case of Stannite Cu2CdSnSe4.” Chemistry of Materials, vol. 24, no. 3, American Chemical Society, 2012, pp. 562–70, doi:10.1021/cm2031812.
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2011 | Journal Article | IST-REx-ID: 335
Ibáñez, Maria, et al. “Means and Limits of Control of the Shell Parameters in Hollow Nanoparticles Obtained by the Kirkendall Effect.” Chemistry of Materials, vol. 23, no. 12, American Chemical Society, 2011, pp. 3095–104, doi:10.1021/cm2006633.
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Ibáñez, Maria, et al. “Growth Kinetics of Asymmetric Bi2S3 Nanocrystals: Size Distribution Focusing in Nanorods.” Journal of Physical Chemistry C, vol. 115, no. 16, American Chemical Society, 2011, pp. 7947–55, doi:10.1021/jp2002904.
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2009 | Journal Article | IST-REx-ID: 337
Cabot, Andreu, et al. “Reaction Regimes on the Synthesis of Hollow Particles by the Kirkendall Effect.” Journal of the American Chemical Society, vol. 131, no. 32, ACS, 2009, pp. 11326–28, doi:10.1021/ja903751p.
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