Latest News
Electrochemical CO2 Utilisation
CO2 Capture & Utilisation
CO2 Capture & Utilisation
CO2 Capture & Utilisation
CO2 Capture & Utilisation
Power production from combustion of fossil fuels releases CO2, which is mainly responsible for global warming and cause severe problems to both ecology and human beings. The rise in atmospheric CO2 levels must be slowed or reverted to avoid undesirable climate change. Materials capable of cost-effective CO2 conversion into chemicals and fuels would help in stabilizing the atmospheric levels of greenhouse gas. The potential products can be obtained with CO2 conversion are formic acid, methanol, CO and ethylene. At present there is no commercially viable process for the conversion of CO2 to useful chemicals and the current state-of-the-art materials are expensive, which limit commercial implementation. For example, although several materials are known for the electrochemical conversion of CO2, until now only precious metals such as Au and Ag could promote this process with Faradaic efficiency more than 80%. Because of the durability and poisoning effect many efficient catalysts are far beyond commercialization. We strategically focus on the synthesis of nanomaterials in various forms (metals, bimetals, alloys, intermetallic, core shell etc.) and study their efficiency in the photochemical, electrochemical and heterogeneous conversion of CO2 into fuel and chemicals. The reaction mechanism and kinteics are completely understood by a detailed electronic structure calculations. Our materials and methods are expected to have the potential to convert waste CO2 to produce gasoline, diesel fuel, jet fuel, and industrial chemicals.
Power production from combustion of fossil fuels releases CO2, which is mainly responsible for global warming and cause severe problems to both ecology and human beings. The rise in atmospheric CO2 levels must be slowed or reverted to avoid undesirable climate change. Materials capable of cost-effective CO2 conversion into chemicals and fuels would help in stabilizing the atmospheric levels of greenhouse gas. The potential products can be obtained with CO2 conversion are formic acid, methanol, CO and ethylene. At present there is no commercially viable process for the conversion of CO2 to useful chemicals and the current state-of-the-art materials are expensive, which limit commercial implementation. For example, although several materials are known for the electrochemical conversion of CO2, until now only precious metals such as Au and Ag could promote this process with Faradaic efficiency more than 80%. Because of the durability and poisoning effect many efficient catalysts are far beyond commercialization. We strategically focus on the synthesis of nanomaterials in various forms (metals, bimetals, alloys, intermetallic, core shell etc.) and study their efficiency in the photochemical, electrochemical and heterogeneous conversion of CO2 into fuel and chemicals. The reaction mechanism and kinteics are completely understood by a detailed electronic structure calculations. Our materials and methods are expected to have the potential to convert waste CO2 to produce gasoline, diesel fuel, jet fuel, and industrial chemicals.
Latest News
All Publications
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Tuning the Acidity and Textural Properties for Enhanced Economical CO2 Capture in Polyethyleneimine (PEI) Supported Adsorbents. J. Mater. Chem. A. 2024, https://doi.org/10.1039/D4TA05215C
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A Perspective on Electrochemical Point Source Utilization of CO2 and Other Flue Gas Components to Value Added Chemicals. Adv. Mater., 2024, https://doi.org/10.1002/adma.202407124
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Green Hydrogen from Wastewater─A Dual Crisis Resolution. ACS Energy & Fuels. 2024, https://doi.org/10.1021/acs.energyfuels.
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Pyrolysis Free Out-of-Plane Co-Single Atomic Sites in Porous Organic Photopolymer Stimulates Solar-Powered CO2 Fixation. Small, 2024, 20 (11), 2305307
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Unfolding the Significance of Regenerative Active Species in Nickel Hydroxide-Based Systems for Sustained Urea Electro-Oxidation. Chem. Mater. 2024, 36, 11, 5343–5355
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Lattice Charge Tuning-Driven Multi-Carbon Products from Carbon Dioxide. ACS Sustainable Chem. Eng. 2024, https://doi.org/10.1021/acssuschemeng.4c02069
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Tuning the Electrocatalytic Activity of Pd Nanocatalyst toward Hydrogen Evolution and Carbon Dioxide Reduction Reactions by Nickel Incorporation. Chem. Mater, 2024, https://doi.org/10.1021/acs.chemmater.4c00809
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Nitrogen Doping-Induced Structural Distortion in LaMnO3 Enhances Oxygen Reduction and Oxygen Evolution Reactions. ACS Energy Lett. 2024, https://doi.org/10.1021/acsenergylett.4c01206
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Unraveling the Cooperative Mechanisms in Ultra-low Copper-Loaded WC@NGC for Enhanced CO2 Electroreduction to Acetic Acid. Chem. Mater, 2024, https://doi=10.1021/acs.chemmater.4c00405
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A Guideline to Determine Faradic Efficiency in Electrochemical CO2 Reduction. ACS Energy Lett, 2024, 9, 1, 323-328,
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Distortion-Induced Interfacial Charge Transfer at Single Cobalt Atom Secured on Ordered Intermetallic Surface Enhances Pure Oxygen Production. ACS nano, 2023, 17, 22, 23169–23180
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A Comprehensive Overview on Catalytic Pathway for CO2 Utilization with Epoxide to Cyclic Carbonate, Chem Catal, 2023, https://doi.org/10.1016/j.checat.2023.100796
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Pyrolysis Free Out-of-Plane Co-Single Atomic Sites in Porous Organic Photopolymer Stimulates Solar-Powered CO2 Fixation. Small, 2023, 2305307
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Tweaking Photo CO2 Reduction by Altering Lewis Acidic Sites in Metalated-Porous Organic Polymer for Adjustable H2/CO Ratio in Syngas Production, Angew Chem, 2023, https://doi.org/10.1002/anie.202311304
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Metal Deficiency Tailored by the 18-Electron Rule Stabilizes Metal-Based Inorganic Compounds, Chem. Mater, 2023, https://doi.org/10.1021/acs.chemmater.3c01142
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Highly Efficient Electrochemical Hydrogen Evolution with Ultra-Low Loading of Strongly Adhered Pt Nanoparticles on Carbon, Small, 2023, 2303495
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Thermochemical CO2 Conversion to High Energy Dense Fuels, Energy Materials, 2023, 8, 221-247
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Photo-Responsive Signatures in a Porous Organic Polymer Enable Visible Light-Driven CO2 Photofixation. ACS Sustainable Chem. Eng. 2023, 11, 6, 2066–2078
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Engineering the Charge Density on an In2.77S4/Porous Organic Polymer Hybrid Photocatalyst for CO2-to- Ethylene Conversion Reaction, J. Am. Chem. Soc. 2023, 145, 422-435
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Wurtzite CuGaS2 with an In-Situ-Formed CuO Layer Photocatalyzes CO2 Conversion to Ethylene with High Selectivity, Angew Chem, 2023, e202216613, 1-10
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Cobalt-Induced Phase Transformation of Ni3Ga4 Generates Chiral Intermetallic Co3Ni3Ga8, J. Am. Chem. Soc. 2023, 145, 2, 1433–1440
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Structural ordering enhances highly selective production of acetic acid from CO2 at ultra-low potential, EES Catal, 2023, 1, 162-170
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Optimized Structural Dimensionality of CuSbS2 as an Anode Material in Sodium-Ion Batteries, ACS Appl. Energy Mater. 2023, 6, 920–929
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Noble-Metal-Free Heterojunction Photocatalyst for Selective CO2 Reduction to Methane upon Induced Strain Relaxation. ACS Catal., 2022, 12, 687–697
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Diversityin Crystal Structure and Physical Properties of RETX3 (RE– Rare Earth, T– Transition Metal, X –Main Group Element) Intermetallics. Chem. Rec., 2022, 22, 2021003-17
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Green transformation of CO2 to ethanol using water and sunlight by the combined effect of naturally abundant red phosphorus and Bi2MoO6. Energy Environ. Sci., 2022, 15, 1967-1976
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Activating oxygen deficient TiO2 in the visible region by Bi2MoO6 for CO2 photoreduction to methanol. Chem. Comm., 2022, 58, 6638-6641.
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Potential- and Time-Dependent Dynamic Nature of an Oxide-Derived PdIn Nanocatalyst during Electrochemical CO2 Reduction. ACS Nano 2022, 16, 6185–6196.
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Structure-Tailored Surface Oxide on Cu–Ga Intermetallics Enhances CO2 Reduction Selectivity to Methanol at Ultralow Potential. Adv. Mater., 2022, 34, 2109426.
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Catalyst designing strategies for electrochemical CO2 reduction: A perspective. Prog. Energy., 2022, 4, 032002.
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Ortho-halogen effects: n→π* interactions, halogen bonding, and deciphering chiral attributes in N-aryl glycine peptoid foldamers. J. Mol. Struct., 2022, 1264, 133276
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Morphology Tuned Pt3Ge Accelerates Water Dissociation to Industrial Standard Hydrogen Production over a wide pH Range. Adv. Mater., 2022. 34, 2202294-10
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In Situ Mechanistic Insights for the Oxygen Reduction Reaction in Chemically Modulated Ordered Intermetallic Catalyst Promoting Complete Electron Transfer, J. Am. Chem. Soc. 2022, 144, 11859-11869
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Improvement in Oxygen Evolution Performance of NiFe Layered Double Hydroxide Grown in the Presence of 1T-Rich MoS2, ACS Apl. Mater. Interfaces, 2022, 14, 31951–31961
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Strain-Enhanced Phase Transformation of Iron Oxide for Higher Alcohol Production from CO2, ACS Catalysis, 2022, 12, 11118–11128
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Influence of support textural property on CO2 to methane activity of Ni/SiO2 catalysts, Appl. Catal. B, 147 2022, 317, 121692-10
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Optimized Metal Deficiency-Induced Operando Phase Transformation Enhances Charge Polarization Promoting Hydrogen Evolution Reaction, Chem. Mater. 2022, 34, 19, 8999–9008
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Toward Unifying the Mechanistic Concepts in Electrochemical CO2 Reduction from an Integrated Material Design and Catalytic Perspective, Adv. Funct. Mater. 2022, 2209023
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Intrinsic Charge Polarization in Bi19S27Cl3 Nanorods Promotes Selective CC Coupling Reaction during Photoreduction of CO2 to Ethanol, Adv. Mater. 2022, 2205994
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Nickel substitution induced reentrant spin glass behavior in EuGa4, Phys. Rev. B, 2022, 106, 224414
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Mechanistic Insights into the Promotional Effect of Ni Substitution in Non-Noble Metal Carbides for Highly Enhanced Water Splitting. Roy, S.; Bagchi, D.; Dheer, L.; Sarma, S. C.; Rajaji, V.; Narayana, C.; Waghmare, U. V.; Peter, S. C. Appl. Catal. B, 2021, 298, 120560
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Noble-Metal-Free Heterojunction Photocatalyst for Selective CO2 Reduction to Methane upon Induced Strain Relaxation. Das, R.; Sarkar, S.; Kumar, R.; Ramarao, S. D.; Cherevotan, A.; Jasil, M.; Vinod, C. P.; Singh, A. K.; Peter, S. C. ACS Catal., 2021, 12, 687-697.
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Systematic Assessment of Solvent Selection in Photocatalytic CO2 Reduction. Das, R.; Chakraborty, S.; Peter, S. C. ACS Energy Lett., 2021, 6, 3270-3274.
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An Overview of Porous Silica Immobilized Amines for Direct Air CO2 Capture. Cherevotan, A.; Raj, J.; Peter, S. C. J. Mater. Chem. A, 2021, 9, 27271-27303.
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An Overview of the Materials and Methodologies for CO2 Capture Under Humid Conditions. Ray, B.; Churipard, S. R.; Peter, S. C. J. Mater. Chem. A, 2021, 9, 26498-26527.
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Operando Generated Ordered Heterogeneous Catalyst for the Selective Conversion of CO2 to Methanol. Cherevotan, A.; Raj, J.; Dheer, L.; Roy, S.; Sarkar, S.; Das, R.; Vinod, C. P.; Xu, S.; Wells, P.; Waghmare, U. V.; Peter, S. C. ACS Energy Lett., 2021, 6, 509-516.
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Unveiling the Roles of Lattice Strain and Descriptor Species on Pt-Like Oxygen Reduction Activity in Pd-Bi Catalysts. Sarkar, S.; Ramarao, S. D.; Das, T.; Das, R.; Vinod, C. P.; Chakraborty, S.; Peter. S. C. ACS Catal. 2021, 11, 800-808
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Ultralow Non-Noble Metal loaded MOF Derived Bi-Functional Electrocatalysts for Oxygen Evolution and Reduction Reactions. Bagchi, D.; Phukan, N.; Sarkar, S.; Das, R.; Pavithra, B.; Naryanan, R.; Peter, S. C. J. Mater. Chem. A, 2021, 9, 9319-9326
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Conductive interface promoted bifunctional oxygen reduction/evolution activity in an ultra-low precious metal-based hybrid catalyst. Sarkar, S.; Verghese, M.; Vinod, C. P.; Peter, S. C. Chem. Commun. 2021, 57, 1951-1954
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An overview on Sb-based intermetallics and alloys for sodium-ion batteries: trends, challenges and future prospects from material synthesis to battery performance. Sarkar, S.; Peter, S. C. J. Mater. Chem. A 2021, 9, 5164-5196
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An overview on Pt3X electrocatalysts for oxygen reduction reaction. Sarkar, S.; Peter, S. C. Chem. Asian J. 2021, 16, 1184-1197
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Dealloying Induced Manipulative Disruption of Ni2P–SnP Heterostructure Enabling Enhanced Hydrogen Evolution Reaction. Sarkar, S.; Peter, S. C. J. Phys. Chem. C 2021, 125, 13225–13233.
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Structure-Tailored Non-Noble Metal-based Ternary Chalcogenide Nanocrystals for Pt-like Electrocatalytic Hydrogen Production. Sarkar, S.; Rawat, A.; Das, T.; Gaboardi, M.; Chakraborty, S.; Vinod, C. P.; Peter, S. C. ChemSusChem 2021, 14, 3074-3083
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Compressive Strain Induced by Multiple Phase Distribution and Atomic Ordering in PdCu Nanoparticles to Enhanced Ethanol Oxidation Reaction Performance. Ashly, P. C.; Sarkar, S.; Sarma, S. C.; Kaur, K.; Gautam, U.; Peter, S. C. J. Power Sources 2021, Just Accepted.
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Ambient, Tunable Room Temperature Phosphorescence from a Simple Phthalimide Phosphor in Amorphous Polymeric Matrix and in Crystalline State. Garain, S.; Singh, A. K.; Peter, S. C.; George, S. J. Mater. Res. Bull. 2021, 142, 111420.
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An Overview on the Structural Diversity of Europium based Ternary Intermetallics. Ramarao, S. D.; Singh, A. K.; Subbarao, U.; Peter. S. C. J. Solid State Chem., 2020, 281, 121048.
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Stress Induced Electronic Structure Modulation of Mn-incorporated Ni2P Leading to Enhanced Activity for Water-Splitting, Sarkar, S.; Dheer, L.; Vinod, C. P.; Thapa, R.; Waghmare, U. V.; Peter, S. C. ACS Appl. Energy Mater., 2020, 3, 1271-1278
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Highly Efficient Bifunctional Oxygen Reduction/Evolution Activity in a Non-Precious Nanocomposite Derived from Tetrazine-COF. Roy, S.; Marri, S.; Sai, M. K.; Sarma, S. C.; Sarkar, S.; Peter, S. C. Nanoscale, 2020, 12, 22718-22734
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Deconvoluted Quantification of Phase-Size-Strain Effects in Metal Carbide Nanocrystals for Enhanced Hydrogen Evolution. Roy, S.; Bagchi, D.; Vemuri, V.; Sarma, S. C.; Ahuja, V.; Rajaji, V.; Narayana, C.; Peter, S. C. Nanoscale, 2020,12, 15414-15425
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Review of Catalyst Design and Mechanistic Studies for the Production of Olefins from Anthropogenic CO2. D. Goud, R. Gupta, R.-M. Ganesh, S. C. Peter ACS Catal., 2020, 10, 14258-14282 (Impact factor: 12.35)
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CO2 capture and sequestration - A solution for enhanced recoveries of unconventional gases and liquids. Gupta, R.; Peter, S. C. Energ. Climate Change 2020, 1, 100003.
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Rare-Earth Based half-Heusler Topological Quantum Materials: A Perspective. Singh, A. K.; Ramarao, S. D.; Peter, S. C. APL Mater., 2020, 8, 060903.
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Tweaking Palladium Electronic Structure to Attain Oxygen Reduction Activity Superior to Platinum/C. Sarma, S. C.; Manoj, K. S.; Mishra, V.; Vinod, C. P.; Peter, S. C. ACS Appl. Energy Mater. 2020, 3, 6127-6132.
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Operando Sodiation Mechanistic Study of a New Antimony based Intermetallic CoSb as High Performance Sodium Ion Battery Anode. Sarkar, S.; Chaupatnaik, A.; Barpanda, P.; Peter, S. C. J. Phys. Chem. C, 2020, 124, 15757
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Polyaniline Hybrid Nanofibers via Green Interfacial Polymerization for All-Solid-State Symmetric Supercapacitors Konwar, G.; Sarma, S. C.; Mahanta, D.; Peter, S. C. ACS Omega, 2020, 5, 14494–14501
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Microstructural and magnetic properties of epitaxial Ni50Mn37/35Sn13/15 Heusler alloy thin films grown by pulsed laser deposition. Vishal, B.; Bhat, U.; Sharona, H.; Mukherjee, A.; Roy, S.; Peter, S. C.; Datta, R. J. Crystal Growth, 2020, 546, 125772
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Understanding the Role of Trivalent Cobalt Octahedral in Highly Efficient Nanocrystalline Co3O4 System for Oxygen Evolution Reaction. Alex, C.; Sarma, S. C.; Peter, S. C.; John, N. ACS Appl. Energy Mater., 2020, 3, 5439–5447
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The design, synthesis and in vivo biological evaluations of [V(IV)O(2,6-pyridine diacetatato) (H2O)2] (PDOV): Featuring its prolonged glucose lowering effect and non-toxic nature. Ramabaran, V.; Saumya, S. M.; Roy, S.; Sonu, K. P.; Eswaramoorthy, M.; Peter, S. C. Inorg. Chim. Acta, 2020, 504, 119448
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Reversing the Activity Centre in Doped Pd17Se15 to Achieve High Stability Towards Electrochemical Hydrogen Evolution Reaction. Sarma, S. C.; Kaja, S. M.; Ann Mary, K. A.; Peter, S. C. ACS Appl. Energy Mater., 2020, 3, 4051-4056
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"Breaking the O=O bond"- Deciphering the Role of Each Element in Highly Durable CoPd2Se2 towards Oxygen Reduction Reaction. Sarma, S. C.; Mishra, V.; Vemuri, V.; Peter, S. C. ACS Appl. Energy Mater., 2020, 3, 231-239
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“Sacrificial protection in action!”- Ultra-high stability in palladesite mineral towards oxygen reduction reaction. Sarma, S. C.; Vemuri, V.; Mishra, V.; Peter, S. C. J. Mater. Chem. A, 2019, 7, 979.
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Pressure induced topological and structural phase transitions in 1T-TiSe2: a Raman study. Rajaji, V.; Janaky, S.; Sarma, S. C.; Peter, S. C.; Narayana, C. J. Phys.: Condensed Matter, 2019, 31, 165401.
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Topochemical Bottom-Up Synthesis of 2D-and 3D-Sodium Iron Fluoride Frameworks. Dey, U. K. Barman, N. Ghosh, S.; Sarkar, S.; Peter, S. C.; Senguttuvan, P. Chem. Mater., 2019, 31, 295.
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Investigations into an Intramolecular Proton Transfer and Solvent Dependent Acid-Base Equilibria in 2,6-Pyridine Diacetic Acid. Boodram, S.; Roy, S.; Singh, N.; Fairman, R. A.; Peter, S. C.; Rambaran, V. H. Chem. Select, 2019, 4, 4301.
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Structural, magnetotransport and Hall coefficient studies in ternary Bi2Te2Se, Sb2Te2Se and Bi2Te2S tetradymite topological insulating compounds. Kanagaraj, M.; Pawbake, A.; Sarma, S. C.; Rajaji, V.; Narayana, C.; Measson, M.; Peter, S. C. J. Alloys Compd, 2019, 794, 195-202.
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The Effect of Sn Substitution on The Thermoelectric Properties of Synthetic Tetrahedrite. Tippireddy, S.; Kumar D. S, P.; Karati, A.; Ramakrishnan, A.; Sarkar, S.; Peter, S. C.; Malar, P.; Chen, K.; Murty, B. S.; Mallik, R. C. ACS Appl. Mater. Interface, 2019, 11, 21686.
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Growth of ReS2 thin films by pulsed laser deposition. Vishal, B.; Sharona, H.; Bhat, U.; Paul, A.; Sreedhara, M. B.; Rajaji, V.; Sarma, S. C.; Narayana, C.; Peter, S. C.; Datta, R. Thin Solid Films, 2019, 685, 81.
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Phonon signatures of topological quantum phase transitions in compressed TlBiS2: A combined experimental and theoretical study. Rajaji, V.; Arora, R.; Sarma, S. C.; Joseph, B.; Wagmare, U. V.; Peter, S. C.; Narayana, C. Phys. Rev. B, 2019, 99, 184109.
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Photophysical and Electrochemical Studies Anchored Chromium (III) Complex on Graphene Oxide via Diazonium Chemistry and Photophysical Studies. Jose, G. Rajamani, A. R.; Sreekanth, A.; Jose, S. P.; Peter, S. C.; Sreeja, P. B. Appl. Organometal. Chem., 2019, 33, e5063.
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Magnetic characterization of nano-sized terbium doped bismuth ferrite synthesized by sol-gel method. Satyanarayana, S.; Sarma, S. C.; Peter, S. C.; Bhattacharya, S. J. Magn. Magn. Mater., 2019, 1, 165571.
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Calorimetric study on EuCoGe3 and EuRh2In8 under pressure, S. E. Muthu, D. Braithwaite, B. Salce, S. Arumugam, L. Govindaraj, M. Kanagaraj, S. Sarkar, S. C. Peter, J. Phys. Soc. Jpn., 2019, 88, 074702.
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Facile synthesis of brownmillerite KBiFe2O5: Structural, Magento-dielectric, Optical, Photoelectrochemical studies and enhanced photocatalytic activity over perovskite BiFeO3. Vavilapalli, D. S.; Melwin, A. A.; Kavita, S.; Yadav, A. K.; Jha, S. N.; Bhattacharyya, D.; Sarma, S. C.: Peter, S. C.; Ramachandra Rao, M. S.; Singh, S. Sol. Energ. Mat. Sol. C., 2019, 200, 109940.
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Two-Dimensional Semiconductor Transition Metal Based Chalcogenide Based Heterostructures for Water Splitting Applications. Sumesh, C. K.; Peter, S. C. Dalton Trans., 2019, 48, 12772.
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Synergetic Effect of Ni substituted Pd2Ge Ordered Intermetallic Nanocomposites for Efficient Electrooxidation of Ethanol in Alkaline Media. Rajamani, A. R.; Ashly, P. C.; Dheer, L.; Sarma, S. C.; Sarkar, S.; Bagchi, D.; Waghmare, U. V.; Peter, S. C. ACS Appl. Energy Mater., 2019, 2, 7132.
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Synthetically Tuned Pd-Based Intermetallic Compounds and their Structural Influence on the O2 Dissociation in Benzylamine Oxidation. Marakatti, V. S.; Sarma, S. C.; Sarkar, S.; Peter, S. C. ACS Appl. Mater. Interfaces, 2019, 11, 37602.
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Unraveling the Role of Site Isolation and Support for Semi-Hydrogenation of Phenylacetylene. Goud, D.; Cherevotan, A.; Ganesh, R. M.; Ray, B.; Ramarao, S. D.; Raj, J.; Peter, S. C. Chem. Asian J., 2019, 14, 4819-4827.
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Structural, vibrational, and electrical properties of 1T−TiTe2 under hydrostatic pressure: Experiments and theory. Rajaji, V.; Dutta, U.; Sreeparvathy, P. C.; Sarma, S. C.; Sorb, Y. A.; Joseph, B.; Sahoo, S.; Peter, S. C.; Kanchana, V.; Narayana, C. Phys. Rev. B, 2018, 97, 085107.
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Structural, magnetic and magnetocaloric properties of EuMnO3 perovskite manganite: A comprehensive MCE study. Kokila, I. P.; Kanagaraj, M.; Kumar, P. S.; Peter, S. C.; Sekar, C.; Therese, H. A. Mater. Res. Exp., 2018, 5, 026917
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Crystal engineering in supramolecular polyoxometalate hybrids through pH controlled in-situ ligand hydrolysis. Roy, S.; Mumbarradi, D.; Jain, A.; George, S. J.; Peter, S. C. Inorg. Chem., 2018, 57, 590.
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Order-Disorder Structural Phase Transition and Magnetocaloric Effect in Organic-Inorganic Halide Hybrid (C2H5NH3)2CoCl4. Sen, A.; Roy, S.; Peter, S. C.; Paul, A.; Waghmare, U. V.; Sundaresan, A. J. Solid State Chem., 2018, 258, 431.
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Understanding the role of atomic ordering in the crystal structures of NixSny towards efficient vapor phase furfural hydrogenation. Marakkatti, V. S.; Arora, N.; Rai, S.; Sarma, S. C.; Peter, S. C. ACS Sustainable Chem. Eng., 2018, 6, 7325.
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New Quaternary Chalcogenide Glasses with wide Range IR Transparency. Ramarao, S.; Mumbaraddi, D.; Kalsi, D.; Halappa, P.; Peter, S. C. Materials Res. Exp., 2018, 5, 075201
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Pressure-induced band inversion, electronic and structural phase transitions in InTe: A combined experimental and theoretical study. Rajaji, V.; Koushik, P.; Sarma. S. C.;Joseph, B.; Peter, S. C.; Waghmare, U. V.; Narayana, C. Phys. Rev. B, 2018, 97, 155158
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Designing and understanding small-molecule electro-oxidation on palladium based compounds-a feature on experimental and theoretical approach. Sarma, S. C. Peter, S. C. Dalton Trans., 2018, 47, 7864
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An overview on Pd based electrocatalysts for hydrogen evolution reaction. Sarkar, S.; Peter, S. C. Inorg. Chem. Frontiers, 2018, 5, 2060
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Reduction of CO2 to Chemicals and Fuels: A Solution to Global Warming and Energy Crisis. Peter, S. C. ACS Energy Lett., 2018, 3, 1557.
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Thermochemical CO2 Hydrogenation to Single Carbon Products: Scientific and Technological Challenges, Roy, S. Cherevotan, A. R.; Peter, S. C. ACS Energy Lett., 2018, 3, 1938.
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Complex Crystal Chemistry of Yb6(CuGa)50 and Yb6(CuGa)51 Grown at Different Synthetic Conditions. Mishra, V.; Oliynyk, A.; Subbarao, U.; Sarma, S. C.; Roy, S.; Peter S. C. Cryst. Growth Des., 2018, 18, 6091.
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Synthetically tuned electronic and geometrical properties of Intermetallic compounds as heterogeneous catalysts. Marakkatti, V. S; Peter, S. C, Prog. Solid State Chem., 2018, 52, 1.
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Novel Nanostructured Pt/CeO2@Cu2O Carbon - Based Electrode to Magnify the Electrochemical Detection of the Neurotransmitter Dopamine and Analgesic Paracetamol. Rajamani, A. R.; Peter, S. C. ACS Appl. Nano Mater., 2018, 1, 5148.
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Anisotropic Near Zero Thermal Expansion in REAgGa3 (RE = La-Nd, Sm, Eu & Yb) Induced by Structural Reorganization. Mishra, V.; Subbarao, U.; Roy, S.; Sarma, S. C.; Mumbaraddi, D.; Sarkar, S.; Peter, S. C. Inorg. Chem., 2018, 57, 12576.
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Two Keggin Based Isostructural POMOF hybrids: Synthesis, Crystal Structure and Catalytic Properties. Roy, S.; Vemuri, V.; Maiti, S.; Manoj, K. S.; Subbarao, U.; Peter, S. C. Inorg. Chem., 2018, 57, 12078.
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"Inverse Strain Effect in Atomic Scale” - Enhanced Hydrogen Evolution Activity and Durability in Cu substituted Palladseite. Sarma, S. C.; Ann Mary, K A; Roy, S. Peter, S. C. ACS Energy Lett., 2018, 3, 3008.
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Synthesis, crystal structure and luminescence properties of acenaphthene benzohydrazide based ligand and its zinc(II) complex. Kumar, M.; Roy, S.; Peter, S. C.; Faizi, M. S. H.; John, R. P. J. Mol. Struct., 2017, 1128, 195.
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Synthetically tuned atomic ordering in PdCu nanoparticles with enhanced catalytic activity towards solvent free benzylamine oxidation. Marakatti, V.; Sarma, S. C.; Joseph, B.; Banerjee, D.; Peter, S.C. ACS Appl. Mater. Interfaces., 2017, 9, 3602.
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Synthetically tuned structural variations in CePdxGe2-x (x = 0.21, 0.32, 0.69) towards diverse physical properties. Sarkar, S.; Banerjee, S.; Halappa, P.; Kalsi, D.; Mumbaraddi, D.; Ghara, S.; Pati, S. K.; Sundaresan, A.; Silva, I. D.; Rayaprol, S.; Joseph B.; Peter, S. C. Inorg. Chem. Frontiers, 2017, 4, 241.
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Chemically designed CeO2 nanoboxes boost the catalytic activity of Pt nanoparticles toward electro-oxidation of formic acid. Ramani, S.; Sarkar, S.; Vemuri, V.; Peter, S. C. J. Mater. Chem. A., 2017, 5, 11572.
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Synthesis, characterisation and antibacterial activity evaluation of trinuclear Ni(II) complexes with N-substituted salicylhydrazide ligands. Singh, M. K.; Kumar, S.; Kumar, M.; Hansda, A.; Kumar, V.; Roy, S.; Peter, S. C.; John, R. P. Polyhedron 2017, 126, 100.
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Are we underrating rare-earth as an electrocatalyst?- The effect of their substitution in palladium nanoparticles enhances the activity towards ethanol oxidation reaction. Sarma, S. C.; Subbarao, U.; Khulbe, Y.; Jana, R.; Peter, S. C. J. Mater. Chem. A, 2017, 5, 23369.
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Ce2PtGe3: A new ordered orthorhombic superstructure in the AlB2 family with spin glass behavior. Sarkar, S.; Roy, S.; Kalsi, D.; Peter, S. C. Inorg. Chem. Frontiers, 2017, 4, 2097.
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Evolution of Magnetism in LnCuGa3 (Ln = La – Nd, Sm – Gd) Studied via μSR and Specific Heat. Graf, M. J.; Hettinger, J. D.; Nemeth, K.; Dally, R.; Amato, A.; Baines, C.; Subbarao, U.; Peter, S. C. J. Magn. Magn. Mater., 2017, 444, 236.
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Evolution of dealloyed PdBi2 nanoparticles as electrocatalysts with enhanced activity and remarkable durability in hydrogen evolution reaction. Sarkar, S.; Subbarao, U.; Peter, S. C. J. Mater. Chem. A, 2017, 5, 15950.
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Electrochemical Stimuli Driven Facile Metal Free Hydrogen Evolution from Pyrene-Porphyrin Based Crystalline Covalent Organic Framework. Bhunia, S.; Das, S.; Jana, R.; Peter, S. C.; Bhattacharya, S.; Addicoat, M.; Bhaumik, M.; Pradhan, A. ACS Appl. Mater. Interfaces, 2017, 9, 23843,
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Mercouri G. Kanatzidis: Excellence and innovations in inorganic and solid state chemistry. Arachchige, I.; Armatas, G.; Biswas, K.; Subrahmanyam, K.; Latturner, S,; Malliakas, C.; Manos, M.; Oh, Y.; Poudeu, P.; Trikalitis, P.; Zhang, Q.; Zhao, L.; Polychronopoulou, K.; Peter, S. C. Inorg. Chem, 2017, 56, 7582.
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Facile aqueous phase synthesis of PtAu/Bi2O3 hybrid catalyst for efficient electro-oxidation of ethanol. Sarkar, S.; Jana, R.; Vadlamani, H.; Ramani, S.; Mubbaraddi, D.; Peter, S. C. ACS Appl. Mater. Interfaces, 2017, 9, 15373.
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Nature of low dimensional structural modulations and relative phase stability in RexMo(W)1-xS2 transition metal dichalcogenide alloys. Sahu, R.; Bhat, U.; Batra, N. M.; Sharona, H.; Vishal, B.; Sarkar, S.; Aravindh, S. A.; Peter, S. C.; Roqan, I. S.; Costa, P. M. F. J.; Datta, R. J. Appl. Phys, 2017, 121, 105101.
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Swinging symmetry, multiple structural phase transitions and versatile physical properties in RECuGa3 (RE = La-Nd, Sm-Gd). Subbarao, U.; Rayaprol, S.; Rebecca, D.; Graf, M.; Peter, S. C. Inorg. Chem., 2016, 55, 666.
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Magnetic and X-ray absorption studies on the RE5X2Sb6 (RE = Eu, Yb; X = Al, Ga, In) Compounds. Subbarao, U.; Sarkar, S.; Joseph, B.; Peter, S. C. J. Alloys Compd. 2016, 229, 287.
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A review on the synthesis, crystal growth, structure and physical properties of rare earth based quaternary intermetallic compounds. Mumbaraddi, D.; Sarkar, S.; Peter, S. C. J. Solid State Chem., 2016, 236, 94.
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Pressure induced electronic topological transition in Sb2S3. Sorb,Y.; Rajaji, V.; Malavi, P.; Subbarao, U.; Halappa, P.; Karmakar, S.; Peter, S. C.; Narayana, C. J. Phys. Condens. Matter., 2016, 28, 015602.
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Heterostructured composites of rGO/GeO2/PANI with enhanced performance for Li ion battery anode material. Sarkar, S.; Borah, R.; Dhanya, R.; Narayana, C.; Santhosha, A. L.; Bhattacharyya, A. J.; Peter, S. C. J. Power Sources, 2016, 306, 791.
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Crystal structure and band gap engineering in polyoxometalate-based inorganic-organic hybrids. Roy, S.; Sarkar, S.; Pan, J.; Waghmare, U. V.; Dhanya, R.; Narayana, C.; Peter, S. C. Inorg. Chem., 2016, 55, 3364.
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Layer specific optical band gap measurement at nanoscale in MoS2 and ReS2 van der Waals compounds by high resolution electron energy loss spectroscopy. Dileep, K.; Sahu, R.; Sarkar, S.; Peter, S. C. R. Datta. J. Appl. Phys., 2016, 119, 114309.
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Nickel-antimony nanoparticles confined in SBA-15 as a highly efficient catalyst for the hydrogenation of nitroarenes. Marakkatti, V.; Peter, S. C. New J. Chem., 2016, 40, 5448.
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Enhanced air stability in REPb3 (RE = Rare Earths) by dimensional reduction mediated valence transition. Subbarao, U.; Sarkar, S.; Jana, R.; Bera, S. S.; Peter, S. C. Inorg. Chem., 2016, 55, 5603.
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Selective colorimetric detection of Cu2+ by lanthanide-based hybrid complexes associated with a single crystal growth mediated transformation. Roy, S.; Chanu, O. B.; Sarkar, S.; Peter, S. C. J. Mater. Chem. C, 2016, 4, 6256.
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Facile solvothermal synthesis of highly active and robust Pd1.87Cu0.11Sn electrocatalyst towards direct ethanol fuel cell applications. Jana, R.; Dhiman, S.; Peter, S. C. Mater Res. Express., 2016, 3, 084001.
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One-pot solvothermal synthesis of ordered intermetallic Pt2In3 as stable and efficient electrocatalyst towards direct alcohol fuel cell application. Jana, R.; Peter, S. C. J. Solid State Chem., 2016, 242, 133.
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Manipulating hydrogen adsorption energy and d-band Centre through electrochemical dealloying of PdCu3 nanoparticle to achieve pt-like activity for hydrogen evolution reaction. Jana, R.; Bhim, A.; Bothra, P.; Pati, S. K.; Peter, S. C. Chem Sus Chem, 2016, 9, 1.
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Structural evolution of the compounds Eu3T2In9 (T = Cu and Ag) through the superstructure of EuCu2Ge2 and their physical properties. Subbarao, U.; Sarma, S. Ch.; Sarkar, S.; Mishra, V.; Khulbe, Y.; Peter, S. C. Inorg. Chem., 2016, 55, 10351.
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Size and morphology controlled NiSe nanoparticles as efficient catalyst for the hydrogenation reactions. Subbarao, U.; Amshumali, M. K.; Loukya, B.;Datta, R.; Peter, S. C. J. Solid State Chem., 2016, 244, 84.
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Mixed valence and metamagnetism in a metal flux grown compound Eu2Pt3Si5. Sarkar, S.; Subbarao, U.; Joseph, B.; Peter, S. C. J. Solid State Chem., 2015, 225, 181.
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Yb7Ni4InGe12: A quaternary compound having mixed valent Yb atoms grown from Indium flux. Subbarao, U.; Jana, R.; Chondroudi, M.; Balasubramanian, M.; Kanatzidis, M. G. Peter, S. C. Dalton Trans., 2015, 44, 5797.
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The germanides ScTGe (T = Co, Ni, Cu, Ru, Rh, Pd, Ag, Ir, Pt, Au) – structure and 45Sc solid state NMR spectroscopy. Heying.; Haverkamp, S.; Rodewald, U. Ch.; Eckert, H.; Peter, S. C.; Pöttgen, R. Solid State Sci., 2015, 39, 15.
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Structure and magnetic properties of Nd2NiGe3. Sarkar, S.; Kalsi, D.; Rayaprol, S.; Peter, S. C. J. Alloys. Compd., 2015, 632, 172.
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Crystal structure and properties of tetragonal EuAg4In8 grown by metal flux techniques. Subbarao, U.; Sarkar, S.; Peter, S. C. J. Solid State Chem., 2015, 226, 126.
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Structure and physical properties of RE2AgGe3 (RE = Ce, Pr, Nd) compounds. Sarkar, S.; Mumbaraddi, D.; Halappa, P.; Kalsi, D.; Rayaprol, S.; Peter, S. C. J. Solid State Chem., 2015, 229, 287.
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Ultrafast synthesis of flower-like ordered Pd3Pb nanocrystals with superior electrocatalytic activities towards oxidation of formic acid and ethanol. Jana, R.; Subbarao, U.; Peter, S. C. J. Power Sources, 2015, 301, 160.
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Ordered Pd2Ge intermetallic nanoparticles as highly efficient and robust catalyst for ethanol oxidation. Sarkar, S.; Jana, R.; Suchitra; Waghmare, U. V.; Thapa, B.; Sampath, S.; Peter, S. C. Chem. Mater., 2015, 27, 7459.
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Eu3Ir2In15 –A mixed valent and vacancy filled variant of the Sc5Co4Si10 structure type with anomalous magnetic properties. Sarkar, S.; Banerjee, S.; Jana, R.; Siva, R.; Pati, S. K.; Balasubramanian, M.; Peter,S. C. Inorg. Chem., 2015, 54, 10855.
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Ligand mediated valence fluctuation of copper in new hybrid materials constructed from decavanadate and Cu(1,10-penanthroline) complex. Iyer, A. K.; Roy, S.; Haridas, R.; Sarkar, S.; Peter, S. C. Dalton Trans., 2014, 43, 2153.
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Effect of Li and Mg substitution on the crystal structure and magnetism of the REGa2 (RE = Ce and Eu) and EuGa4 compounds. Iyer, A. K.; Balisetty, L.; Sarkar, S.; Peter, S. C. J. Alloys Compd., 2014, 582, 305.
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Two dimensional bicapped supramolecular hybrid semiconductor material constructed from the insulators a-Keggin polyoxomolybdate and 4,4'-bipyridine. Iyer, A. K.; Peter, S. C. Inorg. Chem., 2014, 53, 653.
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TbRhSn and DyRhSn - Detailed magnetic and 119Sn Mössbauer spectroscopic studies. Latka, K.; Pacyna, A. W.; Peter, S. C.; Pöttgen, R.; Gurgul, J. Intermetallics, 2014, 46, 56.
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Crystal structure of Yb2CuGe6 and Yb3Cu4Ge4 and the valency of ytterbium. Peter, S. C.; Subbarao, U.; Sarkar, S.; Vaitheeswaran, G.; Svane, A.; Kanatzidis, M. G. J. Alloys Compd., 2014, 589, 405.
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Effect of ordered and disordered phases of unsupported Ag3In nanoparticles on the catalytic reduction of p-nitrophenol. Sarkar, S.; Balisetty, L.; Shanbogh, P. P.; Peter. S. C. J. Catal., 2014, 318, 143-150.
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Ligand mediated valence fluctuation of copper in new hybrid materials constructed from decavanadate and Cu(1,10-phenanthroline) complex. A. K. Iyer, S. Roy, R. Haridasan, S. Sarkar, S. C. Peter, Dalton Trans. 2014, 43, 2153-2160
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Neutron diffraction studies on structural and magnetic properties of RE2NiGe3 (RE = La, Ce). Kalsi, D.; Rayaprol, S.; Siruguri, V.; Peter, S. C. J. Solid State Chem., 2014, 217, 113.
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Structural and magnetic properties in the polymorphs of CeRh0.5Ge1.5. Kalsi, D.; Subbarao, U.; Rayaprol, S.; Peter, S. C. J. Solid State Chem., 2014, 212, 73-80.
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Flux growth of Yb6.6Ir6Sn16 having mixed valent ytterbium. Peter, S. C.; Subbarao, U.; Rayaprol, S.; Martin, J. B.; Balasubramanian, M.; Malliakas, C. D.; Kanatzidis, M. G. Inorg. Chem., 2014, 53, 6615.
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Crystal structure and magnetic properties of a Zintl phase EuIrIn4: the first member of the Eu–Ir–In family. Sarkar, S.; Guttmann, M.; Peter, S. C. Dalton Trans., 2014, 43, 15879.
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Crystal growth, structure and magnetic properties of Sm3Ni5Al19: a compound in the Sm2n+mNi4n+15n+4m homologous series. Subbarao, U.; Ghosh, A. K.; Sarkar, S.; Peter, S. C. J. Chem. Sci., 2014, 126, 1605.
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New structure type in the mixed-valent compound YbCu4Ga8. Subbarao, U.; Gutmann, M. J.; and Peter, S. C. Inorg. Chem., 2013, 52, 2219.
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Crystal growth and properties of YbCuGa3: First monoclinic system in the RETX3 family. Subbarao, U.; Gutmann, M. J.; and Peter, S. C. Cryst. Growth Des., 2013, 13, 953.
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Crystal structure and physical properties of indium flux grown RE2AuSi3 (RE = Eu, Yb). Sarkar, S.; Gutmann, M. J.; Peter, S. C. Cryst. Engg. Comm., 2013, 15, 8006.
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Crystal structure and magnetic properties of indium flux grown EuAu2In4 and EuAuIn4. Sarkar, S.; Gutmann, M. J.; Peter, S. C. Cryst. Growth Des., 2013, 13, 4285.
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Structure and properties of SmCu6-xIn6+x (x = 0, 1, 2). Subbarao, U.; and Peter, S. C. J. Chem. Sci., 2013, 125, 1315.
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Structural phase transitions in a new compound Eu2AgGe3. Sarkar, S.; Peter, S. Inorg. Chem. 2013, 52, 9741.
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Single crystal X-ray diffraction studies on magnetic Yb5Co4Ge10. Subbarao, U.; Peter, S. C. Adv. Mater. Chem. Phys., 2013, 3, 54.
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Structure and Unusual Magnetic properties of mixed valent YbMn0.17Si1.88. Peter, S. C.; Malliakas, C. D.; Kanatzidis, M. G. Inorg. Chem., 2013, 52, 4909.
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Low cost nano materials crystallize in the NiAs structure type as alternative to the noble metals in the hydrogenation process. Shabogh, P.; Peter, S. C. RSC Adv., 2013, 3, 22887.
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Yb5Ga2Sb6: A mixed valent and narrow-band gap material in the RE5M2X6 family. Subbarao, U.; Sarkar, S.; Gudelli, V.; Kanchana, V.; Vaitheeswaran, Peter, S. C. Inorg. Chem., 2013, 52, 13631.
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Metal flux crystal growth technique in the determination of ordered superstructure in EuInGe. Subbarao, U.; Sebastian, A.; Rayaprol, S.; Yadav, C. S.; Svane, A.; Vaitheeswaran, G. and Peter, S. C. Cryst. Growth Des., 2012, 13, 352.
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Metallic Yb2AuGe3: An ordered superstructure in the AlB2 type family with mixed valent Yb and a high temperature phase transition. Peter, S. C.; Sarkar, S.; and Kanatzidis, M.G. Inorg. Chem., 2012, 51, 10793.
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Single crystal growth of europium and ytterbium based intermetallic compounds using metal flux technique. Sarkar, S.; and Peter, S. C. J. Chem. Sci., 2012, 124, 385.
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Crystal structure of YbCu6In6 and mixed valence behavior of Yb in YbCu6-xIn6+x (x = 0, 1, 2) solid solution. Subbarao, U.; and Peter, S. C. Inorg. Chem., 2012, 51, 6326.
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EuLiGe2 and YbLiGe2 – A divalent and an intermediate-valent compound with CaLiSi2-type structures. Iyer, A.K.; and Peter, S. C. Eur. J. Inorg. Chem., 2012, 2012, 1790.
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The polygallides. Yb3Ga7Ge3 and YbGa4Ge2. Peter, S. C.; Malliakas, C.D.; Nakotte, H.; Kothapilli, K.; Rayaprol, S.; Schultz, A.J.; Kanatzidis, M.G. J. Solid State Chem., 2012, 187, 200.
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Yb4LiGe4 – A Yb mixed valent Zintl phase with strong electronic correlations. Peter, S. C.; Disseler, S. M.; Svensson, J. N.; Carretta, P.; and Graf, M. J. J. Alloys Compd., 2012, 516, 126.
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ThSi2 type ytterbium disilicide and its analogues YbTxSi2-x (T = Cr, Fe, Co). Peter, S.C.; and Kanatzidis, M. G. Z. Anorg. Allg. Chem., 2012, 638, 287.
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Yb3AuGe2In3: An ordered variant of the YbAuIn structure exhibiting mixed-valent Yb behavior.Chondroudi, M.; Peter, S. C.; Malliakas, C. D.; Balasubramanian, M.; Li, Q.; Kanatzidis, M. G. Inorg. Chem., 2011, 50, 1184.
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Thallium chalcogenide based wide band gap semiconductors: TlGaSe2 for x- and γ-ray detector. Johnsen, S.; Liu, Z.; Peters, J.; Song, J-H.; Peter, S. C.; Cho, N.; Malliakas, C. D.; Jin, H.; Freeman, A. J.; Wessels, B.W.; Kanatzidis, M. G. Chem. Mater., 2011, 23, 3120.
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Anomalous thermal expansion in the square-net compounds RE4TGe8 (RE = Yb, Gd; T = Cr–Ni, Ag). Peter, S. C.; Chondroudi, M.; Malliakas, C. D.; Balasubramanian, M.; Kanatzidis, M. G. J. Am. Chem. Soc., 2011, 133, 13840.
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Tl2Hg3Q4 (Q = S, Se, Te): High density, wide band gap semiconductors. Johnsen, S.; Peter, S. C.; Nguyen, S.; Song, J-H.; Jin, H.; Freeman, A. J.; Kanatzidis, M.G. Chem. Mater., 2011, 23, 4375.
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Dimensional reduction: A design tool for new radiation detection materials. Androulakis, J. E.; Peter, S. C.; Li, H.; Malliakas, C. D.; Peters, J.; Liu, Z.; Wessels, B.W.; Song, J-H.; Jin, H.; Freeman, A. J.; Kanatzidis, M. G. Adv. Mater. 2011, 23, 4163.
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Crystal structure and properties of Yb5Ni4Ge10. Peter, S. C.; Rayaprol, S.; Francisco, M.C.; Kanatzidis, M.G. Eur. J. Inorg. Chem., 2011, 3963-3968.
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45Sc solid state NMR studies of the silicides ScTSi (T = Fe, Co, Ni, Cu, Ru, Rh, Pd, Ir, Pt). Harmening, Th.; Eckert, H.; Fehse, C. M.; Peter, S. C.; Pottgen, R. J. Solid State Chem., 2011, 184, 3303.
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Competing interactions and magnetic frustration in Yb4LiGe4. Disseler, S. M.; Svensson, J. N.; Peter, S. C.; Beyers, C.; Baines, C.; Amato, A.; Giblin, S. R.; Carretta, P.; Graf, M. J. Phy. Rev. B, 2011, 87, 174429.
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119Sn Mössbauer spectroscopy of the intermetallic compound HoRhSn. Gurgul, J.; Latka, K.; Pacyna, A.W.; Peter, S. C.; Pöttgen, R. Intermetallics, 2010, 18, 129.
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Ferromagnetic ordering in ThSi2 type CeAu0.28Ge1.72. Peter, S. C.; Kanatzidis, M. G. J. Solid State Chem., 2010, 183, 878.
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The new binary intermetallic YbGe2.83. Peter, S. C.; Kanatzidis, M. G. J. Solid State Chem., 2010, 183, 2077.
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Indium flux-growth of Eu2AuGe3: A new germanide with an AlB2 superstructure. Peter, S. C.; Malliakas, C. D.; Chondroudi, M.; Schellenberg, I.; Rayaprol, S.; Pottgen, R.; Kanatzidis, M. G. Inorg. Chem., 2010, 49, 9574.
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Synthesis, structure and magnetic properties of new intermetallicsYbAu2In4 and Yb2Au3In5. Peter, S. C.; Salavador, J.; Martin, J. B.; Wong-Ng, W.; Kanatzidis, M. G. Inorg. Chem., 2010, 49, 10468.
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Bulk and local properties of DyRhSn. Latka, K.; Gurgul, J.; Pacyna, A. W.; Verbovytsky, Y.; Przewoznik, J.; Peter, S. C.; Pöttgen, R. J. Alloys Compd., 2009, 480, 81.
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The polar mixed-valent lanthanum iron(II, III) sulfide La3Fe2S7: Synthesis, crystal and electronic structure, 57Fe Mössbauer spectra, magnetic susceptibility & electrical resistivity. Mills, M.; Braeunling, D.; Rosner, H.; Schnelle, W.; Peter, S. C.; Pottgen, R.; Ruck, M. J. Solid State Chem., 2009, 182, 1136.
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Synthesis, crystal structure, and transport properties of Na22Si136. Beekman, M.; Peter, S. C.; Grin, Y.; Nolas, G. S. J. Electr. Mater., 2009, 38, 1136.
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XPS and Mössbauer studies on BaSn1-xNbxO3 (x 0.100). Singh, P.; Benjamin, J. B.; Peter, S. C.; Kumar, D.; Parkash, O. Mat. Res. Bull., 2008, 43, 2078.
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Electronic structure, electrical and dielectric properties of BaSnO3 below room temperature. Singh, P.; Brandenburg, B. J.; Peter, S. C.; Singh, P.; Kumar, D.; Parkash, O. Jpn. J. Appl. Phys., 2008, 47, 3540.
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Searching for heaxagonal analogous of the half-metallic half Heusler XYZ compounds. Casper, F.; Felser, C.; Seshadri, R.; Peter, S. C.; Pöttgen, R. J. Phys. D: Appl. Phys., 2008, 41, 035002.
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Electronic structure of RAuSn (R = Sc, Ce, Gd, Er, and Lu) investigated with X-ray photoelectron spectroscopy and band structure calculations. Gegner, J.; Wu, H.; Berggold, K.; Peter, S. C.; Harmening, T.; Pottgen, R.; Tjeng, L. H. Phys. Rev. B 2008, 77, 035103.
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The high-temperature modification of LuAgSn and high-pressure high-temperature experiments on DyAgSn, HoAgSn, and YbAgSn. Heying, B.; Rodewald, U. Ch.; Heymann, G.; Hermes, W.; Schappacher, F. M.; Riecken, J. F.; Peter, S. C.; Huppertz, H.; Pöttgen, R. Z. Naturforsch., 2008, 63b, 193.
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A 119Sn Mössbauer and 45Sc solid state NMR spectroscopic study of the stannides ScTSn (T = Ni, Pd, Pt). Harmening, T.: Peter, S. C.; Eckert, H.; Pöttgen, R. Solid State Sci., 2008, 10, 1395.
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Structure, chemical bonding, and properties of the thallides EuMg1–xTl1+x (x =0.013–0.058). Kraft, R.; Hoffmann, R. -D.; Peter, S. C.; Pöttgen, R.; Grin, Y.; Prots’, Y. M.; Schnelle, W.; Schmidt, M.; Baitinger, M. Chem. Mater., 2008, 20, 1948.
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Hyperfine interactions studied by 119Sn Mössbauer spectroscopy in SmRhSn. Gurgul, J.; Latka, K.; Pacyna, A. W.; Verbovytsky, Y.; Heying, B.; Peter, S. C.; Pöttgen, R. Hyperfine Interact., 2008, 184, 33.
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Mössbauer and magnetic characterization of TbRhSn. Latka, K.; Gurgul, J.; Pacyna, A. W.; Verbovytsky, Y.; Heying, B.; Peter, S. C.; Pöttgen, R. Mössbauer and magnetic characterization of TbRhSn. Hyperfine Interact., 2008, 184, 39.
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Correlation between microstructure and electrical conduction behavior with defect structure of niobium doped barium stannate. Singh, P.; Peter, S. C.; Kumar, D.; Parkash, O. J. Alloys Compd., 2007, 437, 34.
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Structure and properties of α- and ß-CeCuSn. Peter, S. C.; Rayaprol, S.; Hoffmann, R. -D.; Rodewald, U. Ch.; Pape, T.; Pöttgen, R. Z. Naturforsch., 2007, 61b, 647.
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The stannides YNixSn2 (x = 0, 0.14, 0.21, 1) - Syntheses, structure and 119Sn Mössbauer spectroscopy. Peter, S. C.; Pöttgen, R. Monatsh. Chem., 2007, 138, 381.
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New stannide ScAgSn – Determination of the superstructure via two-dimensional 45Sc solid state NMR. Peter, S. C.; Eckert, H.; Fehnse, C.; Zhan, L.; Hoffmann, R. -D.; Pöttgen, R. Inorg. Chem., 2007, 46, 771.
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151Eu and 119Sn Mössbauer spectroscopy of Eu5Sn3S12 and Eu4LuSn3S12. Jakubcová, P.; Johrendt, D.; Peter, S. C.; Rayaprol, S.; Pöttgen, R. Structure, magnetic properties, Z. Naturforsch. B, 2007, 62, 5.
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Differentiation of the scandium sites in ScAuSi and ScAuGe via 45Sc solid state NMR spectroscopy. Peter, S. C.; Eckert, H.; Pöttgen, R. Z. Naturforsch., 2007, 62b, 173.
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The stannidesScNi1.54(1)Sn and ScNi1.85(1)Sn – Structures, 45Sc NMR and 119Sn Mössbauer spectroscopy. Peter, S. C.; Eckert, H.; Pöttgen, R. Solid State Sci., 2007, 9, 357.
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Dimorphic ErAgSn and TmAgSn – High-pressure and high-temperature driven phase transitions. Peter, S. C.; Heymann, G.; Heying, B.; Rodewald, U. Ch.; Huppertz, H.; Pöttgen, R. Z. Anorg. Allg. Chem., 2007, 633, 1551.
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Hydrogenation of the Ce(Rh1-xIrx)Ga system – Occurrence of antiferromagnetic ordering in the hydrides Ce(Rh1-xIrx)GaH1.8 Chevalier, B.; Heying, B.; Rodewald, U. Ch.; Peter, S. C.; Bauer, E.; Pöttgen, R. Chem. Mater., 2007, 437, 34.
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Correlation between microstructure and electrical conduction behavior with defect structure of niobium doped barium stannate. Singh, P.; Peter, S. C.; Kumar, D.; Parkash, O. J. Alloys Compd., 2007, 437, 34.
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119Sn solid state NMR and Mössbauer spectroscopy RECuSn (RE = Sc, Y, La, Lu). Peter, S. C.; Fehnse, C.; Eckert, H.; Hoffmann, R. –D.; Pöttgen, R. Solid State Sci., 2006, 8, 1386.
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Structure refinements of REAuSn (RE = Sm, Gd, Tm). Peter, S. C.; Pöttgen, R. Z. Naturforsch., 2006, 61, 1145.
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Magnetic ordering in RETSn (RE = Gd-Er and T = Cu, Ag) - An investigation by 119Sn Mössbauer spectroscopy and specific heat. Peter, S. C.; Rayaprol, S.; Pöttgen, R. Solid State Commun., 2006, 140, 276.
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A new preparative approach to HgPbP14 structure type materials: Crystal structure of Cu0.73(1)Sn1.27(1)P14 and characterization of M1-xSn1-xP14 (M - Cu, Ag) and AgSbP14 Lange, S.; Peter, S. C.; Nilges, T. Z. Anorg. Allg. Chem., 2006, 632, 195.
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Crystal chemistry and spectroscopic properties of ScAuSn, YAuSn, and LuAuSn. Peter, S. C.; Eckert, H.; Rayaprol, S.; Hoffmann, R. -D.; Pöttgen, R. Solid State Sci., 2006, 8, 560.
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Ag3SnCuP10: [Ag3Sn] tetrahedra embedded in adamantane-type [P10] cages. Lange, S.; Peter, S. C.; Zhang, L.; Eckert, H.; Nilges, T. Inorg. Chem., 2006, 45, 5878.
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[C6H21N4][Sb9S14O]: The first non centro-symmetric open Sb-S framework containing the new SbS2O building unit. Kiebach, R.; Näther, C.; Peter, S. C.; Mosel, B. D.; Pöttgen, R.; Bensch, W. J. Solid State Chem., 2006, 179, 3082.
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Ferromagnetic ordering in the thallide EuPdTl2. Kraft, R.; Rayaprol, S.; Peter, S. C.; Pöttgen, R. Z. Naturforsch. B, 2006, 61, 159.
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Crystal structure and specific heat of GdCuGe. Rayaprol, S.; Peter, S. C.; Pöttgen, R. J. Solid State Chem., 2006, 179, 2041.
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Hydrogenation of intermediate valence ternary stannides CeRhSn and CeIrSn. Chevalier, B.; Peter, S. C.; Pöttgen, R. Solid State Sci., 2006, 8, 1000.
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Structural, magnetic and spectroscopic studies of YAgSn, TmAgSn, and LuAgSn. Peter, S. C.; Eckert, H.; Fehnse, C.; Wright, J.; Attfield, P.; Johrendt, D.; Rayaprol, S.; Hoffmann, R. –D.; Pöttgen, R. J. Solid State Chem., 2006, 179, 2443.
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Structure, chemical bonding and 119Sn Mössbauer spectroscopy of LaRhSn and CeRhSn. Schmidt, T.; Johrendt, D.; Peter, S. C.; Pöttgen, R.; Latka, K.; Kmie'c, R. Z. Naturforsch. B, 2005, 60, 1036.
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Redistribution of cations amongst different lattice sites in Cu1-xCoxFe2O4ferrospinels during alkylation: magnetic study. Mathew, T.; Shylesh, S.; Reddy, S. N.; Peter, S. C.; Date, S. K.; Rao, B. S.; Kulkarni, S. D. Cat. Lett., 2004, 93, 155.
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Regio selective butylation of toluene on mordenite catalysts: influence of acidity. Peter, S. C.; Pai, S.; Sharanappa, N.; Satyanarayana, C. V. V. J. Mol. Cat. A: Chemical, 2004, 223, 305.
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The stannides TmAgSn and LuAgSn. Peter, S. C.; Pöttgen, R. Z. Anorg. Allg. Chem., 2004, 630, 1757.
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Oxidative dehydrogenation of ethylbenzene over Cu1-xCoxFe2O4 catalyst system influence of acid–base property. Mathew, T.; Malwadkar, S.; Pai, S.; Sharanappa, N.; Peter, S. C.; Satyanarayana, C.V.V.; Bokade, V.V. Cat. Lett., 2003, 91, 217.