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  �b�ڴˣ��㽭������W(xu��)�����ƌW(xu��)�c���̌W(xu��)Ժ�����H�z�I�W(xu��)Ժ����ʿ����(d��o)����������n�}�M�����һ�N�����������o늼��z���g(sh��)���U�������Ⱦ]�������óɸ����ܵď�(f��)�Ϲ̑B(t��i)늽��|(zh��)���ڴ˷����У�Li_6.4La₃Zr_1.4Ta_0.6O₁₂��LLZTO����һ�Nʯ��ʯ�͹̑B(t��i)���x�ӌ�(d��o)�w�����ṩ���ٵ�Li⁺��ݔ��������-CN��-Cl���܈F(tu��n)�����Ⱦ]�w�Sʹ��(f��)��Ĥ���Ѓ�(y��u)�����͟��ԡ��ߙC(j��)еģ���̓�(y��u)���Ŀ�䇽��ٻ��W(xu��)��(w��n)���ԡ��ۺ���-�մ��w�S��ܣ���LLZTO�����Ⱦ]�M�ɣ��c�����ɢ�ľ�������ϩ��PEO���Ͷ����棨SN�����܄�֮�g�ąf(xi��)ͬ���ô��M(j��n)�˶��������������������䇣�LiTFSI���Ͷ�����������䇣�LiDFOB���Ľ��x���Ķ����������xLi⁺�x�ӵĝ�ȣ���ͨ�^�f(xi��)ͬ�C(j��)���γ��S����3D Li⁺��ݔͨ������ˣ��@�N늽��|(zh��)�O��ظ����˼�PEO���wϵ�ľ����ԣ������x��늌�(d��o)�ʵͣ�<10^-5 S·cm^-1�����᷀(w��n)���Բ<100 ��C���������֦���oЧ�������λ�ͣ��cLi/Li < 4.0 V�������⣬�p�}��LiTFSI��LiDFOB���ڏ�(f��)�Ϲ��w늽��|(zh��)��CSE������a(ch��n)����(w��n)�����s��SEI����Ч����SN�c䇽���֮�g�ĸ�����(y��ng)���M�b�õ�Li/Li���Q늳���0.1 mA·cm^-2�¿ɷ�(w��n)��ѭ�h(hu��n)��3500С�r����0.5 C�l���£�LiFePO₄/Li늳ص�ѭ�h(hu��n)���ܷ�(w��n)����ѭ�h(hu��n)�Δ�(sh��)���^400�Ρ��@�N�ԏU�����ԭ�ϵ���(f��)���̑B(t��i)늽��|(zh��)��׿Խ����ͻ�������������M(j��n)����ϵ�y(t��ng)�ĝ�����

  ���P(gu��n)��������Composite solid-state electrolyte from waste modacrylic fibers with multiple Li⁺ transport channels and enhanced interfacial stability for lithium metal batteries�����}�l(f��)���ڇ��H�����ڿ�Energy Storage Materials �ϣ�Ӱ�����18.9����doi: 10.1016/j.ensm.2025.104294�����ĵ�һ���ߞ��㽭������W(xu��)�����ƌW(xu��)�c���̌W(xu��)Ժ�����H�z�I�W(xu��)Ժ���Tʿ�о���������ͨӍ���ߞ��㽭������W(xu��)��ʿ����(d��o)�����������

Fig. 1. Schematic diagram of the preparation process and characterization of waste modacrylic-derived electrolyte. (a) Diagrammatic representation of the recycling process converting waste modacrylic into composite solid electrolytes. (b) EDS mapping of modacrylic-LLZTO nanofibers. (c) Cross-sectional EDS mapping of the MLPN CSE. (d) SEM image of the surface and optical images (inset) of the ML-PN CSE. (e) AFM images (1 ��m × 1 ��m scan size) of ML-PN CSE with height sensor 3D imaging. (f) Peak force error.

  ���Ȍ����յ����Ⱦ]�w�Sϴ��������ܽ���N��N-���׻�������(DMF)�܄��У��^�m(x��)��LLZTO�մɼ{���w�������ɢ�����Ⱦ]��Һ�У��Ƃ����Ⱦ]���մɏ�(f��)���o늼��zǰ�(q��)�w��Ȼ�󣬲����o늼��z���g(sh��)���@�����Ⱦ]-LLZTO�{���w�S�W(w��ng)�j(lu��)�������(f��)�Ϲ̑B(t��i)늽��|(zh��)�ğo�C(j��)����ܡ����ͨ�^���ε�Һ��M�b��PEO-SN�ۺ�����Һ�B͸���{���w�S�W(w��ng)�j(lu��)�У��õ����Ⱦ]-LLZTO��(f��)�Ϲ̑B(t��i)늽��|(zh��)��ML-PN CSE�������Ƃ��ML-PN CSE����ƽ���ı��棬�@�N��(y��u)���ı�����ò�����ڹ��w늽��|(zh��)��䇽���ꖘO֮�g�����o�ܵĽ�����|���P(gu��n)��Ҫ������Ч�ؽ����˽����迹�����M(j��n)����x����늘O/늽��|(zh��)�����ϵľ���ͨ����

Fig. 2. Physical, chemical characterization and lithium-ion transport properties of ML-PN CSE. (a) FTIR spectra of nanofiber membranes derived from waste modacrylics with varying loadings of LLZTO nanoparticles, alongside pristine modacrylic fibers. (b) XRD profiles of LLZTO powders, ML NFs, PN SPE, and ML-PN CSE. (c) Raman spectra of CIP (green), AGG-I (red), and AGG-II (blue) in different electrolyte systems. (d) TGA plots demonstrating thermal decomposition profiles of the electrolytes. (e) High-resolution digital photographs illustrating physical integrity of PN SPE, M-PN SPE, and ML-PN CSE across varying temperatures. (f) PHRR and THR profiles of ML-PN CSE, M-PN SPE, and PANL-PN CSE across a thermal gradient. (g) Optimized molecular geometries and electrostatic potential maps for P (AN-VC), SN, and PEO. DFT calculations of adsorption energy between P(AN-VC), PEO, and SN with TFSI?(h) and DFOB?(i).

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Fig. 3. Lithium-ion transport dynamics in composite solid electrolytes. (a) EIS curves of ML-PN CSE at different temperatures. (b) Arrhenius plot illustrating temperature-dependent ionic conductivity of the electrolytes, fitted to ln�� vs. 1000/T. (c) Electrochemical characterization with polarization curves and initial/ steady-state impedance spectroscopy of ML-PN CSE. (d) Molecular dynamics simulation snapshot of PN SPE. (e) RDF and (f) CN of SN, PEO, TFSI^-, and DFOB^- within PN SPE. (g) Molecular dynamics simulation snapshot of M-PN SPE. (h) RDF and (i) CN of P(AN-VC), SN, PEO, TFSI^-, and DFOB^- within M-PN SPE. (j) Schematic representation of lithium-ion conduction pathways in ML-PN CSE.

  �о��@ʾ��ML-PN CSE���F(xi��n)���^�ߵ��x��늌�(d��o)�ʣ�30 ���r��8.5×10^-4 S·cm^-1��, ��x���D(zhu��n)�Ɣ�(sh��)��t_Li+����0.84�����ӄ����W(xu��)ģ�M��MD��ϵ�y(t��ng)���U����Li⁺��PN SPE��M-PN SPE���܄����Y(ji��)��(g��u)���ݻ���������Li⁺��P(AN-VC)/SN/PEO��(f��)�ϻ��w�еĂ�ݔ��ѭ�f(xi��)ͬ�C(j��)�ơ��о��Y(ji��)���������l�f(xi��)ͬ�Ŀ�����x�ӂ�ݔͨ��������ML-PN CSE��(n��i)�ij����ݔ�����W(xu��)���D4 j����ͨ��1�ɼ{���w�S��(n��i)�����ɢ��LLZTO�{���w���錧(d��o)����(g��u)����(w��n)�������S�x�ӂ���(d��o)ͨ·���@Щ�{�������@��������Li?�ھ����B�m(x��)�����ٵ��x�ӂ���(d��o)ͨ���M(j��n)�Ђ�ݔ������ۺ���-�մɽ���̎��ͨ��2���մ����ϱ����Lewis����λ�c�ͼ{���w�SĤ�еĘO�Ի��F(tu��n)ͨ�^���g늺�Ч��(y��ng)�γ��x�ӝ���ݶȣ��(q��)��Li⁺�Ķ����w���������ϵ�ؓ(f��)늺ɿ�ȱ�䮔(d��ng)Li⁺���Sλ�c���Y(ji��)�Ͼۺ�����ɳڣ����M(j��n)�̈́݉������x�ӂ�ݔ�����⣬���ص����λ�Y(ji��)��(g��u)�T��(d��o)��P��AN-VC����SN��C��N���F(tu��n)��Nԭ���cPEO��OH���F(tu��n)��Oԭ��֮�g�ĸ����໥���á��@�N�����ԵĄӑB(t��i)�໥���Ì�(d��o)����x�����܄����Y(ji��)��(g��u)�е����·ֲ����Ķ���(d��o)����x����Ч���ھۺ���朶�֮�g�w�ơ��@�N�w������(qi��ng)��Li⁺���B�m(x��)�\ݔ��ͨ�^P��AN-VC��/PEO/SN���|(zh��)���M(j��n)Li⁺�ӑB(t��i)�w������ͨ��3��

Fig. 4. Electrochemical stability of the ML-PN CSE with lithium anodes. (a) Temporal evolution of interfacial impedance for Li/ML-PN CSE/Li, Li/M-PN SPE/Li, and Li/PN SPE/Li cells. (b) Rate performance of Li/ML-PN CSE/Li, Li/M-PN SPE/Li, and Li/PN SPE/Li cells across current densities. (c) Cycling performance of Li plating/ stripping in Li/WML CSE/Li, Li/WM SPE/Li, and Li/PN SPE/Li cells at 0.1 mA cm^-2. (d-f) Schematic lithium dendrite behaviors in Li/PN SPE (d), Li/M-PN SPE (e), and Li/ML-PN CSE (f). Top: SEM images of lithium anode surfaces after 200 h cycling (insets: optical photographs). Bottom: Cross-sectional SEM images of lithium anodes.

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Fig. 5. Structural and electrochemical analysis of the SEI layer��s resistance to lithium dendrite formation. (a) LSV profiles for ML-PN CSE, M-PN SPE, and PN SPE. (b) Energy diagrams depicting LUMO and HOMO of electrolyte components. (c) MD simulation of the PN SPE system at the Li-metal interface. (d) MD simulation of the M-PN SPE system at the Li-metal interface. (e) MSD calculations for M-PN SPE and PN SPE systems. (f) XPS spectra of F 1 s, O 1 s, N 1 s, and Cl 2p, comparing pre- and post-cycling chemical states. (g) Illustration of the multi-component intermediate layer mechanism inhibiting lithium dendrite growth.

  ���Ԓ����������LSV���yԇ�������Ⱦ]��LLZTO���H����(qi��ng)��������(w��n)���ԣ������،���늻��W(xu��)���ڣ������CSE���w늻��W(xu��)���ܡ�������䇽��ٽ���̎��PN SPE��M-PN SPE�wϵ�е�SN���ӵ�MD���Y(ji��)��������MSD�����ó���Ӌ��U(ku��)ɢϵ��(sh��)�@ʾSN�w�����½�����ֵ��PN�wϵ��4.30×10^-6 cm²/s�½���M-PN�е�0.87×10^-6 cm²/s��M-PN�wϵ��SN�U(ku��)ɢ�ʵĽ����ڿ��g���������������w�Ʋ����|䇱��棬�Ķ�����SN-����䇰l(f��)��������(y��ng)���@�N�����(q��)�әC(j��)�����L�r�gѭ�h(hu��n)�^���О鱣�ֽ��淀(w��n)�������P(gu��n)�I�����á�X�侀��������V��XPS�������M(j��n)һ����ʾ��SEI�Ļ��W(xu��)�ɷֺ�׃����ѭ�h(hu��n)��F 1s��O 1s�քe��684 eV��530 eV̎���F(xi��n)�µķ壬�@�cLiF��LiOH���γ�һ�¡��@Щ�l(f��)�F(xi��n)��(qi��ng)�{(di��o)��ѭ�h(hu��n)�^����䇱����LiTFSI��LiDFOB�ȳɷֵķֽ⣬�@��SEI���γ����P(gu��n)��Ҫ����ѭ�h(hu��n)֮ǰ�����@��Cl 2p��Ĵ��ڱ���LiCl��C-Cl�I��ʽ���棬����ѭ�h(hu��n)��LiCl�Ĵ��ڱ����ЙC(j��)���D(zhu��n)��������Ȼ�����@������Ч����(qi��ng)SEI�ķ�(w��n)���ԡ�ԭλ�γɵ�SEI�ѱ��C��������Ч�������֦�������L���Ķ�����늘O�ĽY(ji��)��(g��u)�����ԡ�ѭ�h(hu��n)ǰ��׃��N 1s���ܼ��V�M(j��n)һ���C����늽��|(zh��)�ķ�(w��n)���ԣ��@�Nһ�����C���˛]�в���������(y��ng)�l(f��)��������(qi��ng)�{(di��o)��SEI�ڱ���䇽���ԭʼ��B(t��i)����Ĺ�Ч��

Fig. 6. Comprehensive electrochemical assessment of LiFePO? (LFP) cells with solid-state electrolytes. (a) Cycle stability of LFP/Li cells with ML-PN CSE and M-PN SPE at 0.5C. (b) Long-term cycling of LFP/ML-PN CSE/Li cells at 0.2C. (c) Charge-discharge profiles at 0.2C for LFP/ML-PN CSE/Li cells over multiple cycles. (d) Rate performance of LFP/Li cells using ML-PN CSE and M-PN SPE. (e) Charge-discharge curves of LFP/ML-PN CSE/Li cells at varied current densities. (f) Performance comparison of LFP/ML-PN CSE with recent solid-state electrolyte advances.

  ͨ�^�M�bLFP/Li늳أ��u����SSLMB�Ŀ����ԡ����Y(ji��)��������LFP/ML-PN CSE/Li���Ѓ�(y��u)����ѭ�h(hu��n)���ܺͱ������ܡ�ͨ�^�c�����īI(xi��n)���ȣ�ԓ�n�}���Ƃ��ML-PN CSE���F(xi��n)�����õĸ������ܡ�

Fig. 7. Synthesis and application of CSE from non-aqueous dyed waste modacrylic fibers for energy storage. (a) Lithium plating/stripping cycles of Li/DML-PN CSE/ Li cells at 0.1 mA cm^-2 (room temperature). (b) Cycling performance of LFP/DML-PN CSE/Li cells at 0.1C (room temperature). (c) Charge-discharge profiles of LFP/ DML-PN CSE/Li cells at 0.1C over multiple cycles (room temperature). (d) Pouch cells (LFP/DML-PN CSE/Li) powering LED light strip. (e) Integration schematic of flexible pouch cells (LFP/DML-PN CSE/Li) with ACEL devices on flame-retardant textiles. (f) Pouch cells (LFP/DML-PN CSE/Li) powering ACEL devices.

  ʹ�ý�(j��ng)��ˮ���|(zh��)Ⱦɫ�ďU�����Ⱦ]�w�S����ԭ���Ƃ�DML-PN CSE����C���Ⱦ]�w�S�����B(t��i)������ʹ�÷����Ŀ����ԡ�����DML-PN CSE��Li/Li���Q늳أ�LFP/Liȫ늳������Ҝ��·�(w��n)���\�У�����LFP���O�Ĺ̑B(t��i)����ܛ��늳ؿ��ڄӑB(t��i)�����·�(w��n)��������ͨ�^�̑B(t��i)ܛ��늳��cACEL�l(f��)���O(sh��)�伯�����������ϣ�����늳ش_���˲��g�����������(y��ng)���@���ڿɴ������ܷ��b�Ĺ��ܺ͌��������P(gu��n)��Ҫ��ԓ��ʾ�M(j��n)һ���C����ML-PN CSE�ڹ̑B(t��i)䇽���늳��о߂䳬�߰�ȫ�ԣ��������������ԃ���������(y��ng)�õ��ɴ�����Ӯa(ch��n)Ʒ��(d��ng)�С�

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  ԭ��朽ӣ�https://www.sciencedirect.com/science/article/abs/pii/S2405829725002922