Home > News > Company news
New energy R&D teams cannot rely on single nanomaterial to boost electrode energy density and cycle stability simultaneously. MOF, MXene and LDH each carry exclusive structural strengths that make them ideal matching composite raw materials for next-gen storage devices. This article sorts their respective core strengths and matching combination plans. Readers can check composite material development outlook via MOF/MXene/LDH Composite Materials: Current Status and Future Development

Custom porous framework powder features adjustable pore channels and abundant metal active sites. It acts as ion storage carrier to slow capacity attenuation during repeated charge-discharge cycles. Limitation: poor intrinsic conductivity restricts high-rate discharge performance.
Nanjing Mission New Materials Co.,Ltd provides size-tunable MOF precursors for battery lab composite electrode preparation, supporting gram-level small test batches for university energy research groups.
Layered MXene delivers ultra-high electrical conductivity, solving the low electron transfer defect of pure MOF or LDH electrodes. Its thin lamellar structure shortens ion migration paths significantly. Drawback: easy oxidation under long-term aqueous working conditions without surface modification.
Our modification workshop tunes MXene surface functional groups to improve oxidation resistance for long-cycle supercapacitor test samples.
LDH layered double hydroxides own reversible interlayer ion exchange capacity, perfect as faradic reaction substrate for pseudocapacitor electrodes. Low cost makes it fit large-scale industrial electrode bulk filling. The main weakness lies in weak structural stability under high voltage cycling.
Most lab projects adopt ternary blending: MXene serves as conductive substrate, MOF provides ion storage space, LDH supplies extra redox capacity. This combination offsets individual material defects and lifts overall device performance by 30%–60% in standard lab tests.
Combining MOF, MXene and LDH makes up for single-component performance bottlenecks in energy storage R&D. Nanjing Mission New Materials Co.,Ltd supplies single raw nanomaterials and pre-blended composite precursors customized for battery and supercapacitor prototypes. Contact our overseas technical team to get free test samples and electrode formulation suggestions for your energy storage lab.
Leave your message