Mxene-based highly conductive slurry

(Mo2/3Sc1/3)2AlC MAX

• (Mo2/3Sc1/3)2AlC MAX

(Mo2/3Y1/3)2AlC i-MAX

• MAX phase ceramics, high purity (Mo2/3Y1/3)2AlC, molybdenum yttrium Aluminum carbon, molybdenum yttrium Aluminum carbide, i-MAX

(W2/3Sc1/3)2AlC MAX

• (W2/3Sc1/3)2AlC MAX

(W2/3Y1/3)2AlC i-MAX

• (W2/3Y1/3)2AlC i-MAX

Aminoxylate MXene

• Monolayer Ti3C2-NH2 Amination -Mxene
• Single Layer Ti3C2-CooH Carboxylation -Mxene
• Monolayer Ti2C-NH2 Amination -Mxene
• Monolayer Nb2C-NH2 Amination -Mxene
• Monolayer V2C-NH2 Amination -Mxene
• Monolayer V2C-CooH Carboxylation -Mxene
• Monolayer Nb2C-CooH Carboxylated with Mxene
• Single layer Ti2C-CooH carboxylation -Mxene

Cr2AlC MAX

• Cr2AlC-300 mesh -MAX material
• Cr2AlC MAX phase ceramic material
• Cr2AlC MAX phase ceramic material
• Cr2AlC MAX phase ceramic material

Cr2C MXene

• Single Layer Cr2CTx MXene
• Multilayer Cr2C-MXene

Cr2TiAlC2 MAX

• Cr2TiAlC2 MAX

Element doped MXene

• Ni Doped Nb2C Multi-layer Organ-like Mxene
• Mxene Ti2C-N Nitride
• Cu Doped V2C Multilayer Organ Mxene
• Ni Doped Ti2C Multi-layer Organ Mxene
• Nitride Mxene Nb2C-n
• Cu Doped Ti2C Multi-layer Organ Mxene
• Nitride Mxene V2C-N
• Ni Doped Ti3C2 Multilayer Organ-like Mxene
• Co Doped Nb2C Multi-layer Organ Mxene
• Cu Doped Ti3C2 Multilayer Organ-like Mxene

Foam metal loads MXene

• Foam Nickel Loaded Monolayer Mxene-Ti2C
• Copper Foam 3D MXene
• Nickel Foam Supported Monolayer Mxene-v2c
• Foam Nickel Supported Single Layer Mxene-nb2c
• Foam Nickel Supported Single Layer Mxene-Ti3C2

High entropy MXene

• Mo4VAlC4 MAX
• Multilayer TiVNbMoC3 MXene
• TiVCrMoAlC3 MAX
• Single Layer TiVNbMoC3 MXene
• TiVNbMoAlC3 MAX
• Multilayer Mo4VC4 MXene
• Single Layer Mo4VC4 MXene
• Multilayer TiVCrMoC3 MXene
• Single Layer TiVCrMoC3 MXene

In situ doping MXene

• In Situ Doping Mn, P Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doped Zn Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping Mn, S Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doped Cu Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping Mn, Zn Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping of Mn Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping Co Single/few Layer Colloidal Solution Mxene Ti3C2
• IN Situ Doping Mn, Cu Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping Mn, Ni Single/few Layer Colloidal Solution Mxene Ti3C2
• In Situ Doping Mn, Co Single/few Layer Colloidal Solution Mxene Ti3C2

MAX targets

• Ti3SiC2 Max Phase Target

Mo1.33C MXene

• Multilayer Mo1.33CMXene

Mo2C MXene

• Layer TiNbC Powder
• Mo2C Single Layer Powder
• Single Layer Mo2C Dispersion
• Single Layer Mo2C MXene
• Single layer of Mo2C powder
• Fluorine-free UV-assisted etching of multi-layer Mo2C
• Multi-layer Organ-like MO2C MXene
• Single Layer of Mo2C Powder
• Multilayer Mo2C Powder
• Multilayer Mo2C Powder

Mo2Ga2C MAX

• Mo2Ga2C MAX Phase Ceramic Material
• Mo2Ga2C MAX Phase Ceramic Material
• Mo2Ga2C MAX Phase Ceramic Material
• Mo2Ga2C-MAX Material

Mo2Ti2AlC3 MAX

• Mo2Ti2AlC3- MAX

Mo2Ti2C3 MXene

• Single Layer Mo2Ti2C3 Dispersion
• Mo2Ti2C3- Mxene
• Monolayer Mo2Ti2C3 Powder
• Monolayer Mo2Ti2C3 Powder
• Multilayer Mo2Ti2C3 Powder
• Multilayer Mo2Ti2C3 Powder
• Multilayer Mo2Ti2C3 Powder
• Single Layer Mo2Ti2C3-Mxene

Mo2TiAlC2 MAX

• Mo2TiAlC2- MAX

Mo2TiC2 MXene

• Monolayer Mo2TiC2-MXenes
• Mo2TiC2-MXenes

Mo3AlC2 MAX

• Mo3AlC2 MAX Material -400 Mesh
• Mo3AlC2 MAX Material
• Mo3AlC2 MAX Phase Ceramic Material
• Mo3AlC2 MAX Phase Ceramic Material
• Mo3AlC2 MAX Phase Ceramic Material

MoAlB MAX

• MoAlB-MAX

Multiple layers of MXene powder

• Multilayer Ti3C2 MXene in-situ loaded nanosilver
• In Situ Multilayer TiOx-Ti3C2MXene Heterojunction
• Organ-like Mo2C MXenes material 1g
• Organ-like Ti2C MXenes material 1g
• Fluorine-free UV-assisted Etching of Multi-layer Mo2C
• Organ-like Nb2C MXenes Material
• The Molten Salt Method Etches Multiple Layers of V2C MXene
• Molten salt method for etching multilayer Nb2C MXene
• Organ-like Nb2C MXenes material
• Organ-like V2C MXenes Material 1g

Multiple layers of MXene solution

MXene aerogel

• Three Dimensional Porous Mxene Ti3C2TX

MXene catalyze

• MXene Supports Cu Single Atom To Catalyze Oxygen Reduction Reaction Efficiently

MXene flexible cloth

• Ti3C2 MXene Flexible Cloth

MXene flexible film

• Ta4C3 MXene Film Diameter 40mm
• MXene 50% Ti3C2 Film
• Mo2C MXene Film Diameter 40mm
• MXene Ti2C Film
• Nb2C MXene Film Diameter 40mm
• MXene V2C Film
• MXene Ti3C2 Film
• Ti3C2 Clear Film
• MXene Ti3C2Tx Flexible Film
• MXene Composite High Conductivity

MXene functional group regulation

• Fluoride-free Electrochemical Assisted Etching of Multilayer Cr2C
• Fully Hydroxyl MXene -- V2C
• Perbromine Group Mxene Nb2C-Br
• Full Hydroxyl MXene -- Ti2C
• Perchloro Group Mxene Nb2C-Cl
• Full Hydroxyl MXene -- Nb2C
• Full Hydroxyl MXene -- Ti3C2
• Perbromine Group Mxene Ti2C-Br
• Perchloro Group Mxene Ti2C-Cl
• Perbromine Group Mxene Ti3C2-Br

MXene Ink

• MXene Viscous Water-based Ink
• Mxene Modified Guide Flexible Printed Circuit with High Conductivity And Good Adhesion

MXene is a thin film

• Ti3C2 MXene Loaded Aluminum
• Ti3C2 MXene Supported Copper
• Ti3C2 MXene Supported Zinc
• Ti3C2 MXene supported iron

MXene loads metal

• Single-layer Ti2C Mxene in Situ Loaded Nanometer Co
• Single-layer Ti3C2Tx Mxene in Situ Loaded Nano Ag
• Single-layer V2C mxene in situ loaded with gold nanoparticles
• Monolayer Ti2C Mxene in Situ Loaded with Nano-platinum
• Single-layer Ti3C2Tx Mxene in Situ Loaded with Gold Nanoparticles
• Single-layer Nb2C Mxene in Situ Loaded with Nanometer Co
• Monolayer Ti2C Mxene in Situ Loaded Nano Ag
• Monolayer Nb2C Mxene in Situ Loaded Nano Ag
• Monolayer Nb2C Mxene in Situ Loaded with Nano-platinum
• Monolayer Ti2C Mxene in Situ Loaded with Gold Nanoparticles

MXene quantum dots

• V2N Quantum Dots
• Cu Doped V2C Mxene Quantum Dots
• Zn-doped Ta4C3 Mxene Quantum Dots
• Carboxylated Ti3C2 MXene Quantum Dots
• Ni Doped Mo2C Mxene Quantum Dots
• TiVC Quantum Dots
• Zn-doped V2C Mxene Quantum Dots
• Zn-doped Mo2C Mxene Quantum Dots
• Ni Doped Ta4C3 Mxene Quantum Dots
• V2C Mxene Quantum Dots

MXene-TiVCrMoC3

• Single Layer TiVCrMoC3 Dispersion Solution
• Single Layer TiVCrMoC3 Powder
• Single Layer TiVCrMoC3 Powder
• Multilayer TiVCrMoC3 Powder
• Multilayer TiVCrMoC3 Powder
• Multilayer TiVCrMoC3 Powder

MXene-TiVNbMoC3

• Single Layer TiVNbMoC3 Dispersion
• Monolayer TiVNbMoC3 Powder
• Monolayer TiVNbMoC3 Powder
• Multilayer TiVNbMoC3 Powder
• Multilayer TiVNbMoC3 Powder
• Multilayer TiVNbMoC3 powder

Nb2AlC MAX

• Nb2AlC MAX Phase Ceramic Material
• Nb2AlC MAX Phase Ceramic Material
• Nb2AlC MAX Phase Ceramic Material
• Nb2AlC MAX Material

Nb2C MXene

• Single Layer V2C Dispersion
• Manganese Ion Intercalation MXene Nb2C
• Single-layer Small Size (less Than 100nm) Nb2C Aqueous Solution
• Single-layer Nb2C EtOH/MeOH/IPA/MeCN/DMSO/DMF/NMP/PC Colloidal Solution
• Single Layer Nb2C Dispersion Solution
• Ultra-large Nb2C Nanosheets (>10μm)
• Monolayer Nb2C Ethanol Colloidal Solution
• Multilayer Nb2C Colloidal Solution
• Amination Multi-layer Nb2C MXene
• Nb2C MXene Quantum Dots

Nb4AlC3 MAX

• Nb4AlC3 MAX Phase Ceramic Material
• Nb4AlC3-350 Mesh -MAX Material
• Nb4AlC3 MAX Phase Ceramic Material

Nb4C3 MXene

• Single Layer Nb4C3 Dispersion
• Organ-like Nb4C3 MXenes Material
• Single Layer Nb4C3 Powder
• Monolayer Nb4C3 MXene
• Single Layer Nb4C3 Powder
• Multiple Layers of Nb4C3 Powder
• Multiple Layers of Nb4C3 Powder
• Multiple Layers of Nb4C3 Powder
• Single Layer Nb4C3 Powder

Porous MXene

• Porous Monolayer MO2Cmxene Colloid Solution
• Porous Monolayer TiVC Mxene Colloid Solution
• Porous Monolayer Nb2C Mxene Colloid Solution
• Porous monolayer V2C mxene colloid solution
• Porous Monolayer Ti3c2 Mxene Colloid Solution

ScAl3C3 MAX

• ScAl3C3-MAX
• ScAl3C3-MAX

Single atom doped MXene

• Monatomic Pt Loaded Monolayer Ti3C2
• Monatomic Cu Supported Monolayer Ti3C2
• Single Atom Ag Supported Monolayer Ti3C2
• Single Atom Cd Supported Monolayer Ti3C2
• Monatomic Co Supported Monolayer Ti3C2
• Single Atom Fe Supported Monolayer Ti3C2
• Single Atom Ni Supported Monolayer Ti3C2
• Single atom Zn supported monolayer Ti3C2

Single layer MXene film

• V2C-Ti3C2-Nb2C Composite Sandwich Flexible Self-supporting Film
• ITO Substrate Ti3C2 MXene
• ITO Base Nb2CMXene
• PET Base Ti3C2 MXene
• PET Substrate Nb2CMXene
• Silicon Substrate Ti3C2MXene
• Silicon Substrate Nb2C MXene
• ITO Substrate V2C MXene
• PET Substrate V2CMXene
• Silicon Substrate V2C MXene

Single layer MXene powder

• Single/low layer powder material Ti3C2
• Single/low layer powder material Ti2C
• Single/low layer powder material Nb2C
• Single/low layer powder material V2C
• Hydroxylated multilayer Ti3C2
• Multilayer organ-like Ti3C2 MXenes material
• Multilayer Ti3C2 nitride

Single layer MXene solution

• Single layer small size (20nm-30nm) Ti3C2 aqueous solution
• Monolayer colloidal aqueous solution Nb2C MXenes material
• Single layer large size (>5 microns) Ti2C-MXene colloidal solution
• Monolayer Nb4C3 mxene
• Single-layer V2C EtOH/MeOH/IPA/MeCN/DMSO/DMF/NMP/PC colloidal solution
• Monolayer Ti2C ethanol colloidal solution
• Multilayer Ti2C colloidal aqueous solution
• Single-layer small size (less than 100nm) V2C aqueous solution
• Single-layer Nb2C EtOH/MeOH/IPA/MeCN/DMSO/DMF/NMP/PC colloidal solution
• Single layer colloidal aqueous solution Ti2C MXenes material 10ml/ bottle

Single layer small size MXene

• Single Layer Small Size (20nm-30nm) Ti3C2 Aqueous Solution
• Mxene Nanowire
• Monolayer Colloidal Solution TIVC MXenes
• Monolayer Colloidal Aqueous Solution Mo2TiC2 MXenes
• Mxene V4C3 Nanowires
• Monolayer Colloidal Aqueous Solution Ti4N3 MXenes
• Monolayer Colloidal Aqueous Solution Mo2Ti2C3 MXenes
• Monolayer Colloidal Aqueous Solution V2C MXenes
• Mxene Nb4C3 Nanowires
• Monolayer Colloidal Aqueous Solution V4C3 MXenes

Solid solution MXene

• Monolayer Ti2V0.9Cr0.1C2Tx MXene
• Multilayer Ti2V0.9Cr0.1C2Tx MXene

Solution for MXene films

• Pump And Filter MXene Film Special Solution

Ta2AlC MAX

• Ta2AlC-MAX material 5g
• Ta2AlC MAX phase ceramic material
• Ta2AlC MAX phase ceramic material

Ta2C MXene

• Monolayer Ta2C MXenes Material
• Organ-like Ta2C MXenes Material 1g
• Ta2C Mxene Quantum Dots

Ta4AlC3 MAX

• Ta4AlC3

Ta4C3 MXene

• Single Layer Ta4C3 Dispersion
• Single Layer Ta4C3 Powder
• Single Layer Ta4C3 Powder
• Single Layer Ta4C3 MXenes Material
• Single Layer Ta4C3 Powder
• Ta4C3 MXene Quantum Dots
• Organ-like Ta4C3 MXenes Material
• Multiple Layers of Ta4C3 Powder
• Multiple Layers of Ta4C3 Powder
• Multiple Layers of Ta4C3 Powder

Ti2AlC

• Ti2AlC MAX Phase Ceramic Material
• Ti2AlC MAX Phase Ceramic Material
• Ti2AlC MAX Phase Ceramic Material

Ti2AlC MAX

• Ti2AlC MAX Material
• Ta2AlC MAX phase ceramic material

Ti2AlN MAX

• Ti2AlN MAX Phase Ceramic Material
• Ti2AlN MAX Phase Ceramic Material
• Ti2AlN MAX Phase Ceramic Material
• Ti2AlN-300 Mesh -MAX Material

Ti2C MXene

• Single-layer Ti2C EtOH/MeOH/IPA/MeCN/DMSO/DMF/NMP/PC colloidal solution
• Super-sized Ti2C Nanosheets (>10μm)
• Ti2C MXene Quantum Dots
• Multilayer Ti2C Colloidal Aqueous Solution
• Single layer Ti2C dispersion
• Amination of Multilayer Ti2C MXene
• Monatomic Pt Doped with Ti2C MXene
• Organ-like Ti2C MXenes Material 1g
• Porous Foam MXene Ti2C
• Monolayer Ti2C Powder

Ti2N MXene

• Single Layer Ti2N Dispersion
• Single Layer Ti2N Powder 0.2-MXene
• Multilayer PowderTi2N-M Xene

Ti2SnC MAX

• Ti2SnC MAX Phase Ceramic Material
• Ti2SnC MAX Phase Ceramic Material
• Ti2SnC-MAX

Ti2VAlC2 MAX

• MAX Ti2VAlC2

Ti3Al0. 5 cu0. 5 c2

• Ti3Al0. 5 cu0. 5 c2

Ti3AlC2 MAX

• Ti3AlC2 MAX Material
• Ti3AlC2 Max Phase Target
• Co Is In-situ Doped with Ti3ALC2
• Ti3AlC2 MAX Phase Ceramic Material
• Fe in Situ Doped with Ti3AlC2
• Ti3AlC2 MAX Phase Ceramic Material
• S In Situ Doped with Max-Ti3AlC2
• Mn in Situ Doped with Ti3ALC2
• Ti3AlC2 MAX Phase Ceramic Material
• 99.7 Percent TI3AlC2 Powder Material

Ti3AlCNMAX

• Ti3AlCN MAX Phase Ceramic Material
• Ti3AlCN MAX Phase Ceramic Material
• Ti3AlCN

Ti3C2 MXene

• Clay-like Multilayer Ti3C2 Powder
• Carboxylated Multilayer Ti3C2 Powder
• Hydroxylated Multilayer Ti3C3 Powder
• Aminated Multilayer Ti3C2 Powder
• Ti3C2Tx (MXene) Multilayer Nanoflake
• Titanium Carbide (Ti3C2Tx) MXene Multilayer Nanosheets
• Less Layer Ti3C2 Powder
• Monolayer in-situ TiO2-Ti3C2 MXene material
• Multilayer Ti3C2 Nitride
• Carboxylated multilayer Ti3C2 powder

Ti3CN MXene

• Multilayer Ti3CN Powder
• Multilayer Ti3CN Powder
• Single Layer Ti3CN Powder
• Single Layer Ti3CN Dispersion
• Single Layer Ti3CN Colloidal Solution
• Single Layer Ti3CN Powder
• Ti3CN Transparent Film
• Organ-like Ti3CN MXenes Material
• Single Layer Ti3CN Powder
• Ti3AlCN MAX Phase Ceramic Material

Ti3GeC2 MAX

• Ti3GeC2-MAX

Ti3SiC2 MAX

• Ti3SiC2 MAX Phase Ceramic Material
• Ti3SiC2 MAX Phase Ceramic Material
• Ti3SiC2 MAX Phase Ceramic Material
• Ti3SiC2 MAX Material

Ti3SnC2 MAX

• MAX phase ceramics, high purity Ti3SnC2, Titanium-tin carbon, Titanium-Tin Carbide, MXene Ti3C2 precursor

Ti4AlN3 MAX

• Ti4AlN3-MAX

Ti4N3 MXene

• Single Layer Ti4N3 MXene
• Multilayer Ti4N3 MXene

TiNbAlC MAX

• TiNbAlC-Max
• TiNbAlC MAX phase ceramic material
• TiNbAlC MAX phase ceramic material

TiNbC MXene

• Layer TiNbC Powder
• Single-layer TiNbC
• Multi-layer TiNbC
• Single Layer TiNbC Dispersion
• Single Layer TiNbC Powder
• Single Layer TiNbC Powder
• Layer TiNbC Powder

TiVAlC MAX

• TiVAlC-MAX Material

TiVC MXene

• MXene TIVC

V2AlC MAX

• V2AlC MAX Phase Ceramic Material
• V2AlC MAX Phase Ceramic Material
• V2AlC MAX Phase Ceramic Material
• 2. V2AlC MAX Material

V2C grows MnO2 in situ

• 2C Grows MnO2 in Situ

V2C MXene

• Monolayer V2C Colloidal Aqueous Solution -MXenes Material - 50ml
• V2C Transparent Film
• Nitrogen-sulfur Doping Modified V2C MXene
• Multiple Layers of V2C Powder
• Monolayer V2C Ethanol Colloidal Solution
• Ultra-large V2C Nanosheets (>10μm)
• Single Layer V2C Powder
• Amination of Multilayer V2C Mxene
• Monolayer Large Size (>5 Microns) V2C-mxene Colloidal Solution
• In Situ Multilayer VOx-V2C MXene Heterojunction

V2GaC MAX

• MAX phase ceramic material, high purity V2GaC, Vanadium Gallium carbon, Vanadium Gallium Carbide, MXene precursor

V2GeC MAX

• MAX phase ceramic material, high purity V2GeC, Vanadium germanium carbon, Vanadium Germanium carbide, MXene precursor

V2N MXene

• V2AlN MAX Phase Material
• Monolayer V2NTx Colloidal Aqueous Solution
• Organ Form V2N

V2PC MAX

• MAX phase ceramic material, high purity V2PC, vanadophosphate carbon, Vanadophosphate carbide, MXene precursor

V2ZnC MAX

• MAX phase ceramic material, high purity V2ZnC, zinc vanadium carbon, zinc Vanadium carbide, MXene precursor

V4AlC3MAX

• V4AlC3-MAX material

V4C3 MXene

• V4C3 Single Layer Powder
• Monolayer V4C3Tx MXene
• Multilayer V4C3Tx MXene

VCrAIC MAX

• VCrAIC-MAX

VCrC MXene

• Multilayer VCrC Powder
• Multilayer VCrC Powder
• Single Layer VCrC Mxene
• Monolayer VCrC Dispersion
• Multilayer VCrC Mxene
• Monolayer VCrC Powder
• Monolayer VCrC Powder
• Multilayer VCrC Powder

W1.33C MXene

• Single Layer W1.33C MXene
• Multilayer W1.33C MXene
• Multilayer W1.33C MXene