?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=KAJIAN+KONDUKTIVITAS+LISTRIK+ZEOLIT+PADA+PERLAKUAN%0D%0ATERMAL+150%C2%B0C%2C+250%C2%B0C%2C+350+%C2%B0C+DAN+POTENSINYA+SEBAGAI%0D%0AELEKTRODE+SUPERKAPASITOR&rft.creator=ALFI+HAMIDAH+%2C+(1217041003)&rft.subject=Q+Science+(General)&rft.subject=QC+Physics&rft.description=ABSTRAK%0D%0A%0D%0ATelah+dilakukan+sintesis+zeolit+dengan+bahan+dasar+silika+sekam+padi%0D%0Amenggunakan+metode+sol+gel+dan+perlakuan+termal+150+%C2%B0C%2C+250+%C2%B0C%2C+350+%C2%B0C.%0D%0APenelitian+ini+bertujuan+untuk+mempelajari+perlakuan+termal%2C+mikrostruktur%2C+dan%0D%0Aluas+permukaan+spesifik+yang+mempengaruhi+nilai+konduktivitas+listrik+zeolit.%0D%0APerlakuan+termal+yang+tinggi+menghasilkan+ukuran+partikel+yang+kecil%2C+ukuran%0D%0Apori+yang+kecil%2C+ukuran+butir+yang+besar%2C+dan+luas+permukaan+spesifik+yang+tinggi.%0D%0ASedangkan+konduktivitas+listrik+yang+tinggi+didukung+oleh+ukuran+partikel+yang%0D%0Akecil%2C+ukuran+pori+yang+besar%2C+ukuran+butir+yang+besar%2C+dan+luas+permukaan+yang%0D%0Atinggi.+Berdasarkan+hasil+LCR%2C+diperoleh+konduktivitas+listrik+kalsinasi+150+%C2%B0C%2C%0D%0A250+%C2%B0C%2C+350+%C2%B0C+berturut-turut+adalah+1%2C3029+x10-4%2C+1%2C5540+x10-4%2C+dan+1%2C4852+x10-4%0D%0AS%2Fcm.+Konduktivitas+listrik+paling+tinggi+terdapat+pada+suhu+250+%C2%B0C%2C+namun+hanya%0D%0Adidukung+oleh+pori+yang+besar%2C+yaitu+3%2C996+%CE%BCm.+Sedangkan+pada+suhu+350+%C2%B0C%0D%0Adiperoleh+ukuran+partikel+paling+kecil%2C+ukuran+butir+paling+besar%2C+dan+luas%0D%0Apermukaan+spesifik+paling+tinggi%2C+masing-masing+adalah+15%2C396+%CE%BCm%2C+5%2C291+%CE%BCm%0D%0A242%2C027+m%C2%B2%2Fg.+Penyimpangan+ini+terjadi+karena+adanya+aglomerasi+dan+perubahan%0D%0Astruktur+fasa+pada+suhu+250+%C2%B0C.+Berdasarkan+nilai+konduktivitas+listrik+yang%0D%0Adihasilkan%2C+zeolit+termasuk+dalam+semikonduktor+dan+berpotensi+sebagai+elektrode%0D%0Asuperkapasitor.%0D%0AKata+Kunci%3A+Konduktivitas+listrik%2C+luas+permukaan+spesifik%2C+mikrostruktur%2C%0D%0Aperlakuan+termal%2C+zeolit.%0D%0A%0D%0AABSTRACT%0D%0AThe+synthesis+of+zeolite+based+silica+from+rice+husk+was+conducted+using+sol+gel%0D%0Amethod+and+thermal+treatment+at+temperature+150+%C2%B0C%2C+250+%C2%B0C%2C+350+%C2%B0C.+The%0D%0Amicrostructure%2C+specific+surface+area%2C+and+electrical+conductivity+was+investigated%0D%0Ato+study+the+electrical+conductivity+of+zeolite.+The+high+thermal+treatment%0D%0Aproduces+small+particle+size%2C+small+pore+size%2C+large+grain+size%2C+and+high+surface%0D%0Aspecific+area.+Meanwhile%2C+the+high+electrical+conductivity+can+be+supported+by%0D%0Asmall+particle+size%2C+large+pore+size%2C+large+grain+size%2C+and+high+spesific+surface+area.%0D%0AThe+electrical+conductivity+of+zeolite+obtained+at+150+%C2%B0C%2C+250+%C2%B0C%2C+350+%C2%B0C%0D%0Arespectively+are+1%2C3029+x10-4%2C+1%2C5540+x10-4%2C+and+1%2C4852+x10-4+S%2Fcm.+The+highest%0D%0Aone+was+obtained+at+250+%C2%B0C%2C+but+it+is+only+supported+by+a+large+pore+of+3%2C996+%CE%BCm.%0D%0AMeanwhile%2C+at+350+%C2%B0C+was+obtained+the+smallest+particle+size%2C+the+largest+grain%0D%0Asize%2C+and+the+highest+surface+area%2C+respectively+was+15%2C396+%CE%BCm%2C+5%2C291+%CE%BCm+242%2C027%0D%0Am%C2%B2%2Fg.+These+deviations+occur+due+to+particle+agglomeration+and+structural+changes%0D%0Aphase+at+temperature+250+%C2%B0C.+Based+on+the+result+of+electrical+conductivity+values%2C%0D%0Azeolite+is+included+in+the+semiconductor+and+has+potential+as+a+supercapacitor%0D%0Aelectrode.%0D%0AKeyword%3A+Electrical+conductivity%2C+microstructure%2C+specific+surface+area%2C+thermal%0D%0Atreatment%2C+zeolite.&rft.publisher=FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM&rft.date=2016-10-17&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F24310%2F1%2FABSTRAK%2520%2528ABSTRACT%2529.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F24310%2F19%2FSKRIPSI%2520FULL.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F24310%2F20%2FSKRIPSI%2520TANPA%2520BAB%2520PEMBAHASAN.pdf&rft.identifier=++ALFI+HAMIDAH+%2C+(1217041003)++(2016)+KAJIAN+KONDUKTIVITAS+LISTRIK+ZEOLIT+PADA+PERLAKUAN+TERMAL+150%C2%B0C%2C+250%C2%B0C%2C+350+%C2%B0C+DAN+POTENSINYA+SEBAGAI+ELEKTRODE+SUPERKAPASITOR.++FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F24310%2F