Richardjgray
Uploaded on Jul 11, 2023
Category
Research & Analytics
Porous Organic Materials. https://www.cd-bioparticles.net/
Category
Research & Analytics
Porous Organic Materials
Porous Organic Materials
Ta b le o f C on te n ts
Metal-organic Frameworks (MOFs) Materials 5
Indium-based M OFs (In- 6
MOF)
Zirconium-based MOFs (Zr-MOF) 7
Copper-based MOFs (Cu– 9
Abo ut U s MOF)Aluminum-based MOFs (Al- 10
MOF)
Chromium-based MOFs (Cr-MOF) 11
CD Bioparticles is an established drug delivery company which provides customized solutions for developing Cobalt-based 12
MOFs (Co-MOF) and producing new, biocompatible drug delivery systems. Nickel-based MOFs 13
C(NDi -BMioOpaFr)ticles has production workshops and a quality control laboratory for a series of porous organic 14
materials. CD Bioparticles specializes in customizing Metal-organic Frameworks (MOFs) Materials, ICroonva-lbeansted MOFs (Fe-MOF)
15
Organic Framework (COF) Materials, Hydrogen-bonded Organic Framework (HOF) Materials. Widely used in Zinc-Based MOFs (Zn-
MfoOoFd), drug delivery, gas adsorption and separation, catalysis, sensors and other areas. Titanium-based MOFs (Ti- 17
MOF)
Covalent Organic Framework (COF) Materials 18
Tod a y w e offe r y ou : Hydrogen-bonded Organic Framework (HOF) Materials 19
We offer fully certified high-quality porous organic materials. This is an excellent choice for your
porous organic materials supply:
● Wide coverage of the porous organic materials
● Keep pursuing higher surface area with optimized
formulation
● Tailored textural properties, uncompromising on porosity
● Feasibility studies under real conditions
- Metal-organic Frameworks (MOFs) Materials - Indium-based MOFs (In-
MOF)
Metal-organic Frameworks (MOFs) Materials is a kind of porous material with periodic network skeleton E x c it a ti o n E m i s s i o n Ca talog no Pro duc t N am e C AS Nu mb e
Structu re
W a v e l e n g t h W a v e l e n g t h
structure formed by self-assembly through coordination between organic ligands and metal ions. It has the
advantages of high porosity, low density, larges pecific surface area, regular pores ize, adjustable pore size C D M -C H 0 0 8 MIL-1 2 4 (In) 2 1 3 8 2 9 2 -5 8 -5 29 8 nm
and topological structure diversity and clipability. It is widely used in drug delivery, gas and liquid
61 3 nm
adsorption, gas storage, conductivity, catalysis and other fields.
CD Bioparticles’ customized Metal-organic Frameworks (MOFs) Materials with various of the
material formats and chemical composition can help you to solve:
The challenges you might meet:
Limited MOF options in the market for different applications
Restricted surface area
Low production yield and low consistency
Tedious processing and formulation
Limited facilities for large production yield
with consistent quality control
We have:
Indium-based MOFs (In-MOF) Cobalt-based MOFs (Co-MOF)
Zirconium-based MOFs (Zr-MOF) Nickel-based MOFs (Ni-MOF)
Copper-based MOFs (Cu–MOF) Iron-based MOFs (Fe-MOF)
Aluminum-based MOFs (Al- Zinc-Based MOFs (Zn-MOF)
MOF) Chromium-based MOFs (Cr- Titanium-based MOFs (Ti-
MOF) M OF)
Properties of
products:
Figure 1. TEM image of MIL-88B- Figure 2. XRD spectrum of MIL-88B-Fe
Fe
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- Zirconium-based MOFs (Zr-MOF) - Zirconium-based MOFs (Zr-MOF)
Catalog no Prod uc t Na m e C A S Nu mb e r Po re Volu me P ore Size Structure Ca talog n o
Pro duc t Na m e C AS Nu mb e r P ore Vo lume Po re Size Structu re
0 . 4 8 n m ; 0 . 5 6 n m ;
1C2D6M0-1C1H9 -00216- 4 M O- -F - 8 0 1 ( Z r) 1 3 5 5 9 7 4 - 7 8--- 5 0. 4 5 cm³/g C DM - C H 2 4 2 NO2 - U I O - 66
0 .7 4 nm
C D M -C H 0 3 3 PCN-2 2 2 (H) 1 4 0 3 4 6 1 -0 6 -2 1.5 cm ³/g ~ 0 .1 3 9 (m icro po re
3 .7 nm ; 1 .3 nm C D M -C H 2 4 3 UIO-6 6-MSA - -
C D M -C H 0 34 PCN-2 2 4 (H) 1 4 7 6 8 1 0 -8 8 -4 volum e)/0 .5 0 8
1 .5 9 cm ³/g 1 .9 nm C D M -C H 2 4 4 UIO-6 8 (Zr) 1 0 7 24 1 3 -8 5 -4
1 .8 cm ³/g 1.7 7(t ontmal < 0 .7 nm
C D M -C H 0 3 5 PCN-1 2 8 (Zr) 2 2 3 0 4 8 8 -02 -3 1 .5 cm ³/g ~0 .1 3 9 (m icro po re
3 .8 / 3 .5 nm 1 .5 nm po re volume) cm³/g
C D M -C H 2 4 6 MIP-2 0 2 (Zr) 23 7 8 1 79 -9 1 -8
v olu m e)/0 .50 8 (to tal < 0 .7 nm
C D M -C H 2 2 9 MOF-8 6 7 1 4 3 1 3 7 5 -0 7 -3 -- C DM - C H 2 6 3 P C N-2 2 2 (Fpeo) r e v 1ol4u0m3e4)6 c1m-0³/0g- 6
1 .5 nm - - --
C D M - C H2 3 3 U IO -6 6 - C OOH 0 .8 nm ; C D M -C H 2 6 4 PCN-7 7 7 (Zr) 1 6 4 4 1 6 1 -4 6 -5
1 3 3 4 7 2 2 - 0 4 -1 - - 1 .1 nm 2 .8 cm ³/g 3.8 nm
C D M -C H 2 34 NH2-UiO-6 6 1 2 6 0 1 1 9 -0 0 -3 0 .5 C D M -C H 2 6 7 PCN-2 2 3 (H) 1 6 4 0 2 2 6 -2 9 -4
cm ³/g 0 .8 nm ; 1 .1 nm 0 .6 cm ³/g 1.2 nm
C D M -C H 2 3 5 UiO-6 7 (Zr) 1 0 7 2 4 1 3 -8 3 -2 1 W ind ow size :
cm ³/g 1 nm ; 1 .3 nm 0 .8 ×
C D M -C H 2 8 5
C D M -C H 2 36 UiO-6 6 (Zr) 1 0 7 2 4 1 3 -8 9 -8 0 .5
C D M -C H 2 9 0 MOF-8 0 8 (Zr) 1 5 7 9 9 8 4-1 9 -2 N U -01.08 04 0 (Zr)
cm ³/g 0 .8 nm , 1 .1 nm
cm ³/ g 0 .4 8 n m ; 1 .8 4 nm 1 4 4 6 1 3 8 -
6 3 -1
C D M -C H 2 39 UIO-6 6-SO3H 1 3 3 4 7 2 2 -07 -4 0 .5 1 .3 6 9 cm ³/g
cm ³/g 0 .8 nm , 1 .1 nm
1 .0 nm ; pore
siz e: 3 .1
C DM - C H 2 4 0 U IO -66 -( OH)2 1 3 5 6 0 3 1 - 6 3 -4
- - - - nm and
1 .3 nm
C D M -C H 26461 ( Z r )
2CO OH-UIO- 1 4 5 8 0 4 8 -1 5 -1 --
0 .8 nm , 1 .1 nm
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- Copper-based M OFs (Cu- - Aluminum-based MOFs (Al-
MOF) MOF)
C atalog no C A S Nu m b e E x c it a t i o n E m i s s i o n Structure C atalog no Pro du ct Na m e C AS
P rod uct N am e Nu m b e r Po re Volum e Po re Size Structu re Wa velen gt h Wa vele ng th
C D M - C H0 2 8
S IFSIX-1 -Cu 2 8 8 2 9 7 -8 9 -2 0 .4 3 cm ³/g 1 .1 nm C D M -C H 2 3 2 CAU-1 0 (Al) 1 4 1 6 3 3 0 -8 4 -1 0 .2 3
1cm4 2³8/ g1 3 6 - 8 7 - 0 .4 nm ; 0.7 nm
C D M - C H0 2 9 1 .1 nm
0 .4 3 cm ³/g
1 C D M - C H 2 6 9 D U T-5 1 2 0 75 6 4 - 7 9 -
S IFSIX-2 -Cu 1 - - - -
C DM - C H 0 3 0 2 2 4 3 7 8 1 - 3 8 - C D M -C H 2 8 3 MIL-5 3 (Al) 6 5 4 06 1 -2 0 -8 4 0 .4 3 cm ³/g
C u -T H Q 0 .7 cm ³/g 0 .8 nm *1 .3 nm 1 .1 nm
C D M -C H 28 4 Al-MIL-5 3- 1 1 3 4 36 0 -6 2 -5 0 .5 cm ³/g
C D M -C H 0 3 6 Cu-H HTP
2 2 5 7 4 2 2 - 2 7 - 0 .8 nm ; 1 .3 nm N H 2
-- - -
6
C D M -C H 2 3 1 (CuI)4 (DABCO)2 9 2 8 1 7 0 -4 2 -7 - - -- C D M -C H 28 7 MOF
-2 5 3 1 2 5 1 86 2 -7 6 -6 0 .9 cm ³/g 1 .0 nm *1 .5 nm
Bis (N, N'-
1 4 0 1 7 0 8 -9 1 - W indo w size: 1 .2 -1 .6
C D M - C H 2 3 7 dimethylpiperaz ine)tet ra[cop per 5 - - - - C D M -C H 2 8 8 NH-MIL- 1 0 1 1 4 0 4 2 0 1 -6 4-4 ~ 1 .0 cm ³/ g
nm ; p ore size : 2 .9 -
(I) iodide] (Al)
3 .4 nm
C D M -C H 2 6 8 2 2 0 5 7 8 -7 5 -6 -- C D M - C H 0 3 10 . 4 * 0 .54 6n m7-; M0 O. 5F* 0(.A6l) 1 8 1 8 2 6 6 -9 3-1 0 .4 6 cm ³/g
CPL-1 0 .6 nm *0.8 nm
n m
C D M - C H 2 3 8 HKUST-1 2 2 2 4 0 4 - 0 2 - 6 0 . 3 3 c m ³/g 0 .9 n m C D M -C H 2 8 9 Al-Fum
C1 3D7M0 4-C6H1 2-0760- 5 0 .6 5 cm ³/g 7 0 1 1 9 8 - 2 4 - 5 0 .5 7 *--0 . 6 n m W ind ow size :
CPL-5 0 .6 nm *0.8 nm
2 .6 -3 .0 C D M -C H 0 3 2 PCN-3 3 3 (Al) 1 8 4 3 2 6 0 -1 2 -7
C D M -C H 2 78 9 1 6 3 1 4 -5 4 -0 -- 3 .8 cm ³/g nm ; pore siz e: 1 .1 nm
DUT-8 (Cu) - -
3
.4 nm 5 .5
C D M -C H 2 7 9 7 2 6 1 2 4 -2 0 -5 -- nm
CPL-2 0 .6 nm *0.8 nm
C D M - C H 2 9 1 1 , 3 , 5 - Be n z e n e t ri c a r b o x y l ic a cid, 3 0 9 7 2 1 -4 9 -
copper (2+) salt (
1 - - 2 : 3 ) - -
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- Chromium-based MOFs (Cr-MOF) - Cobalt-based MOFs (Co-
MOF)
C ata log no P rod uct N am e C A S N um b e E x c it a t io n E m is s io n Structure
C atalog no W a Pvreoldeuncgtt hN a mWea v e l e n g t h C AS N um be r Structu
re
2 .0 -2 .4 W in d o w s iz e : 1 .2 - C D M - C H 2 4 7 ZIF -9 (C o)
C D M - C H 2 3 0 MIL- 1 0 1 (Cr) 8 6 9 2 8 8 - 0 9 - 5 cm ³/g 1 5 9 3 3 -1 5 - 0
1 .6
n m ; p o r e s iz e : C D M - C H 2 4 8 C o / D O BD C
2 .9-3 .4 nm 8 7 1 6 5 8 -6 7 - 2
C D M -C H 2 4 5 CAU-1-NH2 (Al) 1 1 8 6 0 3 5 - 2 8 - 0 .5 2 C D M - C H 2 5 1 ZIF -67 C D M -C H 2 5 6 MIL-1 0 0 (Cr) c m ³ / g 0 .4 5 n m ; 1 .0
0 .5 5 - 0 .8 8 n m ; nm 4 6 2 0 1- 0 7 - 4
8 4 0 5 23 -8 8 -8 0 .9 cm ³/g 8 po re size:
2 .5-2 .9 nm
1 0 4 1 4 6 9 -0 6 - C D M- C H2 5 4 DU T-8 (Co) W indow siz e:
C D M - C H 2 5 7 ED-MIL-1 0 1 (Cr) W in d o w s iz e : 1
0 2
. 2 - ~ 2 . 0 1 3 7 6 2 4 5 - 9 5 -2.9 -3 .4
c m ³/ g 1 .6 n m ; p o r e s iz e :
nm C D M- C H2 5 5 [Co (5-NH2 -bd c)
Af ter (b py) 1 1 7 7 41 0 - 7 4 - 0
C D M -C H 2 58 MI 4 42 9 1 2 -7 9 -0 -a- c t i v a t e d
L-5 3 (Cr) 8 .6 × 8 .6 Å or 9 .4
× 1 1 .4 Å
C D M -C H 2 59 NO2-MIL-1 0 1 (Cr)
1 4 2 5 5 0 9 - 2 4 -
- -
1 .5 nm 5
2 .9 -3 .4
1 3 3 1 9 6 1 -4 1 -
nm
W in d o w s iz e : 1 .2 - C D M - C H 2 6 0 MIL-1 0 1 (Cr) -SO3H 1 4 1 48 6 9 -9 5 -
2 .9 -3 .4
W ~ 2 .0 c m ³/ g 1 .6 n m ; p o r e s iz e :
1
i n d o w s iz e : 1 . 2 - C D M - C H 2 6 1 NH2-MIL-1 0 1 (Cnr) m
~ 2 .0 c m ³/ g 1 .6 n 2m .;0 p -o2r e. 4s iz e :
6 2 .9 -3 .4
W in d o w s iz e : 1 .2 - C D M - C H 2 6 2 MIL-1 0 1 (Cr) F Fre e n m 8 7 6 6 6 1 -
0 0 - 6 cm ³/ g 1 .6 n m ; p o r e s iz e :
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- Nickel-based MOFs (Ni- - Iron-based MOFs (Fe-
MOF) MOF)
C atalog no CNuAmS bNeu m b e E x c i t a t io n E m i s sSi otnr u c t u r e S t r u c t u r e Ca talog no Prod uct Na me C AS
Wave leng th Wa vele ngth
P rod uct N am e
C D M - C H2 4 9
KAU S T- 7 1 9 7 3 3 9 9 -0 7 -3 C D M -C H 2 5 2 PCN-2 5 0 (Fe2Co)
2 3 9 3 9 0 6 -7 0 -0 0 .5 cm ³/g 1 nm
C DM - C H 2 5 0 8 8 2 9 7 7 - C D M -C H 26 5 PCN-2 5 0 (Fe)
N i -DOB DC 0 0 -6 1 7 7 1 75 5 -2 2 -6 0 .5 cm ³/g 1 nm
C D M -C H 2 53 1 2 5 4 1 8 1 - C D M -C H 2 6 6 PCN-6 0 0 (Fe)
DUT-8 (Ni) 2 7 -5 1 6 3 0 7 9 4 -1 2 -5 1 .8 cm ³/ g 3 .1 nm
W indo w
C D M -C H 70 7 F-free MIL-1 0 0 (Fe) s i z e 1: 2 5 7 37 9 -
8 3 -1 0 .9 cm ³/g 0 .5 5 - 0 .8 8 n m ; p ore size :
2W.5in-d2o.9w n m
size: 1 .2
C D M -C H 7 0 8 MIL-1 01 (Fe)
C D M -C H 70 9 MIL-1 0 0 (Fe) 1 1 8 9 1 8 2
1 1 9 5 7 6 3 -3 7 -1 0.9 cm ³/g 0 . 5 5 - 0 . 8 8 n m ; p ore size :
-6 7 -9
2 .5 -2 .9 n m
C D M - C H 7 1 0 MIL-8 8B-Fe 1 314.81 1cm3 4³/-g0 1 -
7 - - - -
nm ; po re
W indo w
size: 2 .3 -
size: 1 .0 C D M -C H 7 1 1 NH2-MIL-1 0 1 (Fe)
2.7 nm
1 1 8 9 1 8 2 -8 5 -1 1.8 cm ³/g n m ; po re size:
W indo w siz e:
2
C D M- C H7 1 3 NH 2 -MI L -8 8 B (Fe) . 3 -2 .7 nm
1 3 4 1 1 3 4 - 0 9 -5 - - --
C D M- C H7 1 4 NH 2 -MI L -5 3 (Fe) C D M -
C1 2H9711028 8 -M7 7IL--15 3 (-F-e ) - - 7 6 4 6 0 8 - 4 7 -1
- - - -
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- Iron-based MOFs (Fe- - Zinc-Based M OFs (Zn-
MOF) MOF)
E xc it a t io n E m i s s i o n
Ca talog no Pro du ct Na me C AS Nu m b e S tructure C atalog n o
E xc it a t io n E m i s s i o n
P rod uct Na me C AS Nu m b e Structure Wa ve le ng th
Wa vele ngt h Wa vele ngt h Wave len gth
C D M -C H 7 1 5 MIL-6 8 (F) 1 2 5 1 8 4 9 - 1 3 - - - - -
C D M -C H 2 7 1 MOF-5
2 5 5 3 6 7 -6 6 -9 - - 1 .5 nm 4
1 1 3 8 4 4 6 - 5 6 -
C D M -C H 7 1 6 MIL-8 8A (Fe) -- - -
C D M -C H 2 7 2 IRMOF-3
4 7 3 9 8 1 -3 1 -6 - - 1 .5 nm 6
C D M -C H 2 7 4 MOF-17 7 6 7 6 5 9 3 -6 5 -0
1 .6 cm ³/g 1 .1 nm
C D M -C H 2 7 3 MOF-7 4 (Mg) 8 4 7 6 4 3 -6 4 -5 - -
1 .5 nm
C D M -C H 2 7 5 IRMOF-9 4 7 3 9 8 1 -4 5 -2
- - 1 .5 nm
C DM - C H 2 7 6 IR MOF-8 4 7 3 9 8 1 -4 3 - 0
- - - -
C D M -C H 2 7 7 CAU-2 1-ODB 2 0 9 5 4 6 5 -8 5-1
- - 1 .5 nm
C D M -C H 2 8 2 MIL-10 0 (Al) 12 0 0 3 58 -5 8 -2
- - 1 .5 nm
C D M -C H 2 8 6 MIL-96 (Al) 9 0 8 8 3 1 -43 -6
- - 1 .5 nm
C D M -C H 29 2 ZIF-6 8 1 0 1 8 4 7 7 -0 9 -
2 - - 1 .5 nm
W ind ow size : 0 .3 5
C D M -C H 2 9 3 ZIF-9 0 1 0 6 2 1 4 7 -3 7 -8
0 .4 cm ³/g nm ; po re size: 1 .1
n m
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- Zinc-Based M OFs (Zn- - Titanium-based MOFs (Ti-
MOF) MOF)
E x c i t a t io n E m i s s i o n
Catalog n o P rodu ct Na me W CE x c i t aav
AeSl eNnugmthb e Structure W a v e le nCgathta lo g n o P rodu ct t i o n E m i s s i o n
Na me C AS Nu mb e Wav elen gth S tructure Wave leng th
C D M -C H 2 8 0 MIL-1 2 5 (Ti) 1 1 9 3 3 7 2 -0 3 -0
C D M -C H 2 9 4 ZIF-8 5 9 0 6 1 -53 -9 - - 0 .6 nm * 0 .8 n m
0 .6 6 cm ³/g 0 .3 4 nm ; 1 .1 nm
C D M -C H 2 8 1 NH2-MIL-12 5 (Ti) 1 3 0 9 7 6 0 -9 4 -8 --
0 .6 nm * 0 .8 nm
C D M -C H 2 9 5 ZIF-7 9 0 9 5 301.-0 . 4 3 n m (A p e rt u r e : 2
249 -9
0 .1 8 cm ³/g nm )
C D M - C H 2 9 6 Zn-ZIF -62 1 4 4 6 4 3 4 - 4 4 -1
- - --
C D M - C H 2 9 7 ZIF-14 9 4 5 2 1 5 -3 7 - 2
- - --
C D M - C H 2 9 8 ZIF-11 2 4 3 0 4 -5 4 - 9 - -
- -
C D M -C H 2 9 9 ZIF-64 1 7 3 3 9 -4 4 -5 - -
1 .5 nm
C D M - C H 3 0 0 ZIF-70 1 2 0 7 3 5 5- 4 9 - 4
- - - -
C D M - C H 3 0 1 ZIF-69 1 01 8 4 7 7- 1 0 - 5 - -
- -
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- Covalent Organic Framework (COF) Materials - Covalent Organic Framework (COF) Materials
Covalent Organic Framework (COF) Materials is a crystalline material with ordered porous structure formed Catalog no Pro duc t Na me C AS Nu m b e E x c i t a ti o n E m i s s i o n
Structure
by reversible polymerization of light elements C, O, N, B and so on, which is constructed by covalent W a v e l e n g t h W a v e l e n g t h
bonding. Due to the rich designability of organic monomers, the orderness and regularity of crystal materials C D M -C H 0 01 COF-4 2 1 31 4 8 7 7-6 7 -2 0 .3 1 cm ³/g
2 .8 nm
and the diversity of covalent bond forms, Covalent Organic Framework (COF) Materials have incomparable
advantages of other traditional porous materials, such as low density, high specific surface area, easy C D M -C H 0 0 2 COF-LZU-1 1 2 4 20 8 2 -1 2 -7 - -
1 .2 -1 .8 n m
modification and functionalization, etc. Therefore, Covalent Organic Framework (COF) Materials have been
extensively studied in the fields of gas storage and separation, heterogeneous catalysis, energy storage C D M -C H 0 2 7 HCOF-1 1 6 3 9 2 1 1 -3 7 -2 1 .1 -1 .2 cm ³/g 1 .1 8 nm
materials, optoelectronics, sensing and drug delivery and have shown excellent application prospects.
CD Bioparticles' customized Covalent Organic Framework (COF) Materials with various of the material C D M - C H 0 3 7 CTF- 1 2 1 5 5 8 2 2 - 9 2 - 5 0 .4 c m ³/g 1 .2 n m
formats and chemical composition.
CC DD MM --CC HH 003389 TPpyPCaO-F1 21148154739500--0 8 -1 - -
31 7.3-80 n m * 1 . 5 09. 0n8m7 cm ³/g 1 .8 nm
C D M - C H 0 4 1 I ISER P- COF4 1 7 8 8 0 7 8 - 5 5 -6
-- - -
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- Hydrogen-bonded Organic Framework (HOF) Materials - Hydrogen-bonded Organic Framework (HOF) Materials
Hydrogen-bonded Organic Framework (HOF) Materials is a class of ordered frame materials constructed C atalog n o Pro du ct Na me P ore Volume Po re S ize
Structure
only by self-assembly of organic building units through intermolecular hydrogen bonds. As a highly ordered
new porous crystalilne material, Hydrogen-bonded Organic Framework (HOF) Materials have the unique C D M -C H 0 0 3 HOF-1 0 2 1 .3 5 cm ³/g
3 .0 n m , 2 .5 n m ; 3 .6 5 -
3 .71 nm
advantages of mild synthesis conditions, solvent processability and easy regeneration. At the same time,
C D1 .M3 6-C cHm0³4/g0 PFC-1
area, adjustable aperture and low density. At present, Hydrogen-bonded Organic Framework (HOF)
Hnymdrogen-bonded Organic Framework (HOF) Materials have the characteristics of high specific surface
Mshoawteinriagl s ghoaovde abpepcolicmateio onn epr oosfp ethctes ninew g aress eaadrcsho rphtoiotsnp oatsn din stehpea rfiaetioldn ,o fm cohleemcuilsatrry d aenvdice sm, aflteuroiarless csecnietn c e , C D M- C H 0 4 2 HO F -1 0 0 - -
2 . 4 n m , 1 . 8 n m ; 3 .4 - 3 . 6 - -
probes, proton conduction, drug molecular transfer and other aspects.
CD Bioparticles' customized Hydrogen-bonded Organic Framework (HOF) Materials with various of
the material formats and chemical composition.
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- Covalent Organic Framework (COFs) Linkers - Metal-organic Frameworks (MOFs) Linkers
2d-Aldehyde COFs Linkers 2d-Carboxylic MOFs Link
2d-Alkyne Orgnic COFs Linkers 2 ers 2d-Hybrid MOFs Lin
d-Amine COFs Linkers kers
2d-Phosphoric Acids COFs Lin 2d-Nitrogen MOFs Linker
kers 3d-Aldehyde COFs Linke s 3d-Carboxylic MOFs Li
rs nkers 3d-Hybrid MOFs L
3d-Alkyne Orgnic COFs Linkers inkers
3d-Phosphoric Acids COFs Lin 3d-Nitrogen MOFs Linker
kers Hybrid COFs Linkers s 4d-Carboxylic MOFs Li
Multi-Aldehyde COFs Linkers nkers A2B2-Porphyrins
Multi-Alkyne Orgnic COFs Link A3B1-Porphyrins
ers Multi-Amine COFs Linkers A4-Porphyrins Bip
Multi-Phosphoric Acids COFs Lin yridine Blocks
kers Customizable COFs Linker Halide Substituted Aroma
s tics Isophthalate Metallop
Other COFs Linkers orphyrins
Multi-Carboxylic MOFs Link
ers Multi-Hybrid MOFs Link
ers Multi-Nitrogen MOFs Li
nkers Tetraphenylethylene
Triphenylbenzene Customiz
able MOFs Linkers Other
MOFs Linkers
Other Organic-Linker Block
We also provide organic linkers to build MOFs and COFss materials. For more information, please
contact us.
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C on ta c t U s
Phone:1-631-624-4882 Fax:1-631-938-8221 E-mail:
[email protected] 45-1 Ramsey Road, Shirley, NY 11967, USA
www.cd-bioparticles.net
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