Facilitated hydrogen release kinetics from amine borane functionalization on gate-opening metal-organic framework

Chi Wei Liao; Po Sen Tseng; Bor Kae Chang; Cheng-Yu Wang

doi:10.1016/j.surfcoat.2018.06.084

Facilitated hydrogen release kinetics from amine borane functionalization on gate-opening metal-organic framework

Chi Wei Liao, Po Sen Tseng, Bor Kae Chang, Cheng-Yu Wang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

For the first time, we functionalized the gate-opening metal-organic framework (GO-MOF) of MIL-53(Al) with ammonia borane (AB, NH₃BH₃) via post-synthesis method. In this report, unusual structural breathing and dehydrogenation behaviors of AB doped MOF (MIL-53-AB) were discovered. Surface coating triggered the GO-MOF breathing phenomenon and opened the structure, and gate was closed after dehydrogenation. The dehydrogenation peak temperature was greatly reduced by 30 °C compared to that of pristine AB with suppressed byproduct like ammonia. The MOFs with surface coated AB exhibited remarkably fast hydrogen generation rate and corresponding low apparent activation energy, estimated at <40 kJ/mol, which is much lower than that of crystalline AB, and even comparable to AB hydrolysis with catalysts. The ammonia borane functionalized MIL-53 has shown greatly improved dehydrogenation from solid phase of AB.

Original language	English
Pages (from-to)	12-19
Number of pages	8
Journal	Surface and Coatings Technology
Volume	350
DOIs	https://doi.org/10.1016/j.surfcoat.2018.06.084
State	Published - 25 Sep 2018

Keywords

Ammonia borane
Hydrogen storage
Hydrogenation generation kinetics
Metal-organic framework
Surface functionalization

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10.1016/j.surfcoat.2018.06.084

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title = "Facilitated hydrogen release kinetics from amine borane functionalization on gate-opening metal-organic framework",

abstract = "For the first time, we functionalized the gate-opening metal-organic framework (GO-MOF) of MIL-53(Al) with ammonia borane (AB, NH3BH3) via post-synthesis method. In this report, unusual structural breathing and dehydrogenation behaviors of AB doped MOF (MIL-53-AB) were discovered. Surface coating triggered the GO-MOF breathing phenomenon and opened the structure, and gate was closed after dehydrogenation. The dehydrogenation peak temperature was greatly reduced by 30 °C compared to that of pristine AB with suppressed byproduct like ammonia. The MOFs with surface coated AB exhibited remarkably fast hydrogen generation rate and corresponding low apparent activation energy, estimated at <40 kJ/mol, which is much lower than that of crystalline AB, and even comparable to AB hydrolysis with catalysts. The ammonia borane functionalized MIL-53 has shown greatly improved dehydrogenation from solid phase of AB.",

keywords = "Ammonia borane, Hydrogen storage, Hydrogenation generation kinetics, Metal-organic framework, Surface functionalization",

author = "Liao, {Chi Wei} and Tseng, {Po Sen} and Chang, {Bor Kae} and Cheng-Yu Wang",

year = "2018",

month = sep,

day = "25",

doi = "10.1016/j.surfcoat.2018.06.084",

language = "English",

volume = "350",

pages = "12--19",

journal = "Surface and Coatings Technology",

issn = "0257-8972",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Facilitated hydrogen release kinetics from amine borane functionalization on gate-opening metal-organic framework

AU - Liao, Chi Wei

AU - Tseng, Po Sen

AU - Chang, Bor Kae

AU - Wang, Cheng-Yu

PY - 2018/9/25

Y1 - 2018/9/25

N2 - For the first time, we functionalized the gate-opening metal-organic framework (GO-MOF) of MIL-53(Al) with ammonia borane (AB, NH3BH3) via post-synthesis method. In this report, unusual structural breathing and dehydrogenation behaviors of AB doped MOF (MIL-53-AB) were discovered. Surface coating triggered the GO-MOF breathing phenomenon and opened the structure, and gate was closed after dehydrogenation. The dehydrogenation peak temperature was greatly reduced by 30 °C compared to that of pristine AB with suppressed byproduct like ammonia. The MOFs with surface coated AB exhibited remarkably fast hydrogen generation rate and corresponding low apparent activation energy, estimated at <40 kJ/mol, which is much lower than that of crystalline AB, and even comparable to AB hydrolysis with catalysts. The ammonia borane functionalized MIL-53 has shown greatly improved dehydrogenation from solid phase of AB.

AB - For the first time, we functionalized the gate-opening metal-organic framework (GO-MOF) of MIL-53(Al) with ammonia borane (AB, NH3BH3) via post-synthesis method. In this report, unusual structural breathing and dehydrogenation behaviors of AB doped MOF (MIL-53-AB) were discovered. Surface coating triggered the GO-MOF breathing phenomenon and opened the structure, and gate was closed after dehydrogenation. The dehydrogenation peak temperature was greatly reduced by 30 °C compared to that of pristine AB with suppressed byproduct like ammonia. The MOFs with surface coated AB exhibited remarkably fast hydrogen generation rate and corresponding low apparent activation energy, estimated at <40 kJ/mol, which is much lower than that of crystalline AB, and even comparable to AB hydrolysis with catalysts. The ammonia borane functionalized MIL-53 has shown greatly improved dehydrogenation from solid phase of AB.

KW - Ammonia borane

KW - Hydrogen storage

KW - Hydrogenation generation kinetics

KW - Metal-organic framework

KW - Surface functionalization

UR - http://www.scopus.com/inward/record.url?scp=85049458306&partnerID=8YFLogxK

U2 - 10.1016/j.surfcoat.2018.06.084

DO - 10.1016/j.surfcoat.2018.06.084

M3 - Article

AN - SCOPUS:85049458306

SN - 0257-8972

VL - 350

SP - 12

EP - 19

JO - Surface and Coatings Technology

JF - Surface and Coatings Technology

ER -

Facilitated hydrogen release kinetics from amine borane functionalization on gate-opening metal-organic framework

Abstract

Keywords

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