I'm not sure you can gain performance from using different ADO types. I think it's more to do with database size and structure.
I had similar troubles to you with my application. Although I have built many, many apps for my clients, not many of them had a huge audience. Recently I have built one, and boy, did I have to learn a thing or two to get it to be efficient.
Here a few things to consider, if you haven't already. Some might be a bit basic for you but useful to others too:
1) INDEX or FULLTEXT INDEX - To speed up my database, I added INDEX's to the columns I query which speeds up my queries a huge amount (but slows down the INSERT's slightly). I also added FULLTEXT INDEX's to the columns where I searched for multiple words, so I could lose the horribly slow LIKE/IN clauses.
2) Normalization or De-normilization - One of my queries searched 16 tables using joins and sub-queries and turned out to be slow, bulky and confusing. I fixed this by creating a "de-normalized" table, that contained all the usable data from those 16 tables that I needed for the search. So with the help of FULLTEXT INDEX and a de-normalized and indexed table, my query is just a few lines in length is remarkably quick. Before using de-normalized tables, you must first understand normalized tables. For me, this was the correct situation where you can break the rules.
3) SQL Field selection - Only select the fields you require in your SQL query. This is a simple mistake but still can be made. For example, don't do (select * from myTable) if you don't need all the columns returned, do something more precise like (select id, fname from myTable), if that's the only columns you need.
4) DB cleanup - I'm not sure about Access but in MYSQL you can cleanup your DB by using the OPTIMIZE query, which repairs any gaps in your DB, sometimes created by inserting and deleting lots of data frequently. You can also use EXPLAIN, which explains your query in detail, such as a timer, indexes used, rows used and records returned.
There are many ways to gain DB performance. If you Google "database optimization" or "database tuning", you should find some good reads..