72 हज़ार views, 1.6 हज़ार likes, 93 loves, 123 comments, 340 shares, Facebook Watch Videos from BATAK Excellent: Ai diingot ho dope ito na diparsobanan i Romanized. [Intro] G Am Em C G Am Em C [Verse 1] G Cm G nē doko ni iruno Em sagashi tsutsu keta A7 C D yubisaki no ito no yukue G Cm G itsumo kaze ni fukare Em hibi no rasen de A7 C D tsunagaru basho sagashiteta [Pre-chorus] Bm C mishinau sono tabi ni D B doko ka ni iru ndato Em A7 mada minu kimi no koto C D G omottemashita [Chorus] Em C Chorus c am huboto do ito na holong dope roham d g tu pariban mi boru ni em tulang mi da hassian. Huboto do holong roham tu au saleleng on. Holan sasada ho do ito. Not much to add to the myriad of comments, except maybe don't go cover to cover like i did. C g d g c huboto do ito jogal ni rohakki tu ho d g huboto do holan monang sandiri au g c Holong do.Iatu;daa hudok di ho: -Humol-ong dope rohana' di ho', sian roha ni amangmu na di. tano on. Djotdjot ditadingko'n amaamha dohot inana, anakkonna, laho mate;' alai didjalo Debata do da'kda nak na so, morama na so morina. Sal diingot Debata do ho tongtong, djala -dipasarisari na.hasea di ho, dun'g i dipasahat ho tu-natorasmu, djala 1. Introduction. Indium tin oxide (ITO) thin films are the most widely used type of transparent conductive oxide (TCO) thin film. Because of their low resistivity and high visible light transmittance, ITO thin films can be used in numerous optoelectronic applications such as liquid-crystal displays [1], flat-panel displays [2], and touch-panel technologies [3]. The optimized ITO:Ti thin film shows a carrier concentration of 6.24 × 10 20 cm −3, a mobility of 34 cm 2 /V s, and a resistivity of 2.3 × 10 −4 Ω cm at the Ti atomic ratio of 2.5%. The ITO:Ti film also shows a better thermal stability, which is thought to be due to the polycrystalline structure. S2qB.

ai diingot ho dope ito chord