Fast and reversible thermoresponsive polymer switching materials for safer batteries
|
|
- Emery Lane
- 5 years ago
- Views:
Transcription
1 ARTICLE NUMBER: DOI: /NENERGY Fast and reversible thermoresponsive polymer switching materials for safer batteries Zheng Chen, Po-Chu Hsu, Jeffrey Lopez, Yuzhang Li, John W. F. To, Nan Liu, Chao Wang, Sean Andrews, Jia Liu, Yi Cui and Zhenan Bao Supplementary Figure 1. Low (a) and high (b) magnification SEM images of native spiky Ni particles, which show clear nanoscale extrusions on the particle surface. NATURE ENERGY 1
2 DOI: /NENERGY Supplementary Figure 2. DSC curve of pure LDPE. The melting point is measured to be about 95 C. 2 NATURE ENERGY
3 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 3. A digital photograph of PE/GrNi-based TRPS coated on an Al foil. The film size is about 25 cm*15 cm. NATURE ENERGY 3
4 DOI: /NENERGY Supplementary Figure 4. SEM (a) and TEM (b) images of spherical Ni particles with featureless surface. 4 NATURE ENERGY
5 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 5. DSC plots of PE/GrNi-based TRPS films at different volume ratios of GrNi particle. All different samples have melting points at ~95 C, which is similar to the pure LDPE. NATURE ENERGY 5
6 DOI: /NENERGY Supplementary Figure 6. DSC plots of pure PP and PP/GrNi-based TRPS. All different samples have melting points at ~150 C. This allows PP/GrNi-based TRPS to be operated at higher temperature (> 100 C) than PE/GrNi-based TRPS. 6 NATURE ENERGY
7 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 7. DSC plots of pure PVDF (a) and PVDF/GrNi-based TRPS (b). All different samples have melting points at ~170 C. This allows PVDF/GrNi-based TRPS to be operated at further increased temperature (e.g C, (c)). NATURE ENERGY 7
8 DOI: /NENERGY Supplementary Figure 8. Reversible thermal switching behavior of a TRPS (PE/GrNi, 30 vol% GrNi) film upon heating and cooling over 20 repeating cycles. The heating was performed by blowing hot air with a hot gun set at 157 C and about 2 cm away from the sample surface, which allowed the TRPS film to reach 80 C (measured by an IR gun). The resistance of the film kept stable during repeating operation. 8 NATURE ENERGY
9 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 9. Charge/discharge curves and capacity summary of LiCoO 2 /graphite full cells made from GrNi- (a) and bare Ni-based (b) TRPS current collectors. The designed capacity of both cells is ~ 2.2 mah. The battery with GrNi showed a capacity of 2.1 mah after 3 activation cycles, and the coulombic efficiency reached > 99%. For battery with bare Ni, the initial charge capacity reached ~3 mah, and a large part of the capacity came from voltage range below 4 V, indicating strong oxidation-dissolution of Ni. The battery can only be cycled for 2 times and the later coulombic efficiency was very low because of continuous dissolution of Ni. Some of such batteries cannot even cycle to 4.3 V (a commonly used charge cut-off voltage for LiCoO 2 /graphite cell) at the first cycle. The possible failing reasons could be the continuous oxidation-dissolution of Ni and gradually increased cell internal resistance. NATURE ENERGY 9
10 DOI: /NENERGY Supplementary Figure 10. Cyclic voltammograms of normal (using Al current collector) and safe LiCoO 2 batteries (after 3 initial cycles) at a scan rate of 0.5 mv s -1. Both batteries show similar redox characteristics, further confirming similar electrochemical activity and stability. 10 NATURE ENERGY
11 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 11. Rate capability of normal and safe LiCoO 2 -based batteries (after 5 initial galvanostatic cycles at 0.2 C). Both batteries show similar rate performance. The relatively low capacity of LiCoO 2 in this experiment is due to a moderate quality of such cathode material obtained commercially. NATURE ENERGY 11
12 DOI: /NENERGY Supplementary Figure 12. Cyclic voltammograms of normal (using Cu current collector) and safe graphite-based batteries (after 5 initial cycles) at a scan rate of 0.2 mv s -1. Both batteries show similar redox characteristics, indicating similar electrochemical activity and stability. 12 NATURE ENERGY
13 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 13. Cycling stability of safe (top) and normal (bottom) LiFePO 4 batteries at 25 and 50 C, respectively. The batteries were first cycled at room temperature for 50 cycles and then the environmental temperature was increased to 50 C (controlled by temperature chamber). To show intrinsic battery stability, a commercial available LiFePO 4 (which has better intrinsic cycling stability than LiCoO 2 at high temperature) was used as the active material. The result shows that PE/GrNi (30 v% of GrNi) TRPS allows battery to cycle at good performance in a broad range of temperature. This temperature can be further tuned by changing the composition of TRPS, as discussed in the main text. NATURE ENERGY 13
14 DOI: /NENERGY Supplementary Figure 14. Electrochemical impedance spectra (Nyquist) of normal and safe LiCoO 2 -based batteries after increasing the temperature to 70 C. Both batteries show similar EIS at room temperature (Figure 4e in main text), while the equivalent series resistance (ESR) of normal LiCoO 2 battery decreased to ~15 Ω due to de-lithiation and increased charge transfer at increased temperature. By comparison, the safe battery showed an ESR of ~1600 Ohm due to the turn-on of TRPS electrode. 14 NATURE ENERGY
15 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Figure 15. The second (a) and third (b) shut-down of the same battery as shown in Figure 4g. After the second shut-down, the battery resumed again and continued with the stable cycling. The battery was ramped to high temperature and then subjected to the third shutdown (b). Figure (c) shows magnified region of the shut-down cycles in (b). NATURE ENERGY 15
16 DOI: /NENERGY Supplementary Figure 16. Shut-down of graphite-based safe battery. Figure (a) shows the normal cycling at 25 C and then the shut-down after temperature was increased to 70 C. Figure (b) shows magnified region of the shut-down cycles in (a). 16 NATURE ENERGY
17 DOI: /NENERGY SUPPLEMENTARY INFORMATION Supplementary Table 1. Parameters used for thermal simulation. All the physical properties of the materials listed in the table are adapted from references. 1,2,3,4,5,6 Material Density (kg/m 3 ) Electrical resistivity (W*m) Thermal conductivity (W/(m*K)) Heat capacity (J/(kg*K)) Temperature coefficient of resistance (K -1 ) (T ref = 20⁰C) Ionic resistivity (W*m) Cu foil ** Graphite ** ** 30 electrode Separator ** 30 LiCoO ** ** 30 electrode Al foil ** Stainless steel ABS resin ** ** ** **Not used in simulation Supplementary References 1. Chen, S., Wan, C. & Wang, Y. Thermal analysis of lithium-ion batteries. J. Power Sources 140, (2005) Serway, R., Jewett J. W., Physics for Scientists and Engineers with Modern Physics (9th ed.), 2013, chapter 24, page 814, Brooks/Cole, 20 Channel Center Street, Boston. ISBN 10: NATURE ENERGY 17
18 DOI: /NENERGY Supplementary Movie 1. Demonstration of the fast thermal switching behavior of TRPS devices made by PE/GrNi. A LED is connected to a TRPS film in a circuit and lights up at room temperature. The LED is shut off soon after applying heat with a hot gun on blowing air, which results in a rapidly increased temperature of TRPS. After removal of the hot gun, the TRPS film cools down and LED lights up again. The shut-down response time is less than 1 sec upon applying heat source, confirming an ultra-fast switching behavior. The shut-down and resuming operation can be repeated by many times without obvious change of sensitivity and response time. Supplementary Movie 2. Demonstration of slicing properties of TRPS film. A free-standing PE/GrNi film is hand-cut by a razor blade at a moderate force, which leaves clean and smooth cross-section on both sides of the film. 18 NATURE ENERGY
Layered reduced graphene oxide with nanoscale interlayer gaps as a stable
Layered reduced graphene oxide with nanoscale interlayer gaps as a stable host for lithium metal anodes Dingchang Lin, Yayuan Liu, Zheng Liang, Hyun-Wook Lee, Jie Sun, Haotian Wang, Kai Yan, Jin Xie, Yi
More informationSupplementary Materials for
advances.sciencemag.org/cgi/content/full/3/12/eaao7233/dc1 Supplementary Materials for Ultrafast all-climate aluminum-graphene battery with quarter-million cycle life Hao Chen, Hanyan Xu, Siyao Wang, Tieqi
More informationCapacity fade studies of Lithium Ion cells
Capacity fade studies of Lithium Ion cells by Branko N. Popov, P.Ramadass, Bala S. Haran, Ralph E. White Center for Electrochemical Engineering, Department of Chemical Engineering, University of South
More informationSupplementary Materials for
advances.sciencemag.org/cgi/content/full/2/1/e1501038/dc1 Supplementary Materials for Environmentally-friendly aqueous Li (or Na)-ion battery with fast electrode kinetics and super-long life Xiaoli Dong,
More informationScalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries
ARTICLE NUMBER: 16113 DOI: 10.1038/NENERGY.2016.113 Scalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries Minseong Ko, Sujong Chae, Jiyoung Ma, Namhyung Kim, Hyun-Wook
More informationPolymer graphite composite anodes for Li-ion batteries
Polymer graphite composite anodes for Li-ion batteries Basker Veeraraghavan, Bala Haran, Ralph White and Branko Popov University of South Carolina, Columbia, SC 29208 Plamen Atanassov University of New
More informationGermanium Anode with Excellent Lithium Storage Performance in a Ge/Lithium-
Supporting Information Germanium Anode with Excellent Lithium Storage Performance in a Ge/Lithium- Cobalt-Oxide Lithium-Ion Battery Xiuwan Li, Zhibo Yang, Yujun Fu, Li Qiao, Dan Li, Hongwei Yue, and Deyan
More informationSupplementary Figure 1 Supplementary Figure 2
Supplementary Figure 1 XRD pattern of pure 3D PGC framework. The pure 3D PGC was obtained by immersing NaCl Na 2 S@GC in water to remove the NaCl and Na 2 S. The broad reflection peak in the range of 15
More information2014 GCEP Report - External
2014 GCEP Report - External Project title: High-Energy-Density Lithium Ion Battery using Self-Healing Polymers Investigators Zhenan Bao, Professor, Chemical Engineering Yi Cui, Professor, Material Sciences
More informationSupporting Information
Copyright WILEY-VCH Verlag GmbH & Co. KGaA, 69469 Weinheim, Germany, 2016. Supporting Information for Adv. Mater., DOI: 10.1002/adma.201604015 High Performance Graphene/Ni 2 P Hybrid Anodes for Lithium
More informationAn inorganic-organic hybrid supramolecular nanotube as high-performance anode for lithium ion batteries
Electronic Supplementary Material (ESI) for Dalton Transactions. This journal is The Royal Society of Chemistry 2018 An inorganic-organic hybrid supramolecular nanotube as high-performance anode for lithium
More informationMetal organic framework-based separator for lithium sulfur batteries
ARTICLE NUMBER: 16094 DOI: 10.1038/NENERGY.2016.94 Metal organic framework-based separator for lithium sulfur batteries 4 5 Songyan Bai 1,2, Xizheng Liu 1, Kai Zhu 1, Shichao Wu 1,2 Haoshen Zhou 1,2,3*
More informationHigh Performance Rechargeable Lithium-Iodine Batteries using Triiodide/Iodide Redox Couples in an Aqueous Cathode
Supplementary Information High Performance Rechargeable Lithium-Iodine Batteries using Triiodide/Iodide Redox Couples in an Aqueous Cathode Yu Zhao, Lina Wang, and Hye Ryung Byon* Byon Initiative Research
More informationBulk graphdiyne powder applied for highly efficient lithium storage
Electronic Supplementary Material (ESI) for ChemComm. This journal is The Royal Society of Chemistry 2014 Bulk graphdiyne powder applied for highly efficient lithium storage Shengliang Zhang, ab Huibiao
More informationSupporting Information
Electronic Supplementary Material (ESI) for SC Advances. This journal is The oyal Society of Chemistry 2014 Supporting Information Novel Functional Material Carboxymethyl Cellulose Lithium (CMC-Li) Enhanced
More informationHigh-Performance Silicon Battery Anodes Enabled by
Supporting Information for: High-Performance Silicon Battery Anodes Enabled by Engineering Graphene Assemblies Min Zhou,, Xianglong Li, *, Bin Wang, Yunbo Zhang, Jing Ning, Zhichang Xiao, Xinghao Zhang,
More informationSupplementary Figure 1 a-c, The viscosity fitting curves of high-molecular-weight poly(vinyl alcohol) (HMW-PVA) (a), middle-molecular-weight
Supplementary Figure 1 a-c, The viscosity fitting curves of high-molecular-weight poly(vinyl alcohol) (HMW-PVA) (a), middle-molecular-weight poly(vinyl alcohol) (MMW-PVA) (b) and low-molecular-weight poly(vinyl
More informationSupporting Information for
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2019 Supporting Information for Enhanced cycling stability of boron-doped lithium-rich
More informationA novel self-healing electrochromic film based on triphyelamine. cross-linked polymer
Electronic Supplementary Material (ESI) for Polymer Chemistry. This journal is The Royal Society of Chemistry 217 Supporting Information A novel self-healing electrochromic film based on triphyelamine
More informationSupporting Information
Supporting Information A Yolk-Shell Design for Stabilized and Scalable Li-Ion Battery Alloy Anodes Nian Liu,, Hui Wu,, Matthew T. McDowell, Yan Yao, Chongmin Wang, and Yi Cui *,, Department of Chemistry,
More informationStrong Anchoring Effect of Ferric Chloride-Graphite Intercalation. Capacity and Stable Lithium Storage
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Supporting Information Strong Anchoring Effect of Ferric Chloride-Graphite
More informationSupplementary Figure 1 A schematic representation of the different reaction mechanisms
Supplementary Figure 1 A schematic representation of the different reaction mechanisms observed in electrode materials for lithium batteries. Black circles: voids in the crystal structure, blue circles:
More information2015 GCEP Report - external
2015 GCEP Report - external Project title: Self-Healing Polymers for High-Energy-Density Lithium Ion Battery Investigators Zhenan Bao, Professor, Chemical Engineering Yi Cui, Professor, Material Sciences
More informationLithium-ion Batteries Based on Vertically-Aligned Carbon Nanotubes and Ionic Liquid
Electronic Supplementary Information Lithium-ion Batteries Based on Vertically-Aligned Carbon Nanotubes and Ionic Liquid Electrolytes Wen Lu, * Adam Goering, Liangti Qu, and Liming Dai * 1. Synthesis of
More informationSupporting Information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Supporting Information Nano-embedded microstructured FeS 2 @C as a high
More informationPlease do not adjust margins. A high-rate aqueous rechargeable zinc ion battery based on VS nanocomposite
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry Please do 2018 not adjust margins Supplementary Information A high-rate aqueous
More informationElectronic Supplementary Information
Electronic Supplementary Material (ESI) for Materials Horizons. This journal is The Royal Society of Chemistry 2018 Electronic Supplementary Information Regulation of carbon content in MOF-derived hierarchical-porous
More informationSupplementary Information
Supplementary Information Supplementary Figures Supplementary Figure 1 Scanning electron microscopy image of a lithium dendrite. Dendrite formation in lithium ion batteries pose significant safety issues
More informationDual redox catalysts for oxygen reduction and evolution reactions: towards a redox flow Li-O 2 battery
Electronic Supplementary Material (ESI) for Chemical Communications. This journal is The Royal Society of Chemistry 2015 Supporting Information Dual redox catalysts for oxygen reduction and evolution reactions:
More informationPlease do not adjust margins. Electronic supplementary information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry Please do 2017 not adjust margins Journal of Materials Chemistry A Electronic
More informationBatteries: Now and Future
Batteries: Now and Future Yi Cui Department of Materials Science and Engineering Stanford University Stanford Institute for Materials and Energy Sciences SLAC National Accelerator Laboratory Mobile Phone
More informationSupporting information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Supporting information Effect of cation substitution on pseudocapacitive
More informationLITHIUM ION BATTERIES
LITHIUM ION BATTERIES 1 Electrodes & Jelly roll 2 3 Types of Lithium ion batteries 원형, 원통형, cylindrical 각형, prismatic 폴리머, polymer (pouch type) 4 Materials composing electrodes 5 6 Terminology-1
More informationSupporting Information for Atomic layer deposited TiO 2 on nitrogen-doped graphene/sulfur electrode for high performance lithiumsulfur
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2016 Supporting Information for Atomic layer deposited TiO 2 on nitrogen-doped
More informationA phosphorene graphene hybrid material as a high-capacity anode for sodium-ion batteries
SUPPLEMENTARY INFORMATION DOI: 10.1038/NNANO.2015.194 A phosphorene graphene hybrid material as a high-capacity anode for sodium-ion batteries Jie Sun, Hyun-Wook Lee, Mauro Pasta, Hongtao Yuan, Guangyuan
More informationSupporting Information
Copyright WILEY-VCH Verlag GmbH & Co. KGaA, 69469 Weinheim, Germany, 213. Supporting Information for Adv. Energy Mater., DOI: 1.12/aenm.2131565 Reduction of Graphene Oxide by Hydrogen Sulfide: A Promising
More informationHoneycomb-like Interconnected Network of Nickel Phosphide Hetero-nanoparticles
Supporting Information Honeycomb-like Interconnected Network of Nickel Phosphide Hetero-nanoparticles with Superior Electrochemical Performance for Supercapacitors Shude Liu a, Kalimuthu Vijaya Sankar
More informationA self-assembled intercalated metal organic framework electrode with outstanding area capacity for high volumetric energy asymmetric capacitors
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2016 A self-assembled intercalated metal organic framework electrode with outstanding
More informationElectronic Supplementary Information
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2016 Electronic Supplementary Information Self-supported formation of hierarchical
More informationSupporting Information An Interlaced Silver Vanadium Oxide-Graphene Hybrid with High Structural Stability for Use in Lithium Ion Batteries
Electronic Supplementary Material (ESI) for ChemComm. This journal is The Royal Society of Chemistry 2014 Supporting Information An Interlaced Silver Vanadium Oxide-Graphene Hybrid with High Structural
More informationHigh Tap Density Secondary Silicon Particle. Anodes by Scalable Mechanical Pressing for
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2015 Electronic Supplementary Information: High Tap Density Secondary Silicon
More informationElectronic Supplementary Information. Lithium-Oxygen Batteries: Bridging Mechanistic Understanding and Battery Performance
Electronic Supplementary Information Lithium-Oxygen Batteries: Bridging Mechanistic Understanding and Battery Performance Yi-Chun Lu, a Betar M. Gallant, b David G. Kwabi, b Jonathon R. Harding, c Robert
More informationSupporting Information
Supporting Information Facet-Selective Deposition of FeO x on α-moo 3 Nanobelts for Lithium Storage Yao Yao, 1 Nuo Xu, 2 Doudou Guan, 1 Jiantao Li, 1 Zechao Zhuang, 1 Liang Zhou,*,1 Changwei Shi 1, Xue
More informationSulfur-Infiltrated Porous Carbon Microspheres with Controllable. Multi-Modal Pore Size Distribution for High Energy Lithium-
Electronic Supplementary Information Sulfur-Infiltrated Porous Carbon Microspheres with Controllable Multi-Modal Pore Size Distribution for High Energy Lithium- Sulfur Batteries Cunyu Zhao, a Lianjun Liu,
More informationSupporting information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2016 Supporting information Layered Nickel metal-organic framework for high
More informationSupporting Information. Electropolymerization of aniline on nickel-based electrocatalysts substantially
Supporting Information Electropolymerization of aniline on nickel-based electrocatalysts substantially enhances their performance for hydrogen evolution Fuzhan Song, Wei Li, Guanqun Han, and Yujie Sun*
More informationNickel Sulfides Freestanding Holey Films as Air-Breathing Electrodes for. Flexible Zn-Air Batteries
Nickel Sulfides Freestanding Holey Films as Air-Breathing Electrodes for Flexible Zn-Air Batteries Kyle Marcus, 1,# Kun Liang, 1,# Wenhan Niu, 1,# Yang Yang 1,* 1 NanoScience Technology Center, Department
More informationSupplementary Figure 1 XPS, Raman and TGA characterizations on GO and freeze-dried HGF and GF. (a) XPS survey spectra and (b) C1s spectra.
Supplementary Figure 1 XPS, Raman and TGA characterizations on GO and freeze-dried HGF and GF. (a) XPS survey spectra and (b) C1s spectra. (c) Raman spectra. (d) TGA curves. All results confirm efficient
More informationSynthesis of Oxidized Graphene Anchored Porous. Manganese Sulfide Nanocrystal via the Nanoscale Kirkendall Effect. for supercapacitor
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2015 Synthesis of Oxidized Graphene Anchored Porous Manganese Sulfide Nanocrystal
More informationHydrogenated CoO x Ni(OH) 2 nanosheet core shell nanostructures for high-performance asymmetric supercapacitors
. Electronic Supplementary Material (ESI) for Nanoscale Electronic Supplementary Information (ESI) Hydrogenated CoO x nanowire @ Ni(OH) 2 nanosheet core shell nanostructures for high-performance asymmetric
More informationProtocols for studying intercalation electrodes materials: Part II: Potentiodynamic Cycling with Galvanostatic Acceleration (PCGA)
Electrochemistry - Application note n 2 Protocols for studying intercalation electrodes materials: Part II: Potentiodynamic Cycling with Galvanostatic Acceleration (PCGA) Available instruments for the
More informationSupporting Information
Supporting Information Zeolite-Templated Mesoporous Silicon Particles for Advanced Lithium-Ion Battery Anodes Nahyeon Kim, Hyejung Park, Naeun Yoon, and Jung Kyoo Lee * Department of Chemical Engineering,
More informationSustainable Li/Na-Ion Batteries
Sustainable Li/Na-Ion Batteries Chunsheng Wang 1223C Chemical and Nuclear Engineering Department of Chemical & Biomolecular Engineering Email: cswang@umd.edu Phone: (301) 405-0352 Application of Li-ion
More informationSupplementary Information for Scientific Reports. Synergistic Effect between Ultra-Small Nickel Hydroxide
Supplementary Information for Scientific Reports Synergistic Effect between Ultra-Small Nickel Hydroxide Nanoparticles and Reduced Graphene Oxide Sheets for the Application in High-Performance Asymmetric
More informationEnhancing potassium-ion battery performance by defect and. interlayer engineering
Electronic Supplementary Material (ESI) for Nanoscale Horizons. This journal is The Royal Society of Chemistry 2018 Electronic Supplementary Information for Enhancing potassium-ion battery performance
More informationSupplementary Information
Electronic Supplementary Material (ESI) for Chemical Communications. This journal is The Royal Society of Chemistry 2016 Electronic Supplementary Information Contact Angle Measurement: A Preliminary Diagnostic
More informationUnusual Stability of Acetonitrile-Based Superconcentrated. Electrolytes for Fast-Charging Lithium-Ion Batteries
Supporting Information for Unusual Stability of Acetonitrile-Based Superconcentrated Electrolytes for Fast-Charging Lithium-Ion Batteries Yuki Yamada,, Keizo Furukawa, Keitaro Sodeyama,, Keisuke Kikuchi,
More informationSupporting Information
Electronic Supplementary Material (ESI) for ChemComm. This journal is The Royal Society of Chemistry 2018 Supporting Information Room-temperature rechargeable Na-SO 2 batteries with gel-polymer electrolyte
More informationSupporting Information
Electronic Supplementary Material (ESI) for Sustainable Energy & Fuels. This journal is The Royal Society of Chemistry 2017 Supporting Information Asymmetric hybrid energy storage of battery-type nickel
More informationSupporting Information High-performance sodium battery with 9,10-anthraquinone/CMK-3 cathode and ether-based electrolyte
Electronic Supplementary Material (ESI) for ChemComm. This journal is The Royal Society of Chemistry 2015 Supporting Information High-performance sodium battery with 9,10-anthraquinone/CMK-3 cathode and
More informationraw materials C V Mn Mg S Al Ca Ti Cr Si G H Nb Na Zn Ni K Co A B C D E F
Today s advanced batteries require a range of specialized analytical tools to better understand the electrochemical processes that occur during battery cycling. Evans Analytical Group (EAG) offers a wide-range
More informationSUPPLEMENTARY INFORMATION
Towards a calcium-based rechargeable battery A. Ponrouch, C. Frontera, F. Bardé, M.R. Palacín Supplementary table Table S1. Properties of some metals that can be used as battery anodes: radius of the corresponding
More informationElectronic Supplementary Information
Electronic Supplementary Material (ESI) for Chemical Communications. This journal is The Royal Society of Chemistry 2015 Electronic Supplementary Information Phosphorus-Doped CoS 2 Nanosheet Arrays as
More informationNanoporous metals by dealloying multicomponent metallic glasses. Chen * Institute for Materials Research, Tohoku University, Sendai , Japan
Supporting information for: Nanoporous metals by dealloying multicomponent metallic glasses Jinshan Yu, Yi Ding, Caixia Xu, Akihisa Inoue, Toshio Sakurai and Mingwei Chen * Institute for Materials Research,
More informationMicro/Nanostructured Li-rich Cathode Materials with. Enhanced Electrochemical Properties for Li-ion. Batteries
Supporting information Layered/spinel Heterostructured and Hierarchical Micro/Nanostructured Li-rich Cathode Materials with Enhanced Electrochemical Properties for Li-ion Batteries Ya-Ping Deng, Zu-Wei
More informationElectronic Supplementary Information (ESI)
Electronic Supplementary material (ESI) for Nanoscale Electronic Supplementary Information (ESI) Synthesis of Nanostructured Materials by Using Metal-Cyanide Coordination Polymers and Their Lithium Storage
More informationMaterials and Structural Design for Advanced Energy Storage Devices
Materials and Structural Design for Advanced Energy Storage Devices Imran Shakir Sustainable Energy Technologies Center (SET) King Saud University Saudi Arabia Specific Power (W/kg) Introduction and Motivation
More informationFlexible Asymmetrical Solid-state Supercapacitors Based on Laboratory Filter Paper
SUPPORTING INFORMATION Flexible Asymmetrical Solid-state Supercapacitors Based on Laboratory Filter Paper Leicong Zhang,,,# Pengli Zhu,,,#, * Fengrui Zhou, Wenjin Zeng, Haibo Su, Gang Li, Jihua Gao, Rong
More informationLithium Bis(fluorosulfonyl)imide/Poly(ethylene oxide) Polymer Electrolyte for All Solid-State Li-S Cell
Supporting Information Lithium Bis(fluorosulfonyl)imide/Poly(ethylene oxide) Polymer Electrolyte for All Solid-State Li-S Cell Xabier Judez, Heng Zhang,*, Chunmei Li,*, José A. González-Marcos, Zhibin
More informationSupporting Information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2017 Supporting Information NiSe 2 Pyramids Deposited on N-doped Graphene Encapsulated
More informationNanoscale Interface Control of High-Quality Electrode Materials for Li-Ion Battery and Fuel Cell
Nanoscale Interface Control of High-Quality Electrode Materials for Li-Ion Battery and Fuel Cell Byungwoo Park Department of Materials Science and Engineering http://ep.snu.ac.kr 1 Nanoscale Control for
More informationScalable Preparation of Hierarchical Porous Activated Carbon/graphene composite for High-Performance Supercapacitors
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2019 Supplementary Information Scalable Preparation of Hierarchical Porous Activated
More informationSupplemental Information. Crumpled Graphene Balls Stabilized. Dendrite-free Lithium Metal Anodes
JOUL, Volume 2 Supplemental Information Crumpled Graphene Balls Stabilized Dendrite-free Lithium Metal Anodes Shan Liu, Aoxuan Wang, Qianqian Li, Jinsong Wu, Kevin Chiou, Jiaxing Huang, and Jiayan Luo
More informationSupporting Information. 13 Pages, 9 Figures. Mechanisms of Humic Acid Fouling on Capacitive and Insertion Electrodes for Electrochemical Desalination
Supporting Information 13 Pages, 9 Figures Mechanisms of Humic Acid Fouling on Capacitive and Insertion Electrodes for Electrochemical Desalination Xitong Liu, 1 Jay F. Whitacre, 2,3,4 and Meagan S. Mauter
More informationElectronic Supplementary Information for: 3D-Printed Plastic Components Tailored for Electrolysis
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2016 Electronic Supplementary Information for: 3D-Printed Plastic Components Tailored
More informationTwo Dimensional Graphene/SnS 2 Hybrids with Superior Rate Capability for Lithium ion Storage
Electronic Supplementary Information Two Dimensional Graphene/SnS 2 Hybrids with Superior Rate Capability for Lithium ion Storage Bin Luo, a Yan Fang, a Bin Wang, a Jisheng Zhou, b Huaihe Song, b and Linjie
More informationElectronics Supplementary Information for. Manab Kundu, Cheuk Chi Albert Ng, Dmitri Y. Petrovykh and Lifeng Liu*
Electronics Supplementary Information for Nickel foam supported mesoporous MnO 2 nanosheet arrays with superior lithium storage performance Manab Kundu, Cheuk Chi Albert Ng, Dmitri Y. Petrovykh and Lifeng
More informationSupporting Information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Supporting Information Si/SiO x Hollow Nanospheres/Nitrogen-Doped Carbon
More informationSupporting Information
Supporting Information A Novel Potassium-Ion Hybrid Capacitor Based on an Anode of K 2 Ti 6 O 13 Micro-Scaffolds Shengyang Dong,, Zhifei Li, Zhenyu Xing, Xianyong Wu, Xiulei Ji*, and Xiaogang Zhang*, Jiangsu
More informationSupplementary Information
Electronic Supplementary Material (ESI) for Nanoscale. This journal is The Royal Society of Chemistry 2014 Supplementary Information A honeycomb-like porous carbon derived from pomelo peel for use in high-performance
More informationFunctionalization of reduced graphene oxides by redox-active ionic liquids for energy storage
Supplementary Material (ESI) for Chemical Communications Functionalization of reduced graphene oxides by redox-active ionic liquids for energy storage Sung Dae Cho, a Jin Kyu Im, b Han-Ki Kim, c Hoon Sik
More informationSupporting Information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2017 Supporting Information Porous MoS 2 @C hetero shell with Si yolk structure
More informationSupplementary information. Reduced graphene oxide derived from used cell graphite, and its green fabrication as eco-friendly supercapacitor
Electronic Supplementary Material (ESI) for RSC Advances. This journal is The Royal Society of Chemistry 2014 Supplementary information Reduced graphene oxide derived from used cell graphite, and its green
More informationOxygen vacancies enhance pseudocapacitive charge storage properties of MoO 3-x
In the format provided by the authors and unedited. DOI: 10.1038/NMAT4810 Oxygen vacancies enhance pseudocapacitive charge storage properties of MoO 3-x Hyung-Seok Kim, 1 John B. Cook, 2,3 Hao Lin, 1 Jesse
More informationTesting Electrochemical Capacitors Part 2: Cyclic Charge-Discharge and Stacks
Testing Electrochemical Capacitors Part 2: Cyclic Charge-Discharge and Stacks Introduction This application note is Part of 2 describing electrochemical techniques for energy-storage devices. It explains
More informationDyeing Bacterial Cellulose Pellicles for Energetic Heteroatom Doped Carbon Nanofiber Aerogels
Nano Research DOI 10.1007/s12274-014-0546-4 Nano Res 1 Dyeing Bacterial Cellulose Pellicles for Energetic Heteroatom Doped Carbon Nanofiber Aerogels Zhen-Yu Wu, Hai-Wei Liang, Chao Li, Bi-Cheng Hu, Xing-Xing
More informationSupporting Information. 15 January, Ms. ID: ac b. Parallel Screening of Electrocatalyst Candidates using Bipolar
Supporting Information 15 January, 2013 Ms. ID: ac-2012-03581b Parallel Screening of Electrocatalyst Candidates using Bipolar Electrochemistry Stephen E. Fosdick, Sean P. Berglund, C. Buddie Mullins, and
More informationELEC 103. Objectives
ELEC 103 Voltage, Current, and Resistance Objectives Define voltage and discuss its characteristics Define current and discuss its characteristics Define resistance and discuss its characteristics Identify
More informationEffective Strategies for Improving Electrochemical Properties of Highly Porous Si Foam Anodes in Lithium-Ion Batteries
Electronic Supplementary Material (ESI for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 214 Supplementary Information Effective Strategies for Improving Electrochemical
More informationSupporting Information
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Supporting Information Directly anchoring 2D NiCo metal-organic frameworks
More informationFacile synthesis of nanostructured CuCo 2 O 4 as a novel electrode material for high-rate supercapacitors
Facile synthesis of nanostructured CuCo 2 O 4 as a novel electrode material for high-rate supercapacitors Afshin Pendashteh, a Mohammad S. Rahmanifar, b Richard B. Kaner, c and Mir F. Mousavi* a,c a Department
More informationRedox additive Aqueous Polymer-gel Electrolyte for Electric Double Layer Capacitor
Electronic Supplementary Information Redox additive Aqueous Polymer-gel Electrolyte for Electric Double Layer Capacitor S.T. Senthilkumar, a R. Kalai Selvan,* a N.Ponpandian b and J.S. Melo c a Solid State
More informationElectronic Supplementary Information
Electronic Supplementary Material (ESI) for Dalton Transactions. This journal is The Royal Society of Chemistry 2018 Electronic Supplementary Information In situ growth of heterostructured Sn/SnO nanospheres
More informationNitrogen-doped Activated Carbon for High Energy Hybridtype Supercapacitor
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2015 SUPPORTING INFORMATION Nitrogen-doped Activated Carbon for High Energy Hybridtype
More informationUltra-High Surface Area Three-Dimensional Porous Graphitic Carbon. from Conjugated Polymeric Molecular Framework
Supporting Information for Ultra-High Surface Area Three-Dimensional Porous Graphitic Carbon from Conjugated Polymeric Molecular Framework John W.F. To, a, Zheng Chen, a, Hongbing Yao, b Jiajun He, c Kwanpyo
More informationSupplementary Information Supplementary Figures
Supplementary Information Supplementary Figures Supplementary Figure 1 SEM images of the morphologies of Li metal after plating on Cu (1st cycle) from different electrolytes. The current density was 0.5
More informationHigh Salt Removal Capacity of Metal-Organic Gel Derived. Porous Carbon for Capacitive Deionization
Supporting Information High Salt Removal Capacity of Metal-Organic Gel Derived Porous Carbon for Capacitive Deionization Zhuo Wang, Tingting Yan, Guorong Chen, Liyi Shi and Dengsong Zhang* Research Center
More informationSupporting Information. Electrochemical Raman Spectroscopy Investigation
Supporting Information High-Capacitance Mechanism for Ti 3 C 2 T x MXene by In Situ Electrochemical Raman Spectroscopy Investigation Minmin Hu,, Zhaojin Li,, Tao Hu,, Shihao Zhu,, Chao Zhang and Xiaohui
More informationSupporting Information. Integrated energy storage and electrochromic function in one flexible device: an energy storage smart window
Supporting Information Integrated energy storage and electrochromic function in one flexible device: an energy storage smart window Kai Wang a, b, Haiping Wu a, b, Yuena Meng a, b, Yajie Zhang a, and Zhixiang
More informationKinetically-Enhanced Polysulfide Redox Reactions by Nb2O5. Nanocrystal for High-Rate Lithium Sulfur Battery
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2016 Electronic Supplementary Information (ESI) Kinetically-Enhanced Polysulfide
More information