186 research outputs found

    The relationship between wholesale price <i>w</i><sub><i>2</i></sub> and completion intensity of social responsibility.

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    The relationship between wholesale price w2 and completion intensity of social responsibility.</p

    The relationship between order quantity <i>q</i><sub><i>2</i></sub> and completion intensity of social responsibility.

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    The relationship between order quantity q2 and completion intensity of social responsibility.</p

    The relationship between social responsibility <i>η</i><sub>1</sub> and completion intensity of social responsibility.

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    The relationship between social responsibility η1 and completion intensity of social responsibility.</p

    The relationship between order quantity <i>q</i><sub><i>1</i></sub> and completion intensity of social responsibility.

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    The relationship between order quantity q1 and completion intensity of social responsibility.</p

    The calculation method of basic data.

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    (DOCX)</p

    S1 Appendix -

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    (DOCX)</p

    The relationship between systems expected profit and completion intensity of social responsibility.

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    The relationship between systems expected profit and completion intensity of social responsibility.</p

    The relationship between wholesale price <i>w</i><sub><i>1</i></sub> and completion intensity of social responsibility.

    No full text
    The relationship between wholesale price w1 and completion intensity of social responsibility.</p

    Flowchart of the competitive supply chain system with CSR.

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    Flowchart of the competitive supply chain system with CSR.</p

    Waste PET Plastic-Derived CoNi-Based Metal–Organic Framework as an Anode for Lithium-Ion Batteries

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    Recycling waste PET plastics into metal–organic frameworks is conducive to both pollution alleviation and sustainable economic development. Herein, we have utilized waste PET plastic to synthesize CoNi-MOF applied to lithium battery anode materials via a low-temperature solvothermal method for the first time. The preparation process is effortless, and the sources’ conversion rate can reach almost 100%. In addition, the anode performance of MOFs with various Co/Ni mole ratios was investigated. The as-synthesized Co0.8Ni-MOF exhibits excellent crystallinity, purity, and electrochemical performance. The initial discharge and charge capacities are 2496 and 1729 mAh g–1, respectively. Even after 200 cycles, the Co0.8Ni-MOF electrode can exhibit a high Coulombic efficiency of over 99%. Consequently, given the environmental and economic benefits, the Co0.8Ni-MOF derived from waste PET plastic is thought to be an appealing anode material for lithium-ion batteries
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