Single-walled carbon nanotube (SWCNT) films are promising materials for transparent conductive films (TCFs) with potential applications in flexible displays, touch screens, solar cells and solid-state lighting1,2. However, further reductions in resistivity and in cost of SWCNT films are necessary for high quality TCF products3. Here, we report an improved floating catalyst chemical vapor deposition method to directly and continuously produce ultrathin and freestanding SWCNT films at the hundred meter-scale. Both carbon conversion efficiency and SWCNT TCF yield are increased by three orders of magnitude relative to the conventional floating catalyst chemical vapor deposition. After doping, the film manifests a sheet resistance of 40 ohm/sq. at 90% transmittance, representing record performance for large-scale SWCNT films. Our work provides a new avenue to accelerate the industrialization of SWCNT films as TCFs.