Topic: Recent Advances of Hydrogen Storage and Energy For the literature review, you need to do the following things: 1) Choose 10 or more papers that focuses on the advances of hydrogen storage mate

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****** *** *** ***** ** ****** ********** acid in *** *********** **** (Whittingham ******* *** ***** ****** **** **** ********** **** *** groundwork *** *** ****** ********* ***** *** ***** ***** fuel cells ******* T Bacon * ********* ******* *** ******* research **** **** ***** ** ********* *** *** ******** his idea until **** when he ********* * ************* **** **** ******* ** ******** * ***** of ***** ********* ******* * ****** used the term ****** ***** ** ***** ** *** ********* **** **** concept ******* ******** ********** ** 1998 to ********* * hydrogen-fueled **** ** collaboration **** ************ *** ******* Power Systems a ******** **** **** ******* The ******* **** ***** *** converting all ********* ******* ************ Iceland's fishing industry ** ******** **** ********** (Bacon ******* February 1999 Hamburg ******** ******** ******** ***** ********** joint stock hydrogen ******* station *** ******** *** ****** ******* Chrysler ******** the NECAR * ****** ******** *** in ***** **** **** * **** ***** ** ** *** and a ***** of *** ******* and eighty ***** the ********** ********* *** press; by **** *** business intended ** **** limited ************* ** ********* **** By **** * ****** ******* ******** may **** invested ** additional **** ******* ******* ** *** *********** of ****** ******* ********* ****** **** *********** *********** ******** *** *********** of * novel ******** storage technology ***** ** ****** ***** ****** nanotubes ***** can ************* ***** hydrogen ********* *** efficiency San Yang a ********* startup is ******** *** ******* first **** **** motorbike (Bacon 1969)In the ****** ****** ******** laws *** *********** **** ***** in the present **** of ******** **** **** ******** most ******* *** 1996 ******* ******** ****** *** *** ******* ***** laws ********** ************* ******** Different **** ***** **** *** **** *********** ********** with substantial ************ ********* In ******* *** ** *** ******* ******** **** *** ******* US ******* ** ********* technology ***** *********** ********** Developments *** ********** **** ******* advancements in *** ***** ** hydrogen energy ***** ** be noticed ** **** *** ********** for ******** and **** Fuel **** ********* **** ** *** ******** ** ******** *********** *********** ******** *** "Integrated ********** **** *** Hydrogen *** **** ****** *** Tokyo Metropolitan ************** ***** ** ***************** a series of ******** initiatives *** ********* *********** ***** ** ********* a ********* ************* ** * ****** ** *** ******* ***** ** ***** *** ************** Honda *** ****** Automotive ******** ********** ** ********* ******** fuel cell vehicles ** *** ******** Additionally two ***** ********* Iwatani *** ** ****** *** and ** ****** Corporation *************** *** hydrogen **** ** ******** ********* ******** *** ***** appeared ** have ******* ************** ***** has ******* *********** * worldwide ********** position ** ******** fuel **** ********** ********** ********* ********* **** ***** *** ** **** ** ****** Ene-Farm a ground-breaking *************** fuel **** system for *** ***** ** December 2014 ****** ******** *** ******* ***** ********** **** **** ******* garnering ******* ***** ******** ******* Ichikawa ****** ***** ****** ******************* On ******* ******** ** ******** Energy *** *** ********* ***** ** ******** StorageThe ******** energy ***** ** ******** to ** *** ** *** **** advanced techniques ** *** ***** ******* ******* change *** the ******** ** *** ******** ******** *** ** created ****** *** *********** ******** ****** *** globe ** *************** ********* employing renewable ******* ****** ******* Gas ********* ******** *** ***** can ********* **** if *** **** ** *** **** ******* hydrogen may ** **** ** **** ***** ***** ***** **** ** ******** ** ******* ****** **** heat) ***** may ** ******** as * ********** ******* ********** *** ******** ***** This ******************************* transformation is only viable if *** power is generated from renewable sources ********* iterative and *********** *********** is *********** infused **** *** grid ***** ***** it may ** ******** **** * **** **** ** ******** ********** electricity ** * result ** ** ********* ** include a ******* ***** in the hydrogen ***** ** ******* *** timing ** ******** ********** *** *********** ******* ** *** ******** intermittent ********** ** most ********* ****** ********* effective ******** ******* ******* ** ********** *********** Weber ***** Barbier ************* ******* materials ******* *** ********* intermetallics ****** *********** **** **** ** *********** ******* affinity *** hydrogen ******** for uptake ********** ** ********** ** ******** ** ************ *** ********* ***** ** ******* pressure *** standardtemperature ******** Demirci ***** Miele 2015)Comparing ******** ******* ********** ** *** *** liquid ******** ******* ************ ******** ******* components *** ******** ***** * **** significant ************* of hydrogen ******* ** **** ******* ********* ******** ******* ********** *** ******** to be *** most ********** ***** for *** **** on-board *** ****** as **** ** *** *** in extreme ************ ******** ******* & ***** ***** *********** **** ***** ** ********** have **** investigated *** their ability ** ******* *** ********* characteristics: ******** *** * **** density in terms ** specific gravity and ***** ******* *** ****** **** is *********** dynamic *** ********************** characterized ** reversible ******** ******** ** ******** ************ and pressures The ***** *** ****** ************ *** rapid ******** ****** ********* ********* ********* *** ***** ******* forms ** ******** ******** in hydrogen storage *** ******* ** physisorption or *** ** classified aschemisorption ************* ** *** most ****** ******* ********** ****** * ***** ******* **** are ***** ******** *** hydrogen fuel ********** **** ****** ************* ** ***** ******** ** reach optimal ******** ********* in **** scenario it is ******** to operate at *********** ******* under ** * ***** at ata atm **** ** ************* *** ********** ofenergy for the ************* of ******** in ********* ****** ********* ** ** ****** ****** H2 ******* Tsotsis & ****** ******** ******* ************* *** ******** are ******* in *** ******* of *********** ***** method ** ***** hydrogen *** *** be ****** ** through gas ********* ** **** ******** of ** to ****** *** second method of ******** ******* ** through ****** ********* ***** ***** are **** ** ********** degrees ****** *** third ****** ** hydrogen ******* involved the application of ******** hydrogen ** ********* with * large ******* **** at ************ less **** *** hundred ******* ****** The ***** ****** **** ******* pressure and *********** ** apply ******** ********** ***** in * **** ***** for ******* *** fifth *** ** ***** the hydrogen ** stored ** ***** ** is ********** ****** in covalent compounds *** ***** ********* ata ******* pressures *** **** *** ******** ******* ******* ******* oxidation **** **** ******** metals like **** lithium ** ********* with ***** ****** ***** *** **** *** *********** of *** *********** ********* **** are ********* *** *** ********* ************ ***** ***** ******* *** ** ********** *** ********** ******* ** ************* ********** kilograms *** meter ***** *** be attained ****** storage is ***** **** as ********** ** the ****** ***** ******** ** ** 2009) ****** hydrogen ** kept in pressurized ********* tanks ** *** ******* ******* *** *********** ******** ****** hydrogen *** only ** **** ** **** ********* ******* of the ******* ******** temperatures ** ******** ***** *** thirty-three ****** *** ****** ******** **** has * ********** density ** ***** seventy ***** eight ********* *** meter cubic *** when ****** ** large ********** ** * ********* ***** theheat ****** *** ******* ******** *** ******* * system's **** ***** **** *** ***** ******** have *** **** *********** ***** ********* of ******** ***** ****** ** they *** ****** ****** ******** (Scanlon ** al ************ ****** *** ****** can ********** ****** **** ********** ** ******** *** ******** ** ** *********** ***** *** ******** *** *** in *** molecular state ** **** *** ******** ***** **** *** electrolyte ******* ****** ****** metals from ****** ***** ** *** and **** as ********* ******* ********* ** ******* usually interact and ***** **** ****************** * **** ***** ** ******* ***** ******** ***** *** ************ *********** due ** ***** *** weight *** *** **** amount ** ********* ************* found ** **** metal atom which ** ***** *** ********** **** ********** in ***** ********* ************ **** ******** metals fr ******** zinc or ********** be used ** ***** ******** ********** **** undergo * ******** ******** **** ***** **** * ********* ***** involved in *** liberation ** hydrogen **** **** ******** ******* ******* & ****** ************* *** ***** CombinationsJapan ** ************ ********** ** *** ***** ********* This nation ** *** ****** ******* ** *** design ** ******** energy ********** ** ******** energy becomes **** ********** it *** revitalize *** Japanese ******** *** ******* additional ********** ***** now ***** ** ** *** world ** ***** ** ************* *** hydrogen powered ******** and ******** enterprises *** **** **** competitive in ************ ******** ******* ********** ** **** geothermal ***** Japanese ********** **** ********* * *********** ******* ** *** utilization ** ******** *** strategy for ********** ******** ****** ***** ** to ******* it **** ***** less ********* ****** ******* ********** *** ******** ** ******** ***** ******** costsHydrogen and Coal *** Zero Emissions:Combining costly *** *************** ********* ******** generation *** ********** cheap but *************** ******** **** ** **** complimentary *** slope ** * **** ** ******** Heavy *********** initiative ** ******* a "CO2-free ******** ************* centered ** generating hydrogen **** ************** ** ********* ****** ******** Dicks ***** ** ***** ************* has ******** * ******* in ***** ***** **** **** ********* ****** ***** in *** ********* of ******** **** be ********* into * ******* of ************ comprising ******** and ** ******* ***** * ******** ****** ** gasification *** CO2 **** ** absorbed at *** ****** *** ********* ** *********** **** ********** ** *** same **** *** ******** might ** delivered ** ***** ** ******* tankers to ******* the ********* **** for ********* *********** *** ******** energy ********** completion ** * ******* **** ******** ***** two practical ************ ** *** *** ******** ****** ***** have *********** ************* ********** *** the ******** ***** *** **** there ****** ******** ***** & ** ***** ************* **** a ******* would ****** Japanese businesses ** *** **** ************** **** ****** *** ** another ****** comparable to bidirectional ****** sequestration **** ***** **** benefit ******** ****** by ************* ** an ************** that enables ******* demand for ******** ************ ***** plants ** **** **** ********** * ******** ******** ******* ***** **** ** * **** or ******* ****** ************** Europe * *** application ** ********* ** ******* ********** ****** to **** is ******* ********* ** ***** ***** ****** is ******** to *********** ***** into *** ***** ***** ******** *** ****** ********* ** *** ********** **** ******** ** subsequently injected **** *** ******* *** ************ ****** and consumed ** gas This ******** **** *** need the ************ ** power cables and **** ****** ****** ********* ** **** turbines *** other ********* that could ** to junk ***** ***** ****** ******* **** approach hydrogen *** be ******** ** accommodate the ************ of other energy sources ***** **** using their advantages *** **** the most ********** ****** ** ******** energy ** its potential to profoundly ***** ****** ****** ****** ******** *** ******** of consumption ***** & ****** ******************* *** **************** ** * **** **** may ** used ** ************* ************** ** energy ******* *** ****** ** ***** ***** the **** ********* **** *********** ******* ********* *** ******** potential advantages of ******** ****** Hydrogen ** ******** ** a ******* fuel ***** ** ******* ** co2 from *** ********** or ***** greenhouse gas ********* **** **** ****** ** ***** water) ************ **** **************** ******* **** ** the ****** ***** of ******** *** to *** ********** Since ***** advantages *** ********* when ****** fuels *** ******** ** ******* *** gas ******** ********** ***** ********* ********* is *** ideal *********** for ******* *** ******* ******** *** *** *********** ***** & ****** *********** since hydrogen **** ***** *** very ****** ********* they ******* significant ********* *** reducing total ****** use ********* ****** *** ** the ****** **** ** ********** ********** ** ******* electric ***** ********* is ****** * proportion **** the usage ** **** ***** may significantly ******** ************ ************ houses *** ***** structures **** ********** fuel cells ***** ***** ********** ** **** ***** ******* *** ********** ******* ****** *********** ****** savings ***** ***** ****** ************ ******** ****** *** ******* ********* *********** ** *** **** ** * *********** ********** ** another natural ******** **** cell-equipped ****** and *********** ***** ** ******** ** *********** ***** ******* ********* protecting ***** *** ****** environments simultaneously *********** Weber & Barbier ******** ****** ****** ** **** ***** ******** *** ** created in ******* **** *** **** are *** limited to *** energy ********* ** may **** be ******** ** transfer energy ***** ******* **** it *** **** compensate for ***** deficiencies while ************ ***** ********* **** ******** **** other energy ******* In some ******** **** ******* to ******* the energy ******** ** * ***** *** **** *** **** promise *********** Weber ***** ******* *************** Hydrogen ** ** ****** transmitter which means that ** may be ******** ** ***** ********** ****** **** ** ** *** ******** *** then **** *** ****** energy accessible **** *** main ****** ** ****** ** *** ********* ** adequate ** **** the population's ***** As * ****** ******** ** especially **** suited for renewable ****** ******* ******** storage materials ****** are ********* ************** **** *********** **** **** ** appropriate binding affinity *** hydrogen ******** the ****** *** ********* hydrogen ** ************ *** ********* ***** to ******* ************************** F ****** Fuel ***** **** present *** futureElectrochimica ********* ******* doi: ********************************* * ******* T & ****** * ****** ************* ************* *** ********** ****** hydrogen ******* ** ****** nanotubesInternational Journal ** Hydrogen *********** 1390-1397 doi: 101016/jijhydene201310163Barthelemy H ***** * & ******* F ****** Hydrogen ******** Recent improvements and ********** ************************* Journal ** ******** ************ ********* doi: ******************************** * Demirci U ***** ***** * ****** ****** Dehydrogenation-(Re)Hydrogenation **** **************** ********** An OverviewEnergy Technology3(2) ******* doi: 101002/ente201402136Choudhuri * (2000) Combustion *************** ** ********************** hybrid ****************** Journal ** ******** *********** ******* **** ********************************** * ******** * ****** * ***** Uchida H ****** Building a ******** ************** in JapanCompendium ** ******** ****** ******* **** ************************************ D ***** Hirose * ****** Recent ********** ** ******** storage technologies *** fuel cell ********************* ******* ** ******** ************ ********* **** ********************************* * Alekseev A ***** Wasserscheid * ****** ******** ******* ************ for ****** ****** ************* Review ** ******** *** Biomolecular Engineering8(1) ******* **** *************************************************** * (1998) An overview ** ********** **** ** hydrogenInternational ******* Of ******** *********** ******* **** 101016/s0360-3199(97)00112-2Scanlon * **** * Balbuena * ***** G Duan X & Underwood * et ** ****** ******** ******* ***** ** PhysisorptionThe ******* ** ******** ********* ******** ********* doi: ********************* E McLellan * ***** * ***** ** Costa * (2006) ******** from coal: ********** *** utilisation technologiesInternational ******* ** **** Geology65(3-4) ******* doi: ************************* * (2008) A ************ ******** of ******** energy ********** ****************************** ******* **** *********************************** * ****** ******* ********* *** Future ****** ** Energy StorageProceedings Of The IEEE100(Special ********** Issue) 1518-1534 **** *************************